v . -
UNITED STATES ENVIRONMENTAL PROTECTION AGENCY
WASHINGTON. D.C. 20460
OFFICE OF -
ADMINISTRATION
AND RESOURCES;^
MANAGEMENT ;--
MEMORANDUM
. ,*mf j i .. - !•• . rru
SUBJECTS Guidelines for the Sele.ction. of Chemical Protective
Clothing..- Third Edition
FRQMs David Weitzman, Acting Director
Occupational Health and Safety Staff
TJQ/ Users of the Chemical Protective Clothing Guidelines
I am pleased to provide you with a copy of the "-Guidelines
'for the Selection of Chemical Protective Clothing" - Third iEd it ion.
The Guidelines meet an important need of the Super fund program.:
to^prppide up-to-date recommendations for selecting chemical -
protective clothing. All chapters and appendices have been' :
updated- through December 1986.
..This edition of the Guidelines contains approximately 3500
^recommendations' covering over. 500 chemicals and 36 clothing
materials. Qualitative chemical resistance information and.
qualitative test data were combined to generate these recommend-
ations
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The Guidelines is the most comprehensive compilati’on 6!
c1 emical protective clothing performance and use information
cuLrrently available. We are continuing to update the performance
.ard:*use information and are considering adding new chapters for
future.editions. If you have any suggestions or comments
pl a se contact Cherie Zieschang at (202) 382—3650.
I hope you find the updated Guidelines a useful reference.
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Volume I: Field Guide
Guidelines for the
Selection of Chemical
Protective Clothing
3rd Edition
A.D. Schwope, Arthur D. Little, Inc.
P.P. Costas, Arthur D. Little, Inc.
J.O. Jackson, Los Alamos National Laboratory
J. O. Stull, U.S. Coast Guard
D.J. Weitzman, U.S. Environmental Protection Agency
February 1987
Office of Administration
Occupational Health and Safety Staff
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DISCLAIMER
Arthur D. Little, Inc., prepared this document with what it believes
is the best currently available information. The document is subject
to revision as additional knowledge and experience are gained. Arthur
D. Little cannot guarantee the accuracy of ‘information used to develop
the chemical protective clothing recommendations contained herein, and
the mention of company names or products does not constitute endorse-
ment by Arthur D. Little. Arthur D. Little accepts no responsibility
for damages or liabilities of any kind which may be claimed to result
from the use of this document.
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ACKNOWLEDGEMENTS
This Guidelines for the Selection of Chemical Protective Clothing was
prepared by Arthur D. Little, Inc., (Cambridge, Massachusetts), under
subcontract to Los Al mos National Laboratory (New Mexico) for the U.S.
Environmental Protection Agency (EPA) and the’ •U.S. Coast Guard.
Particularly helpful in the preparation of this, the third edition of the
Guidelines were.J.F. Stampfer and H.J. Ettinger (Los Alamos National
Laboratory)’, and Krister Forsberg. Mr. ‘Forsberg of the Royal Institute
of Technology (Stockholm) reviewed each, line of data presented in
Appendix A of Volume II for consistency with the original literature
sources. We also thank Dr. Douglas Walters of the National Toxicology
Program for contributing an extensive compilation ,of glove permeation
data generated for the NTP by the Radian Corporation.
The text, except for the addition of Chapter 5--Full-Body Protection to
Volume I,’ ‘remains essentially the same (although updated) as the first
EPA and ACGIH editions for which we note the support and review comments
of W. Aaroe, B.E. Benson, S.P. Berandinelli, R. Ellis, E.R. .Hoyle,
K. Hunninen, R.F. Kent, W.F. Keffer, R.C. Magor, A.P. ‘Nielson,
M.D. Royer, A. Smith, R.S. Stricoff, F. Thompson, R.D. Turpin. L., Walz,
and R.W. Weeks. In addition, we appre’ciate the assistance of encapsulat-
ing ensemble manufacturers in the preparation of Appendix C of Volume I.
The authors also acknowledge the contributions of the Arthur D. Little
project team which included William Hawes, whose programming skills
greatly facilitated the information ‘organization task, and T. Carroll,
C. Luciano, M. Rourke, and D. Ryan, who assisted us in gathering, and
inputting ‘the information. Finally, we thank the typists and r port
production specialists who assembled the document.
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SPECIAL NOTE TO USERS
This document contains comprehensive tables of recommendations to aid and
facilitate the selection’ of chemical protective clothing (CPC). The
recommendations are based on an extensive ‘compilation and analysis’ of CPC
vendors’ literature and experimental test data published in technical
journals ‘and reports. It is imperative that users of the recommendation
tables familiarize themselves with the background information that
precedes and accompanies the tables. The selection of CPC must take into
account the potential hazard and the conditions of use- -neither is
considered in this document. , The recommendations are riot nor do they
imply a guarantee of safety.
Although every effort has been made to prepare this document as ac-
curately as possible, errors can and do occur. Users of this document
are asked to no’tify Lt. Jeffrey 0. Stull, Commandant (G-DMT-3), U.S.
Coast Guard, 2100 Second Street, S.W., Washington, D.C. 20593
(202-267-0853), or Mr. David Weitzman, U.S. Environmental Protection
‘Agency Office of Occupational Health and Safety, Room 3503, Waterside
Mall, 401 M Street, S.W., Washington, D.C. 20460 (202-382-3647) of errors
so that theycan be corrected.
iv
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TABLE OF CONTENTS
VOLUME. I
Page
CHAPTER 1 - OVERVIEW 1
A. INTRODUCTION 1
B. CHEMICAL PROTECTIVE CLOTHING 1
C. OBJECTIVE OF THE GUIDELINES 2
D. AUDIENCE’ AND ORGANIZATION OF 2
GUIDELINES ‘
CHAPTER 2 - CHEMICAL PROTECTIVE CLOTHING 4
LIMITATIONS
A. CHEMICAL RESISTANCE ‘ 4
B. DESIGN AND CONSTRUCTION 4
C. APPLICATION 5
D. REUSE ‘ 6
E. ‘‘SUBSTITUTION OF CPC 6’
F. COST 6
CHAPTER 3 - PERMEATION THEORY’ .7
A. INTRODUCTION ‘ 7
B. PERMEATION THEORY CONCEPTS 7
C. INFLUENCING FACTORS 8
CHAPTER 4 - CLASSIFICATION OF CHEMICAL 11
PROTECTIVE CLOTHING
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TABLE OF CONTENTS (CONTINUED)
Page
19
19
20
31
39
39
40
47
4.7
47
48
48
48
49
51
51
51
52
54
54
61
64
66.
121
CHAPTER 5 - FULL-BODY PROTECTION
A. INTRODUCTION
B. ENSEMBLE DESIGN AND CONSTRUCTION
C. ENSEMBLE EVALUATION
D. QUALITY CONTROL
E. SPLASH SUITS
F. ENSEMBLE SELECTION CONSIDERATIONS
CHAPTER 6 - CPC USE PROCEDURES
A. PURCHASE
B. PRE-USE INSPECTION
C. DONNING
D. IN-USE
E. DOFFING
F. REUSE AND STORAGE
CHAPTER 7 - CPC. VENDORS’ LITERATURE
A. INTRODUCTION
B. COMMENTS ON VENDORS’ CPC RATINGS AND
RECOMMENDATIONS
C. VENDORS’ TEST METHODS
CHAPTER 8 - CPC RECOMMENDATIONS
A. SCOPE: AND LIMITATIONS
B. RECOMMENDATIONS
? c ( SERI T C ONS
MATRIX A - RECOMMENDATIONS BY CHEMICAL
MATRIX B: - RECOMMENDATIONS BY CHEMICAL
CLASS
vi
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• TABLE OF CONTENTS (CONTINUED)
Page
APPENDIX A - GLOSSARY • A-i
APPENDIX B - CHEMICAL INDEX B-i
APPENDIX C - PRODUCT INDEX C-i
APPENDIX D - VENDOR DIRECTORY • D-i
APPENDIX E - PRODUCT DESCRIPTION CODE ‘ • E-i
APPENDIX F - CLOTHING CLASSIFICATION CODE F-i’
.APPENDIX G - DATA SHEETS FOR ENCAPSULATING G-i
• ENSEMBLES
• APPENDIX H - PRODUCT DESCRIPTIONS • FOR SPLASH H-i
SUITS
APPENDIX I - DEFINITION OF PROTECTION LEVELS I-i
‘APPENDIX J DOFFING PROCEDURES • J-1’
vii
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CHAPTER. 1
OVERVIEW
A. INTRODUCTION
Skin Ls an organ of the human body and has a surface area of about
1.8 m . A principal function of skin is to protect our internal organs
from exposure to potentially harmful components of the external environ-
ment. Direct contact with chemicals can pose a significant challenge to
the skin; possible reactions are:
• The skin will act as an effective barrier, and there will be no
detrimental effect due to the contact.
• The skin will suffer a primary irritation such as a burn
(corrosion), chafing due to extraction of essential oils, or
dermatitis.
• The skin will become sensitized to the chemical. ‘Once sensi-
tized, the skin will react to quantities of chemicals much
smaller than otherwise would have any effect. Some chemicals
are both primary irritants and sensitizers,.
• The skin will be penetrated by the chemical’, and the chemical
and/or its metabolites will enter the blood stream. This may
or may not have a health effect, depending on the chemical and
the amount of exposure.
The latter type of reaction, which would include, for example, irrepara-
ble liver damage and cancer, receives a high level of attention from both
the lay and the technical communities. And, of course, such debilities
warrant serious consideration. However, it is also important to recog-
nize that primary skin irritations and sensitizations account for signif-
icantly greater numbers of lost time incidents. It is estimated that
skin diseases account for two-thirds of all identified job-related
diseases. Furthermore, seven’ out of ten industrial claims paid by
insurance companies are for temporary disability resulting from derma-
titis.
B. CHEMICAL PROTECTIVE CLOTHING
Along with engineering controls and carefully planned work procedures,
chemical protective clothing ‘(CPC) is a key element in minimizing the
potential for worker exposure to chemicals. In the context of this
document, CPC includes all, items of clothing primarily intended to,
prevent chemical contact with the skin. These include gloves, coveralls,
pants, jackets, and boots. Respirators are not included. in this
classification.
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C. OBJECTIVE OF THE GUIDELINES
CPC in one form or another is commercially available from hundreds of
vendors in the United States. Furthermore, the clothing is fabricated
from a wide variety of plastic and rubber materials. In addition, the
effectiveness of a particular item of clothing is highly dependent on the
chemical with which it may be challenged. For example, a neoprene glove
provides excellent protection from sulfuric acid, but it is rapidly
permeated by toluene. Finally, the conditions under which the clothing
is used can affect performance. These factors combine to create a
perplexing situation for those who are involved in or responsible for the
protection of workers who handle chemicals--for example, at a hazardous
waste site.
In recognition of this problem, the EPA’s Occupational Health and Safety
Staff developed in 1983 the Guidelines for the Selection of Chemical
Protective Clothing. To this third edition of the Guidelines, the Coast
Guard’s Office of Research and Development has added a chapter and three
appendices pertinent to full-body protection. The objective of the
Guidelines is that it be a concise, up-to-date source of information
pertinent to the selection of clothing for protection from chemicals.
All chapters and appendices have been updated as of December 1986.
D. AUDIENCE AND ORGANIZATION OF GUIDELINES
The Guidelines is principally directed towards:
• field safety personnel who are more typically faced with an
immediate need, to provide the best clothing for workers .oi-i a
day-to-day basis, and
• planners and researchers who, for example, have the respcnsi-
bility for developing the safety plan for a particular project.
These personnel may have the time to investigate peculiarities
in clothing performance or tb prescribe clothing testing in
anticipation of particular needs.
In order to satisfy such diverse requirements,, the Guidelines is divided
into two volumes. Volume I is intended to be useful as a “field manual.”
It contains a discussion of the basic concepts of permeation and chemical
resistance, an overview of CPC vendors’ literature, detailed discussion
of’full-body protection, an analysis of test methods for CPC, and, proba-
bly most importantly, two matrices for the selection of protective
clothing. The matrices’ present clothing recommendations for 12 major
clothing materials and cover approximately 500 chemicals or aqueous
solutions. In addition, permeation data are provided for approximately
25 multi-component organic solutions. The appendices include an exten-
sive listing of CPC sources organized by product type and principal
chemical barrier material. Detailed information is provided for full-
body ensembles. The appendices also include a glossary of’ CPC terms and
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instructions for selecting clothing types and doffing potentially contam-
inated clothing.
Volume I brings virtually all CPC performance information to one loca-
tion, and provides the basic information required to select, order and
intelligently use CPC. The sources are identified in the Bibliography of
Volume II.
Volume II is more technical in content. It contains a more detailed
discussion of permeation theory, CPC testing methods and CPC vendors’
literature. The appendix to Volume II contains all the data on which are
based the recommendations in the matrices ‘of Volume I. In one sense,
Volume II could be considered a supporting document for Volume I. In
another, Volume II serves as the starting point for further investigation
of CPC.
Together the two volumes represent the most comprehensive compilation of
chemical protective clothing performance and use information available to
the public. We urge the use of the Guidelines as an important means for
maintaining the well-being of workers who may be exposed to potentially
harmful chemicals. We, furthermore, urge all users of the Guidelines to
participate in its continued improvement by sending comments ,and criti-
cism’s to:
Lt. Jeffrey 0. Stull
Commandant (G-DMT-3)
U.S. Coast Guard
2100 Second Street, S.W.
Washington, D.C. 20593
Mr. David Weitzman
U.S. Environmental Protection Agency
Office of Ocèupational Health and Safety (PM-273)
Room 3503 Waterside Mall
401 M Street, S.W.
Washington, D.C. 20460
3
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CHAPTER 2
CHEMICAL PROTECTIVE CLOTHING LIMITATIONS
The use of chemical protective clothing is but one component of the
overall program for maintaining the health and safety of workers. It
complements (and is not a substitute for) good planning, work practices,
engineering and administrative controls, or personal hygiene. Several
factors which. should be considered in the specification and selection of
CPC are discussed in the following paragraphs.
A.. CHEMICAL RESISTANCE
The performance of CPC as a barrier to chemicals is determined by the
materials and quality of its construction. Chemical protective clothing
is based on plastic and elastomeric materials. Typically each chemical
interacts with a given plastic or elastomer in a relatively unique
manner. That is, each chemical/material pair has peculiar interactions.
The situation becomes even more complex when multi-component solutions
are involved. Four important factors to bear in mind when considering
CPC are:
• In general, there is no such thing as “impermeable” plastic or
rubber clothing.
• No one clothing material will be a barrier to all chemicals.
• For a given clothing material type, chemical resistance can
- . vary significantly from product to product. For example, not
all brands of nitrile gloves provide equivalent protection.
• For certain chemicals or combinations of chemicals, there is no
commercially available glove or clothing that will provide more
than. an hour’s protection following contact. In these cases,
it is recommended that clothing be changed as soon as it is
safely possible after any contact with the chemical or chemical
mixture.
B. DESIGN AND CONSTRUCTION
Design and construction factors that can influence performance are as
follows: .
• Stitched seams of clothing may be highly penetrable by chemi-
cals if not overlayed with tape or sealed with a coating.
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• Lot-to-lot variations do occur and may have a significant
effect on the barrier effectiveness of the CPC. They may go
undetected due to quality control procedures insensitive to
chemical resistance issues.
• Pinholes may exist in elastomeric or plastic products due to
deficiencies or poor quality control in the formulation or in
the manufacturing processes.
• Thickness may vary from point to point on the clothing item.
Depending on the manufacturing process, the finger crotch area
of the glove is particularly susceptible to thin coverage.
• Garm nt closures differ significantly from manufacturer to
manufacturer and within one manufacturer’s product line.
Attention should be paid to button and zipper areas and the
number of fabric overlaps in these areas.
Gloves are typically produced by one of two ‘principal processes- -latex-
dipping and solvent (cement) dipping. Latex gloves predominate the
market. Researchers have speculated, however, that the chemical resis-
tance of a solvent-dipped glove may be greater than that of a latex-
dipped glove of the same generic material. The principal reason being
that the solvent-dipped glove is produced by a multiple-dip process while
the latex process is a single-dip operation. In a multiple-dip process,
imperfections in any one layer are covered by subsequent layers. Since
the solvent-dip process is more involved, these products are generally
more expensive. Consequently, the manufacturers of such gloves typically
highlight the fact the, gloves are solvent-dipped in justifying the cost.
Factors that may affect the performance of encapsulating ensembles and
splash suits are discussed in Chap’ter 5.
C,. APPLICATION
The degree of protection provided by an item of clothing is also a
function of the application. For example, a less durable piece of
clothing may be more than adequate for a moderate duration, mild activity
(e.g., sampling) whereas it would not endure more than 5 minutes of a
vigorous, emergency response activity. Factors such as abrasion,
puncture and tear resistance, and reaction to perspiration and crumpling
should be considered. Temperature and, to some extent, humidity have
significant influenoes on the performance of elastomeric and plastic CPC.
Also with regard to application, it is important to recognize that
protective clothing can be cumbersome and restrictive and thereby hasten
the onset of worker fatigue. A result is that the period of safe and
effective worker activity maybe reduced.
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D. REUSE
Protective clothing decontamination and reuse are controversial and
unresolved issues at this time. Often surface contamination can be
removed by scrubbing with soap and water. In other cases, especially
with highly viscous liquids, surface decontamination may be practically
impossible, and the CPC should be discarded. A more subtle problem
arises with regard to the detection and removal of a chemical that has
been absorbed into the elastomer or plastic. Once absorbed, some of this
chemical will continue to diffuse through the material towards the inside
surface even after the surface has been decontaminated. For highly
resistant clothing the amount of chemical reaching the inside may be
insignificant. However, for moderately performing materials significant
amounts of chemical may reach- the inside. This’m’ay not occur during the
work shift but can take place’ while, for example, a glove is stored
overnight. The next morning when the worker dons the glove, he may be
putting his skin into direct contact with a hazardous chemical. In
addition to chemical resistance, which is a function of temperature, both
duration and, the surface area exposed affect the amount of chemical that
may reach the inside surface. Reuse decisions must consider these
factors as well as the toxicity of the involved chemical(s). In fact,
unless extreme care is taken to ensure decontamination, the reuse of CPC
which has been contacted with highly toxic chemicals is not advisable,.
In summary, the decision to reuse CPC must take into account previous
uses; unfortunately, there is little or no documented experience for
guidance in this task.
E. SUBSTITUTION OF ‘CPC
Particular caution is required when substituting clothing from one
manufacturer for that of another manufacturer. Clothing performance is
determined by the type of plastic or elastomer, the specific formulation
of that plastic or elastomer, and the clothing manufacturing process.
For example, materials classified generically as nitrile rubber can
differ significantly in composition and, therefore, chemical resistance.
Testing is the only means for identifying the superior products for a
particular application.
F. COST
Cost is an important consideration in the selection and utilization of
clothing, especially where clothing is likely to be damaged (e.g., tear,
puncture, etc.). In some cases it may be more cost-effective to adopt
the practice of, using multiple changes of less expensive but relatively
poorer performing clothing than to attempt to extend the use of better
performing but more expensive clothing.
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CHAPTER 3
PERMEATION THEORY
A. INTRODUCTION
This manual addresses the problem of. selecting the most appropriate CPC
for situations where human exposure to potentially hazardous chemicals is
possible. An important concern in such situations is the effectiveness
of the CPC as a barrier to the chemicals. Barrier properties may be
estimated by simple immersion tests wherein the CPC or a portion thereof
is exposed to the chemical(s) of concern, and the material examined for
obvious signs of degradation, swelling, or weight changes. This has been
the traditional method for generating the chemical resistance tables
which are included in many CPC brochures. It is important to note,
however, that permeation may occur with little or no visible or physical
effect on clothing materials.
The barrier effectiveness of CPC can be measured by permeation testing.
The standard procedure for performing permeation tests is American
Society for Testing and Materials (ASTM) Method F739-85 promulgated by
ASTM Committee F-23. This same committee has developed a standard
battery of chemicals for permeation testing in ASTM FlOOl-86. The 15
chemicals in the battery represent a wide range of chemicals (e.g.,
ketones, acids, bases, hydrocarbons, etc.) and are listed across the top
of Table 5.4. Permeation testing with these chemicals will facilitate
the comparison of clothing materials.
An overview of permeation theory and associated concepts is presented in
this chapter. For more detailed discussion, please refer to Chapter 2 of
Volume II.
B. PERMEATION THEORY CONCEPTS .
Permeation of a liquid or vapor through a rubber or plastic material is a
three-step process involving:
• the sorption of the chemical at the outside surface of the CPC,
• the diffusion of the chemical through the CPC material, and
• the desorption of the chemical from the inside surface
(i.e., towards the wearer) of the CPC.
Of principal importance in selecting CPC for protection from chemicals is
the rate at which chemicals permeate the clothing materials and the time
elapsed between the contact with the chemical and the. appearance of the
chemical on the inside of the CPC (i.e., breakthrough time).
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1. Periueation Rate
Classical permeation theory (Fick’s Law) states that the chemical permea-
tion rate through a material is a function of the:
• diffusion coefficient of the permeating chemical in the mate-
rial (this is a property of the chemical/material pair).,
• the difference in chemical concentrations between the inside
and outside surfaces of the material, and
• the thickness of the material.
Permeation rate is often expressed in terms of the amount of a chemical
• which passes through a given area of clothing per. unit time. (Common
units are micrograms per square centimeter per minute.) Thus, obviously,
the total amount of chemical permeating an article of clothing increases’
as the area exposed to the chemical is increased and also as the duration
of exposure is lengthened. For a given chemical/material pair, the
permeation rate decreases as the material thickness is increased. The
concentration gradient mentioned above pertains to concentrations in the
clothing material itself. Thus, there is generally a decrease in permea-
tion rate as the amount of chemical absorbed by the material decizeases.
This is discussed further in Paragraph C.3. below’.
2. BreakthroUgh Tune
Breakthrough time is defined as the elapsed time from initial contact of
the outside surface of the CPC with chemical to the first detection of
chemical on the inside surface. In some cases (e.g., when handling
• suspect carcinogens), breakthrough time may be the single most important
criterion for CPC selection. Measured breakthrough times are readily
determined by permeation testing and are dependent on the sensitivity of
the analytical method used in the test and the test procedure. ‘ These
factors should be considered when comparing breakthrough time data.
C. INFLUENCING FACTORS
1. Temperature
Most CPC permeation’data and other chemical resistance information are
generated at 20°-25°C. Permeation rates increase and breakthrough times
decrease with increasing temperatures. The extent of the reduction in
barrier performance with increasing temperature is dependent on the
chemical/material pair. •
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2. CPC Thickness
For a given chemical/clothing material pair:
• Permeation is inversely proportional to thickness. Thus,
doubling the thickness will theoretically halve the permeation
rate.
• Breakthrough time increases with thickness. However, there is
no simple mathematical relationship for calculating the break-
through time at one thickness from, that at another thiákness.
3. Solubility Effect
Permeation rate is a direct function of the solubility of the chemical in
the CPC material. Solubility is the amount of chemical that can be
absorbed by a given amount of CPC material (i.e., grams liquid per gram
material); absorption may be accompanied by swelling. In general,
chemicals having high solubilities will rapidly permeate the CPC material
in question. Thus, simple immersion testing to determine solubility is
an expedient means for preliminary evaluation of candidate. CPC items.
(See Volume II for further discussion of solubility and permeation.)
Caution in interpreting solubility data is required, however, since low
solubilities do not necessarily correspond to low permeation rates. It
is important to remember that permeation rate is a function of both
solubility and: diffusion coefficient. Gases, for example, have low
solubilities but high diffusion coefficients and may permeate CPC
materials at rates several times greater than a liquid with moderate to
high solubility in the material.
4. Multi-component Liquids
Multi-component liquids represent a difficult problem relative to the
selection of the most appropriate CPC. Rarely is there any prior .CPC
experience with the particular solution of concern, and often the compo-
nents of the solution are not known. Furthermore, mixtures of chemicals
can be significantly more aggressive towards plastics and rubbers than
any one of the components alone. Finally, the presence of a small
fraction of a rapidly permeating component may carry a chemical that
would permeate at a slower rate if in pure form.
At the present time, researchers are attempting to develop correlations
for the prediction of multi-component permeation. Hovever, this work is
in its early stages. In the meantime, immersion and permeation testing
are recommended as the best means of selecting CPC for multi-component
solutions.
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5. Persistent Permeation
Once a chemical has begun to diffuse into a plastic/rubber material, it
will continue to diffuse even after.the chemical on the outside surface
is removed. This is because a concentration gradient has been estab-
lished with the material, and there is a natural tendency for the chemi-
cal to move towards areas of lower concentration. This phenomenon has
significant implicatIons relative to the reuse of CPC. For example, a
possible field scenario is:
• chemical contacts and absorbs into a glove,
• breakthrough does not occur during the workday since the glove
has low permeability to the chemical,
• prior to removal, the glove is washed to remove surface chemi-
cal, but
• the next morning some fraction of the absorbed chemical has
reached the inside surface of the glove due to continued
diffusion.
Of course, similar scenarios could occur over b.oth shorter and longer
time frames, for example, morning to afternoon or over a weekend. The
user must take this possibility into account when reuse is considered.
Factors influencing persistent permeation were discussed in Chapter 2,
Part D.
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CHAPTER 4
CLASSIFICATION OF CHEMICAL PROTECTIVE CLOTHING
Personal protective clothing (PPC) is a broad category into which is
placed virtually any wearable item designed to protect the well-being of
a worker. Chemical protective clothing is a subcategory of PPC and is
intended .to isolate the worker from contact with chemicals; it is. the
subject of this manual. Items within the subcategory range from goggles
to gloves to full-body encapsulating ensembles. Respirators are not
considered chemical protective clothing within the context of the
Guidelines.
For the purposes of the Guidelines, the common items of CPC have been
divided into ten types that represent specific parts of the body for
which protection is designed. The objective is to facilitate the speci-
fication and purchase of CPC. The classification is presented in
Table 4.1 which is followed by sketches of several of the items.
Appendix C. is a catalogue of presently available CPC and is organized
according to CPC material, with subcategories for each clothing class.
Appendix G addresses specifically full body protective clothing, and
Appendix H addresses splash suits.
The EPA also classifies protective clothing by the . level of protection
that is required based on the severity of the hazard. The classification
scheme and guidance for using it is represented as Appendix I. Other
organizations may have different ways of classifying CPC based on either
function, application, or level of protection. Full-body protection is
discussed in more detail in Chapt r 5.
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TABLE 4.1
CLASSIFICATION OF CPC
Coat, Jacket
Coverall
Apron
Pants, Bib Overall
Full-body Encapsulating
Hood
Shoe Cover
Boot
Face Shield
Glove
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FACE SHIELD
HOOD
13
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JACKET
COAT
14
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PANTS BIB OVERALL
15
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APRON COVERALLS
16
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SPLASH SUIT
17
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FULL BODY ENCAPSULATING SUIT
18
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CHAPTER 5
FULL-BODY PROTECTION
A. INTRODUCTION
1. Purpose and Scope
The type of chemical protective clothing required for any given situa-
tion depends on the amount, composition and toxicity of the chemical(s)
involved, and the duration of exposure. In the most severe cases or in
cases where the above factors are poorly defined, the highest degree of
body and respiratory protection is required. The EPA has categorized
such protection as Level A protection. (See Appendix I .) As defined,
Level A protection includes a fully encapsulating, single-piece, chemi-
cally resistant ensemble with gas-tight closures and interfaces between
pants/boots and sleeves/gloves. It also includes a pressure-demand,
self-contained breathing apparatus or, a pressure-demand, airline
respirator (with escape bottle). Not all commercially available, fully
encapsulating ensembles meet the EPA’s criteria for Level A protection.
The principal point of variance is the means for air supply and respira-
tory protection. (See Section 5.B.8.)
In less severe situations Level B or Level C protection is, appropriate.
Level B protection includes the same respiratory protection as, Level A
‘but’ two- as well as single-piece clothing is acceptable and gas-tight
closures and interfaces are not required. Level C protection includes
the same clothing as Level B, but an air-purifying respirator may be
worn.
The National Fire Protection Association (NFPA) Subcommittee on Hazard-
ous Chemical Protective Clothing is developing a classification for
chemical protective suits that distinguishes “vapor protective” garments
from “liquid (or splash) protective” garments. Each class is further
divided into “rugged” or “limited use” types of garments. The result is
four different classes of full-body protection. The performance re-
quirements for each class are being established and will be promulgated.
as NFPA standards. Until the NFPA standard is finalized, there is no
way of comparing the EPA and NFPA systems.
The purpose of this chapter is to provide information that will help
guide the selection and specification of full-body encapsulating ensem-
bles as well as so-called “splash suits.” The chapter focuses on the
design features and physical properties of both types. Test methods are
also discussed. Tables and data sheets (Appendix C) are used to summa-
rize the information and enable quick comparison of commercially avail-
able full-body protective clothing. A summary of chemical’ resistance
information pertinent to specific ensemble materials is provided in
Table 5.4. For more comprehensive discussions of chemical resistance,
19
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please refer to other chapters of the Guidelines. Respiratory protec-
tion is not addressed in the Guidelines.
2. Sources of Information
The information presented in this chapter was obtained principally from
the vendors of ensembles and ensemble components and from review of the
literature pertinent to materials testing.
In many cases the information is incomplete. ‘Information gaps may be
generally accounted for by one of ‘three reasons: the test has not been
performed, the information is proprietary, or the information was not
known to the vendor. The latter situation is typical of cases in whtch
the vendor was assembling an ensemble from components selected on the
basis of overall performance rather than fundamental properties and
composition.
B. ENSEMBLE DESIGN AND CONSTRUCTION
Individual data sheets that characterize thirty-nine commercially
available fully encapsulating ensembles are presented as Appendix C.
The data sheets are in a standard format to facilitate comparison of the
various ensembles. In the following paragraphs, the fundamental ele-
ments of the ensembles and alternative approaches to their design are
discussed under the headings:
- primary materials,
- seams,
- closures,
- gloves,
- boots,
- - exhaust valves,
- visors,
- air supply systems,
- communication systems,
- cooling systems, and
- fittings.
Typically there are several designs available for each component. A
summary of the advantages and disadvantages of various types is pre-
sented in Section 5.F.
1. Primary Materials
The primary, material is the flexible plastic or rubber film, sheet,
coated fabric, or. laminate that composes the major portion of the
external surface area of an encapsulating ensemble. In many cases the
primary material includes a supporting fabric for increased resistance
to tear and puncture. The primary materials of presently available
20
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encapsulating ensembles are listed alphabetically in Table 5.1, along
with their respective ensemble vendors. In the table, each primary
material is described from left to right in the sequence of its composi-
tion from external to internal surface. For example, for a material
listed as butyl/polyester/chloroprene, butyl rubber is the outside
surface of the ensemble and the chloroprene is the surface facing the
wearer. Between these surface materials is a polyester fabric.
Nylon®, Dacron (polyester), and Nomex® fabrics are the principal sup-
porting fabrics of encapsulating ensembles. The fabrics may be of woven
or nonwoven type. The fabrics are either laminated to the plastic or
rubber film/sheet under heat and pressure or coated with a solution of
the plastic/rubber material. In addition to supplying strength, the
fabric layer serves as a wear indicator. Its appearance warns of
excessive abrasion and loss of thickness of the chemical barrier layer.
In some cases, a wear indicator layer is incorporated into the outer
plastic/rubber material. Upon abrasion, the wear layer, which is a
different color, becomes visible alerting the user to take appropriate
action (i.e., repair or discard the suit).
As discussed in Chapter 3, the breakthrough time and permeation rate of
a chemical through a primary material is strongly influenced by the
material thickness. The primary materials listed in Table 5.1 range in
thickness from 8 mils to 28 mils. (One mil is equivalent to
0.001 inches or 0.025 mm.) The strength and durability of a primary
material is partially determined by its weight (i.e., weight per unit
area). The materials listed in Table 5.1 range in weight from
2.5 oz/sq yd to 29 oz/sq yd. The supporting materials (fabrics) range
in weight from about 1 oz/sq yd to 10 oz/sq yd.
2. Seams
The seams discussed in this section are those formed when two pieces of
the primary material are joined. Other seams, such as those around
closures and fittings, are discussed later. A seam should, at a mini-
mum, equal the physical strength and chemical resistance of the primary
material. Basic seaming techniques and components are described here:
Stitching - Stitching, typically with nylon thread, holds sections
of the primary material together. In some cases the stitching is
essential to the strength of the seam. Double stitching is usually
used in these cases. For additional strength, the primary material
is sometimes lapped (folded over) before stitching. In other
cases, the stitching is not intended to provide physical strength,
but rather to hold the sections in place while they are cemented or
welded together. Needle holes produced by stitching are potential
routes for chemical entry. The holes must be covered or sealed.
21
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TABLE 5.1
ENCAPSULATING SUITS - PRIMARY MATERIALS
Primary Material 1 Ensemble Vendor 2
Butyl/Nylon/Butyl ‘Andover Industries
Fyrepel Products
Trelleborg
Buty l/Polyester/Ch loroprene Mine Safety Appliances
Chlorinated Polyethylene ILC Dover
Chlorobutyl/Nomex®/Chlorobutyl Arrowhead Products
ILC Dover
Chloroprene/Nylon National Draeger
Polyvinyl Chloride/Nylon Andover Industries
Polyvinyl Chloride/Polyester Standard Safety Equipment
Polyvinyl Chloride/Nylon/ Fyrepel Products
Polyvinyl Chloride National Draeger
Trelleborg
Wheeler Protective Apparel
Teflon®/Fiberglass/Teflon Chemical Fabrics Corporation
Teflon/Nomex/Teflon Chemical Fabrics Corporation
Viton/Nomex/Chlorobutyl Andover Industries
Viton/Nylon/Chloroprene Mine Safety Appliances
National Draeger
Viton/Butyl/Nylon/Butyl Trelleborg
Viton/Polyester/Viton Fyrepel Products
1 The primary materials are described with the external surface first and
surface facing the wearer last.
See Appendix D for the address and telephone number of each vendor.
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Strapping - Strapping is a narrow strip of plastic/rubber material
that is cemented or welded over the seam. Strapping covers the
needle holes of the stitching and provides additional strength to
the seam.
Cement - Cements (adhesives) are solutions of plastics or rubbers
in a solvent. Cements are used to attach strapping or to, form the
seam directly. When the solvent evaporates, the previously dis-
solved plastic/rubber remains. This residue must be equal in
chemical resistance to the primary material.
Welding - Welding is the joining of materials on a molecular level
and is contrasted with the mechanical approaches of stitching and
adhesives. There are two types of welding: thermal and solvent.
Thermal welding is achieved either by applying heat directly to the
plastic or by passing an electric current through the material to
generate heat (dielectric welding). Solvent welding is achieved by
partially dissolving the surfaces of the plastic material and
joining the surfaces under pressure. As the solvent dries, the
molecules of the two surfaces become entangled and bonding occurs.
A welded seam has the inherent chemical, resistance of the primary
material since no other material composes the seam. ‘ Not all
primary materials are susceptible to welding; rubbers cannot be
welded.
Sealant - Sealants (top coatings) are plastics/rubbers that are
dissolved in a solvent. Sealants’ are used to fill the holes
created by’stitching. The chemical resistance of the sealant must
equal that of the primary material.
3. Closures
Closures are used to seal the opening through which the ensemble is
donned and doffed. There are three types of closures currently being
used. The pressure sealing zipper is the most common. These zippers
are designed such that the teeth of the zipper protrude only slightly
through a plastic/rubber coated fabric. When the zipper is closed, the
teeth lock, tightly pressing the plastic/rubber on the two sides of the
zipper together forming a gas-tight seal.
Current pressure sealing zippers are manufactured using either chioro-
prene or polyvinyl chloride coated nylon or polyester fabric. Chioro-
prene is more commonly used because of the poor aging characteristics of
polyvinyl chloride. The zippers are typically equipped with nickel-
silver teeth and a brass slider. Zippers can be ordered with stainless
steel components for additional chemical resistance.
The second type of ‘closure found on encapsulating ensembles is based on
extruded sealing lips. This closure is similar in principal to the
“Ziploc®” closure of plastiá bags. Sealing lips are often used in
23
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conjunction with a restraint zipper. The zipper provides closure
strength and the sealing lips provide the gas-tight seal.
The third type of closure utilizes flaps of material (along both sides
of the opening) which are thermally welded together after the suit is
donned. Unsealing the suit is accomplished by cutting off the welded
portion of the flaps. The flaps are initially sufficiently large to
permit the closure to be sealed, cut, and resealed several times.
Closures may be located along one side or diagonally across the front of
the garment, or along the center of the back. Frontal closures allow
the user to seal or unseal his own suit. •Rear closures provide easier
donning and doffing but require two people to seal the suit. Rear
closures are also less susceptible to liquid splashes. The lengths of
current closure designs vary. The greater the closure length, the
easier the donning and doffing; however, cost increases with length.
Some garments also have a protective flap which covers the closure. The
flap provides protection to the closure from physical. abuse and chemical
splashes.
Finally, the closure is typically attached to the primary material by
one of the methods described above for seaming. Again, this interface
must be of equal strength and chemical resistance as that of the primary
material.
4. Glove/Sleeve Interface
Gloves used with Level A encapsulating ensembles must be attached to the
garment in a gas-tight manner. Several physical configurations of the
glove/sleeve interface are discussed here. Chemical resistance of glove
materials is discussed elsewhere in the Guidelines.
Gas-tight glove/sleeve assemblies are of two types: integral and
detachable. An integral glove is directly and permanently attached to
the garment sleeve by seaming at the interface. Some manufacturers use
a rigid ring at the interface to aid this attachment. Most often the
seaming technique of the primary material seams (including stitching,
strapping, etc.) is used. The glove can only be removed by cutting or
debonding at the interface. The glove replacement procedure is not
simple, and it is sometimes required that the suit be returned to the
vendor. As with all seams, the glove/sleeve interface should be as
strong and as chemically resistant as the primary material.
Detachable gloves are secured to the sleeve by mechanical means and can
readily be replaced by the user. Alternative gloves can be used depend-
ing on the situation. There are three basic types of detachable glove/
sleeve interfaces:
Concentric Rings - This interface is based on two, tapered rings
about two inches wide and four inches fri diameter. One ring is
24
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slightly smaller in diameter than the other and fits snugly into
the larger one. The, larger ring is positioned at the end of and
inside the garment sleeve. The smaller ring is placed inside the
glove at the glove cuff The glove is then pushed down the garment
sleeve from the shoulder. As, the glove passes through the sleeve
opening, the smaller insert is pressed inside the larger one, and a
compression seal is formed.
Ring/Clamp - This interface uses a support ring i the sleeve and a
clamp around the glove. The ring, about four inches in diameter
and one inch wide, is placed in the garment sleeve near the cuff.
The glove is then pulled over the ring on the outside of the
garment. A glove clamp, similar to a hose clamp, is placed around
the glove over the ring. The clamp is tightened to form the seal.
Some ensembles include an additional piece of primary material at
the end of the sleeve which folds over the clamp.
Connect Rings - In this type of interface, rings installed by the
manufacturer at the glove and the slaeve cuffs are mechanically
joined.
In general, the gloves should have equivalent or better chemical resis-
tance than the primary material. However, this is not essential since
the gloves can be replaced more readily than the ensemble.
Overgloves are sometimes used with encapsulating suits to provide an
additional layer of chemical permeation protection and to help minimize
phyèical abuse to attached gloves. Overgloves are typically large and
bulky and are not usually attached to the suit in a gas-tight manner.
Some encapsulating suits provide’ “splash guards”’ to prevent entrapment
of liquid chemicals between the inner arid outer gloves. A splash guard
is a flap of primary material attached to the garment sleeve which can
be pulled over the end of an overglove.
5. Boot/Pant Interface
There are three types of boots used with encapsulating ensembles:
booties, standard boots (i.e., a boot having sole, heel and closure),
and overboots. Booties are integral, sock-like terminations to the
garment legs. These are typically fabricated of the primary material
and are attached to the garment with a seam (usually of the same con-
struction as the primary material seam). Booties are designed to be
worn inside standard boots. Since the booties are attached to the
garment with a gas-tight seait, the standard boots worn over them do not
need a gas-tight interface. Typically, encapsulating suits with bootie
leg terminations have “splash guards.” A splash guard is a flap of
primary material attached to the garment leg which can be pulled over
the top of the boot in order to minimize the entry of liquids into the
standard boot.
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Standard boots may be integral or detachable. Gas-tight boot/pant
interfaces are achieved by means similar to those described above for
the glove/sleeve interfaces.
Overboots are designed to be worn over standard boots. Overboots are
similar to booties (in that they have no firm sole or heel), but are
much larger. Overboots can be made integral to the garment by seaming,
in which case they are used in conjunction with standard boots which do
not have a gas-tight interface. Alternatively, overboots can be of the
pullover type with an elastic cuff, in which case they are used with
standard boots which have gas-tight interfaces.
‘6. Exhaust Valves
Encapsulating suits are usually designed such that air from the respira-
tor flows into the suit creating a positive pressure in the suit. The
philosophy behind this design is that a positive pressure in the suit
counters inward leakage of gases and liquids through any openings or
pinholes in the suit. To prevent the build-up of excessive pressures
which can restrict movement and stress the suit seams, encapsulating
suits are equipped with exhaust valves. These valves are one-way
valves designed to open at “cracking pressures” low enough to prevent
excess pressures in and “ballooning” of the suits.
Cracking pressures range from less than a tenth of an inch of water to
approximately 2.5 inches of water. Higher cracking pressures may
restrict movement, while lower cracking pressures may allow an internal
suit pressure to become negative relative to the outside atmosphere for
a short period of time. Studies are on-going to determine the relation-
ship between cracking pressure and suit performance. There are no
current guidelines for the selection of appropriate suit exhaust valves.
There are two types of exhaust valves used in encapsulating ensembles.
One type, the flapper valve, consists of a rubber diaphragm or disk
supported under tension in a housing such that when there- is equal
pressure on both sides or less pressure on the inside of the ensemble,
the valve is closed. When over pressure exists inside the suit, the
diaphragm is pushed outward opening the valve. Flapper valves have a
cracking pressure that is quite low, only several tenths of an inch of
water, and cannot be adjusted.
The second type of exhaust valve employs a spring to hold the diaphragm
pressed against the housing and the valve closed. When the pressure in
the suit is greater than the force of the spring, the valve opens. The
advantage of this type of exhaust valve is that the cracking pressure
can be closely controlled.
In certain situations, such as when squatting, pressure can rapidly
build inside the ensemble because of the sudden loss of free volume.
This pressure must be relieved to prevent res tricting the movement of
26
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the wearer and to prevent overstressing the seams. The valve must have
sufficient air flow capacity to allow rapid pressure relief.
The design of the valve must provide a tight seal to prevent backflow or
back diffusion of outside air which may be contaminated. Both spring
controlled valves and .flapper valves, typically have diaphragms of
natural or silicone rubber. The housings are either metal or plastic.
These materials, as well as the metallic spring, are susceptible to
chemical attack. The valves should routinely be inspected for material
degradation and performance. .
Both flapper and spring controlled valves are typically installed with
covers designed to prevent direct exposure of the valve to liquid
chemicals. Some valve covers are designed to seal themselves unless air
is flowing out.
7. Visors
Visors are either permanently attached to the suit or are removable.
Replacement of a permanently attached visor usually requires returning
the suit to the vendor. Removable visors employ a mechanical clamping
device ‘and a rubber gasket to attach the vIsor in a gas-tight manner
seal. Visors must allow clear vision with a wide field of view. The
field of view should not be reduced significantly when the wearer turns
his head. The materials must resist scratches and be chemically resis-
tant. The thickness of the visor is another consideration; thin flexi-
ble visors may be subject to damage from creasing, whereas thick rigid
visors are generally heavier, but can provide better physical integrity.
Visors are made from polycarbonate, acrylics, fluorinated ethylene
propylene (FEP), and flexible polyvinyl chloride. All these materials
have good clarity and strength. However, acrylic and polycarbonate
visors are susceptible to crazing (i.e., surface cracking) upon exposure
to certain chemicals. Crazing severely degrades vision clarity and can
cause catastrophic failure of the visor. For these reasons, splash
visors are sometimes worn over the primary visors. Splash visors are
clear, flexible, disposable films of highly chemically resistant materi-
als, such as FEP. They are intended to prevent liquid chemicals from
coming into direct contact with the visor and thereby increase the
useful life of the visor. However splash visors do not prevent visor
exposure to vapors which, in certain situations, can also cause crazing.
8. Air Supply Systenis
A detailed discussion of respirators is excluded from the Guidelines;
however, the general respiratory protection requirements of the EPA for
Levels A and B ensembles are reviewed here.
EPA guidelines on Levels A and B suits specify the use of ‘a pressure-
demand, supplied-air respirator approved by the Mine Safety and Health
27
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Administration (MSHA) and National Institute for Occupational Safety and
Health (NIOSH). Supplied-air respirators are of two general types:
- pressure-demand, self-contaIned breathing apparatu (SCBA), or
- pressure-demand, airline respirator (with escape bottle).
As discussed earlier in this chapter, not all encapsulating ensembles
are of the Level A or B type. Several encapsulating ensembles are
gas-tight but do not have a supplied-air respirator. The air supply for
these suits is umbilically fed to an air distribution system in the
ensemble, not to a respirator. In other ensembles the respirator or the
self-contained breathing apparatus is not fully isolated from the
external environment. The EPA designation for each of the thirty-nine
commercially available encapsulating ensembles is shown in the upper
right corner of the data sheets in Appendix G.
Egress bottles (or escape bottles) ’ supply air to the wearer in the event
that the airline is severed. Most vendors supply egress bottles as an
option. In order to meet the criteria of Level A or B protection,
egress bottles, are required for an ensemble that is supplied air by
umbilical hose.
A major consideration for selecting an air supply system is how well the
garment accommodates the space requirements of the air supply system.
The garment should provide sufficient space in its interior to allow a
comfortable’ fit to the user wearing a breathing apparatus. Components
of the air supply system should not chafe or cause internal wear of the
garment.
9. Coiiuuunications Sets
Voice communication when using full-body encapsulating ensemble can be
achieved by three principal means: voice amplification, hard-wire
systems, and wireless devices. Voice amplification systems, as the name
implies, consist of a microphone attached through an amplifier to a belt
mounted speaker. This system is useful when all persons are working
within talking distance of one another. Hard-wired systems consist of a
microphone and speaker headset which are connected by wire directly to
‘other workers or to a central, base unit and then to other workers.
This system is most conveniently used when the air supply to the
ensemble is by umbilical hose. Wireless systems are based on radio
transmitters/receivers and allow the greatest range of operations.
Whichever the system, it must be located and must operate in a manner
that minimizes its impact on worker performance and safety. The total
weight of the unit and the weight distribution of the unit, especially
if it is worn on the head, must be considered. Also the system must not
abrade the inside of the ensemble.
28
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Microphones may be held in place against the neck (i.e., throat micro-
phones), mounted on or in the respirator face piece, suspended in front
of the mouth on a boom or, in the case of bone conduction microphones,
mounted somewhere on the head. Neck microphones are well accepted and
function well in high noise areas; however, some users report problems
due to slippage of the microphone. Readjustment is difficult when
wearing an encapsulating ensemble.
Three modes of operation are common: continuous, push-to-transmit, and
voice-activated. Continuous systems are convenient to use and require
virtually no training. However, they are continuously consuming power
requiring frequent replacement of batteries. Push-to-transmit systems
reduce battery consumption but require a free hand to operate. Voice-
activated systems combine the advantages of both, they are low energy
consumption and hand free operation. A slight drawback of voice-
activated systems is that some training is required in their use since
the first syllable of the first word is “lost” in activating the system.
Wireless systems operate on the basic principles of radio communication.
So-called simplex systems transmit and receive on the same frequency.
Thus, only one person can talk at a time and a fixed interval of time
must elapse before the next person can begin talking. In a duplex
system, two frequencies are utilized so that there can be rapid give-
and-take conversation, e.g., the telephone is a duplex system. Through
the use of a base station, duplex capability can be extended to large
groups of people. Half-duplex systems allow one person (e.g., the
foreman) to have full duplex capability but all others to have only
simplex capability. Thus, the foreman can talk to and hear all members
of his group but the group members can only talk to and hear the fore-
man. Obviously, each system has advantages and disadvantages in any
given situation.
10. Cooling Systems
In isolating the worker from the environment, fully encapsulating-
ensembles can produce a significant thermal burden on the wearer.
Cooling due to natural convection and evaporation is prevented. Thermal
burden can be reduced by a variety of methods as follow:
Passive systems such as vests containing ice, dry ice, frozen
gels, or other heat sinks. These systems require equipment
for pre-freezing the heat sink contents prior to use. Typi-
cally such systems have a service life of one to four hours,
depending on the workload and the external temperatures.
There is no control over the cooling rate or cooling distribu-
tion.
Powered systems in which a chilled fluid is pumped in tubes in
contact with the head, neck, chest and other body regions.
The fluid may be air, water or some other heat transfer
29
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medium. Similar to the passive systems, ice, dry ice, and
frozen gels are the principal heat sinks. These systems are
battery powered and typically have operating periods of one to
four hours. Some systems can be controlled by the wearer.
- Umbilical air cooling systems which distribute air to the
head, neck, and other body regions through a tubular manifold
system. The air is exhausted through the pressure relief
valves. Air flow rate can be controlled by the wearer.
- Umbilical air cooling systems in which pressurized air enters
the ensemble through an expansion valve (i.e., vortex tube).
• The ensemble may contain one or more vortex tubes so that the
cooling air is evenly distributed. However, the noise of the
expansion restricts proximity to the head.. With this system
the wearer can control the rate of cooling. .
- Powered cooling systems based on swing, Stirling cycle, and
conventional compressors. Fuel- and battery-powered systems
are available. To date these systems have not proven practi-
cal •because of their weight. However, new developments in
high efficiency, high storage capacity batteries may change
this situation.
In addition to the above systems, cooling can alsobe achieved from the
evaporation of water that is sprayed over the surface of the ensemble.
As with air supply systems, the selected cooling system (if any) should
not chafe the inside of the garment.
11. Fittings
Certain ensemble äonfigurations include umbilical or other external air
supply, cooling and communication systems. Fittings are required where
the lines for these systems enter the ensemble, usually through the
primary material. The fittings should have standard threads or quick
disconnects for attaching the lines. These fittings and the means with
which they are attached to the ensemble must be selected with full
consideration to chemical resistance. Furthermore their attachment to
the ensemble must be sufficiently strong to prevent their being pulled
out.
12. Disposable Suits
Disposable encapsulating suits are designed for limited use. Their low
cost allows the user to discard the suit rather than decontaminate it
after use. These suits are typically large and loose fitting and do not
necessarily have gas-tight interfaces for glove and boot attachment and
pressure sealing zippers. Because of their low cost, disposable suits
are often used over standard encapsulating suits. This arrangement
30
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provides the user with the full, gas-tight protection offered by the
standard suits and protects the (more expensive) standard suit from
gross contamination.
Disposable encapsulating suits are fabricated using polyethylene-coated
or Saranex®-laminated Tyvek®, or polyvinyl chloride film.
C. ENSEMBLE EVALUATION
1. Introduction
•The performance of an encapsulating ensemble depends on its chemical
resistance, physical properties, fit, design features, ‘and. sizing.
Chemical resistance is discussed elsewhere in the Guidelines. The
physical characteristics of encapsulating ensembles are for the most
part determined on the component level and are described below. Methods
for testing the overall ensemble are described in Section 5.C.4.
Limited information is. also provided for sizing and fit considerations.
2. Physical Properties
Standard tests exist for measuring many of the physical properties of
ensemble materials and in many cases these tests are specific to an
ensemble component. More than one test method exists for measuring some
physical properties. Selected standard tests are listed in Tables 5.2
and 5.3. ASTM standard test methods were selected because they are
readily available, regularly updated to reflect changes in the state of
the art, and actively supported by. an identifiable group of persons that
are available for consultation.
The importance of material physical properties is often underestimated.
Physical properties provide a means for estimating and comparing the
strength and durability of various ensemble components. Information on
certain of these properties is considered essential to the evaluation of
ensembles. These key properties are identified in Tables 5.2 and 5;3
and discussed further in Section 5.C.3. Although no vendor provides
data .on all of the properties, it is useful for. the user to be familiar
with the terms: .
Abrasion Resistance - The amount .of material removed from a surface
during relative motion against another surface. .
Antifog - Measurement of the effect of water vapor condensation on
the read-through characteristics of clear materials.
Blocking - The adherence of materials to one another or themselves.
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TABLE 5.2
PHYSICAL PROPERTY TEST METHODS
(Not Including Visors)
Property Test Method
Abrasion Resistance 1 ASTM D3389
Blocking ASTM D1893
Brittleness ASTM D2137
Bursting Strength ASTM 03786
Coating Adhesion ASTM D751
Cut Resistance 1 ASTM F23.20.01 2
Durometer ASTM D2240
Flammability 1 ASTM D568
Flex Fatigue 1 ASTM D671 (Plastics)
ASTM D430 (Elastomers)
Hydrostatic Resistance ASTM D751
Low Temperature Bending ASTM D2136’
Ozone Resistance ASTM D304l
Penetration Resistance ASTM F903
Pressure (Inflation) Testing ASTM F23.50.01 2
Puncture Propagation Tear ASTM D2582
Puncture Resistance 1 ASTM F23.20.02 2
Qualitative Leak Testing ASTM F23.50.02 2
Seam Strength 1 ‘ASTM D75l
Stiffness 1 ASTM Dl043 (Plastics)
ASTM Dl053 (Elastomers)
Tear Strength 1 ASTM D751
Tensile Strength 1 ASTM D751 (Supported Materials)
ASTMD4l2 (Unsupported Materials)
Thickness ASTM D751
UV Light Resistance ASTM G26.
Weight ASTM D751
Zipper Strength 1 . ASTM 2061
Key physical property . See Section 5.C.3.
Test method is currently being developed.
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TABLE 5.3
VISOR PHYSICAL PROPERTY TEST METHODS
Property Test Method
Abrasion Resistance ASTM D1O44
Antifog MIL-A-1542B
Distortion 1 ASTM D881
Impact Strength 1 ASTM D3029
Light Transmission and Haze 1 ASTM D1003
Scratch Resistance ASTM F548
Stiffness’ ASTM D1O43 (Plastics)
ASTM D1053 (Elastomers)
Tear Resistance ASTM D1004
Tensile Strength ASTM D638
Thickness ASTM D638
TJV Light Resistance ASTM G26
1 Key property. See Section 5.C.3.
33
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Brittleness - Evaluation of the lowest temperature at which flexi-
ble materials will not exhibit fractures or cracks when subjected
to specified impact conditions.
Bursting Strength - The multidirectional force required to break a
material.
Coating Adhesion - The force required to peel a coating from a
substrate.
Compression Set - The residual deformation of a material when
subjected to a compressive force then released.
Corrosion Resistance - The amount of mass or thickness loss from
materials upon exposure to chemical environments.
Cut Resistance - The force required to cause a sharp-edged blade to
cut the surface of a material.
Distortion - The deviation of the line of sight through flat or
curved sections of transparent materials.
Durometer - The degree to which materials res.ist indentation bya
specified probe under a specified load.
Flammability - The ignition, propagation, and self-extinguishing
characteristics of a material.
Flex Fatigue - The number of repeated bends required to cause
cracking in a flexible material.
Hydrostatic Resistance - The force. required to cause the penetra-
tion of water through a coated fabric.
Impact Resistance - The force required to cause materials to
exhibit fractures or cracks when subjected to impact.
Light Transmission and Haze - The light-scattering properties of
transparent materials.
Low Temperature Bending - The degree of cracking that occurs at a
specified temperature in a flexible material when the material
is bent around a cylindrical rod.
Ozone Resistance - The degradation effects on a material as the
result of ozone exposure.
Penetration - The flow of a liquid on a non-molecular level through
closures, porous materials, seams, pinholes or imperfections in a
protective clothing material.
34
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Puncture Propagation Tear - The force required for a sharp object
to snag and subsequently tear a material.
Puncture Resistance - The force required to penetrateS a material
with a cylindrical probe in a direction normal to the surface of
the material.
Scratch Resistance - •The degree to which clear materials are
scratched or marred as a result of motion against another surface.
Seam Strength - The force required in tension to break a seam with
the force applied perpendicular to the direction of the seam. This
type of testing is similar to tensile testing of the primary
material.
Static - The resistance to an accumulation of electrical charge.
Stiffness - The force required to twist or bend a material a
specified amount or the amount of bending occurring as a result of
a specific applied force.
Tear Strength - The force required to initiate or propagate a nick
or cut in a direction normal to the direction of the applied force.
Tear strength results are usually reported for both the warp and
fill (woof) directions of coated fabrics. Warp refers to threads
in a fabric running in the lengthwise direction (machine direc-
tion), and fill to the fibers in the crosswise direction (cross
machine direction).
Tensile Strength - The force in tension required to break a materi-
al. Tensile strength results are usually reported for both the
warp and fill directions of coated fabrics.
IJV Light Resistance - The degradation effects on a material as the
result of exposure to UV light.
Weight - There are two kinds of weight associated with encapsulat-
ing ensembles: the material weight and the ensemble weight.
Material weight is the weight per unit area (e.g., oz/sq yd) of the
primary material. The ensemble weight is the total weight of the
fabricated garment. In some cases, the ensemble weight reported by
vendors includes only the garment and detachable gloves and boots,
while in other cases ensemble weight includes breathing apparatus
and cooling. The ensemble weight reported on the data sheets in
Appendix C includes only garment, gloves, and boots and not cooling
and breathing apparatus.
Zipper Strength - The force required to pull a zipper apart in a
direction perpendicular to the zipper direction. This is also
35
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known as zipper crosswise strength and can be applied to other
types of garment closures.
3. Key Physical Properties
ASTM Committee F-23 and the NFPA are developing standards. which describe
a minimum battery of physical property tests to be preformed on an
encapsulating ensemble. These tests will complement chemical resistance
testing such as for permeation, degradation, and penetration resistance.
The battery of physical tests will also standardize the methods used for
measuring each physical property so that results can be compared from
one product to another. Until the ASTM and NFPA standards are final-
ized, the tests marked with an asterisk in Tables .5.2 and 5.3 should be
considered essential to the evaluation of the components of a fully
encapsulating ensemble.
4. Chemical Resistance
Other chapters of the Guidelines address the issue of chemical resis-
tance from the perspective of generic clothing materials categories.
For example, all butyl rubber materials regardless of thickness, source,
and formulation have been classified together in order to form the
chemical resistance recommendations, in Matrix A. Generic classifica-
tions provide general guidance as to chemical resistance but,’ as noted
elsewhere, ,chemical. resistance can vary significantly within a generic
class. In Table 5.4, ensemble-specific chemical resistance information,
for the fifteen chemicals composing the standard battery of test chemi-
cals in ASTM FlOOl-86, is presented. Breakthrough time and permeation
rate data are presented when available. In some other cases, qualita-
tive ratings of chemical resistance are listed as supplied by the
ensemble vendor. The qualitative ratings should be used with extreme
caution because, in several instances, it would appear that they. are
generic rather than specific to the clothing material.
5. Complete Ensemble Testing
Only a few methods exist for evaluating the complete ensemble. These
methods can be classified in the categories of garment,pressure (infla-
tion) testing, leak testing, and manned ensemble functionality testing.
A variety of methods exists tor each category and the quantitativeness
of the results varies with the method. Draft ASTM standards have been
proposed for both garment pressure testing and qualitative leak testing.
These tests are described below.
Pressure testing measures the integrity of the suit and visor material,
suit seams, and suit closures for gas tightness. The test involves the
inflation of the garment to a specified pressure and either measuring a
pressure drop over time or applying a soap solution to the outside of
the garment to detect leaks (by the appearance of bubbles). The suit
exhaust valves must be closed to perform the test and a provision must
36
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Material
Vendor
Thickness
(mils)
-
.
2 2
8 ’
,
—5
.
, z
.
-
•C ’ 0
2 ‘&
.
0 )
2
C
2
2
0 )
C
0
‘
2 ’
o.
.
0—
.,
I
> .
-
ô. 2
0
B
‘0
.2
‘.E
.C ’ 0
Eo
ã
4
.
0
2
‘00
i
•
. 8
8 ’
CO
0)0)
0
z
@1
0
.
0
E
.2°•
• •2
-os
(O
o
°
—S
U
c
-
4.
• ‘ 0
o
‘0—
C
‘0’
.2
o’
•C
U.C
‘ 0
I.-
C
E
.
‘ ‘ ‘ ‘
• C
—
C
0
e
2
> .
0
I
U
‘ O
C
Butyl/Nylon/Butyl
‘
Andover 2
Fyrepel 4
Trelleborg 3
14-15
14
15-18
A
A
U
U
X
U
X
B
B
B
B
B
U
•X
A
A -
U
C
A
A
B
X
‘
U
X
B
B
U
X
Butyl/Polyester/ChloroPrefle ’
MSA
19
8 (
‘
8 ( )
8 ( )
0.2
Chlorinated Polyethylene
lLC 14
20
0.25 (1020)
1.3 ( )
0.1 ( )
0.3 ( )
B’
C
1 C )
>3 (
>3) )
1 I )
>3 C )
>3 C )
C
0.5 ( )
1.2 C
)
Chlorobutyl/Nome;cfChlOrObUtYl
Arrowhead
19
.
‘
ILC
20
‘
Chloroprene/Nylon
Draeger
ND 5
.
‘
PVC/Nylon
Andover
15
PVC/Polyester
PVC/Nylon/PVC
Standard
Safety
Fyrepel 14 1
Draeger
Trelleborg 13
Wheeler
28-30
ND
ND
18
20
X
3
3
X
3
X
3
B
‘
3
X
‘
‘
;
‘
3
B
2
A
3
X
3 ‘
B
1
A
4
X
3
X
4
X
3
Teflon/Fibeu’ylass/TeflOn
ChernFab
10
Teflon/Nomex/TeflOn
ChemFab
18
>8 ( )
>8 ( )
0.3 (0.05
0.8 (0.02)
>8 C I
>8) )
>8 ( )
>8 ( C
>8 ( I
>8 ( )
>8 ( )
>8 ) )
>8 I C
>8 ( )
‘ U’
>8
Viton/Nomex/Chlorobutyl
Andoser 2
20
U
U
A
B
U
U
U
A
C
B
B
A
A
A
Viton/Butyl/Nylon/Butyl
Trelleborg 3
ND
‘ 3
3
1
2
3
‘ 3
2
2
2
, 2
2
2
3
2
Viton/Nylor s/Ch loroprene
MSA
Draeger ,
23
Np
0.7 ( )
‘
‘ ‘
8 ( C
8 ( I
‘
0.1)
Viton/Polyester/Viton
Fyrepel 4
8
X
A
‘B
X
X
X
A
C
B.
B
A
A
X
A
TABLE 5.4
PRODUCT-SPECIFIC CHEMICAL RESISTANCE IN FORMATION FOR FULL BODY ENCAPSULATING ENSEMBLES
L )
- 5 5
(1) Number piecedirig parentheses is breakthrough time in hours; number in parentheses is permeation rate in pg/cm 2 /min.
II no parenthese follows number, see footnote (3).
(2) A =recoinmerded; B minor effect;C = moderate effect; U not recommended
(3) 1 not effected; 2 slightly effected; 3. 4. 5 material can be destroyed
(4) A recommended; B minor-to-moderate effect; C moderate to severe; X not recommended
(5) No data ‘
-------�
be made.for attaching a pressure gauge. Some manufacturers specify the
pressure to which the suit should be inflated. The proposed ASTM method
specifies a maximum inflation pressure (3 inches water gau ge pressure),
a test pressure (2 inches water), and an allowable pressure drop (20%)
over a three-minute peripd. It also requires using the soap solution to
locate leaks if the suitdoes not meet the pass/fail criteria.
Leak testing measures the integrity of the entire ensemble to a gas
challenge agent in a manner simulating actual use. This testing
involves exposing a test subject wearing the ensemble in a closed
chamber to a challenge agent and measuring the agent concentration both
inside and outside the suit. The proposed ASTM method employs ammonia
gas at a concentration of 1000 to 2000 ppm and length of stain detection
tubes. Other methods may use different gases or aerosols (at non-toxic
concentrations) and appropriate detection methods. Dependent on the
means used to measure the presence of gas, the test can be qualitative,
semi-quantitative or quantitative. When concentration measurements are
precise, the results can be used in a semi-quantitative manner by
ratioing the external to internal gas challenge agent concentrations for
calculating a . rotection factor. Large protection factors are indica-
tive of high ensemble integrity.
Manned ensemble testing is often performed to determine the range of
activities that a user can do while wearing the ensemble. These’may
include different types of exercises or tasks which simulate the end
application of the suit. Results from these tests are generally subjec-
tive regarding the design, comfort, and fit of the garment. Measurement
of the wearers physiological condition (e.g., core temperature, skin
temperature, heart rate, and blood pressure) during this testing can
help quantify the results when compared to tests with the subject not
wearing the ensemble.
6. Ensemble Sizing and Fit
Manufacturers may offer one size or several sizes of their respective
garments. (See Appendix C.) There are no standards for sizing these
garments; consequently, one manufacturer’s “large” may not fit the same
group of people as another manufacturer’s “large.” Generally, the more
sizes offered by a manufacturer, the greater the range of people who
will comfortably (and functionally) be fit by a given garment design.
The only way to gauge the fit of a garment is to actually try on each of
the available sizes offered by the manufacturer.
38
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D. QUALITY CONTROL
There is no industry standard test series by which the quality of fully
encapsulating ensembles is controlled. The level of manufacturer
quality assurance ranges from simple visual inspections to a large
battery of tests on the ensemble and its components. Some manufacturers
perform lot-by-lot tests to verify chemical resistance and physical
properties of the primary materials. All the vendors listed in
Table 5.1 subject completed ensembles to pressure (inflation) testing;
as previously described. While closure, interface or seam imperfections
are thereby located and corrected prior to shipping, this does not test
exhaust values.
None of the vendors provided any insight into minimum’physical property
values or performance levels acceptable for any of the individual
components of an encapsulating ensemble. Indeed, while limits would be
most useful in evaluating suit components, it would be difficult to set
such limits since they are highly dependent on the application condi-
tions.
Both the ASTM F-23 Committee and the NFPA Subcommittee on Hazardous
Chemical Protective Clothing are developing standards which would
increase the information provided by manufacturers on the performance of
these garments. The proposed ASTM standard would specify documentation
requirements for chemical protective suits and suit components. The
NFPA is writing performance standards for each type of chemical protec-
tive suit in its proposed suit classification system.
E. SPLASH SUITS
Level B (and Level C) protective clo..hing, as defined by the EPA, is
used in situations where the atmospheric concentration of toxic sub-
stances requires a high level of respirator protection, but less skin
•protection than Level A. (See Appendix I for further explanation.) The
garment should cover most of the body, but is not completely sealed.
This type of clothing is commonly referred to as a “splash suit.”
Several of the major manufacturers of splash suits and their products
are listed in Appendix H. The styles and primary materials ar’ given
along with the major construction features.
In many cases, chemical splash suits are almost identical to commercial
rain gear. Splash suit components include jacket, pants (usually
overalls), coveralls, and hood. Splash suits minimize exposure to
liquids. However, the closures and interfaces are not gas- or liquid-
tight.
The primary material in splash suits is typically a fabric-supported
plastic or rubber film/sheet. The most commonly used plastic is poly-
vinyl chloride. Other polymers used include: polyethylene,
39
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chloroprene, styrene/butadiene rubber, polyurethane, a blend of nitrile
rubber and polyvinyl chloride, and butyl rubber. The seams of the
primary’material are usually stitched and cemented or welded.
The closures on splash suit’s need not be liquid proof. ‘ fhey typically
are either simple zippers or snaps. The snaps can be metal or plastic.
Closures often have a ‘storm fly front, which is an extra flap of materi-
al in front of the closure’ to prevent direct li’quid.contact with the
closure.
Other construction features of splash suits include batwing sleeves
(extra material under the arm for a greater degree of movement) and
take-up snaps on the sleeves and pant cuffs (to reduce but not seal arm
and leg openings). Splash suits do not include integral gloves, boots,
or air supply systems; these are separate components.
Disposable splash suits are fabricated using polyethylene-coated or
Saranex®-laminated Tyvek® as ‘the primary materiaL Jackets, pants,
coveralls, and hoods, are available as disposables.
F. ENSEMBLE SELECTION CONSIDERATIONS
The selection of fully encapsulating ensembles and splash suits depends
on:
- the,nature and severity of the hazard,
- the type and duration of the tasks to be performed,
- the performance features and limitations of the available
clothing, and
- cost.
The information provided in Appendix I provides considerable guidance to
assist in matching the level of protection to the hazard. The selection
of an ensemble for a specific application typically involves trade-offs
among physical and chemical properties, design features, and human
factors considerations.
There are no current ensembles which provide both flame and chemical
protection. Nearly all CPC materials will ignite and burn when con-
tacted by flame. These ensembles should not be used for situations
where the probability of contact with flame or flashover conditions is
high. Combined thermal and chemical protective suit systems should be
considered carefully. Thermal protection may be worn either inside or
outside the chemical protective suits. When externally worn, thermal
protective clothing is subject to contamination and must be disposed of
after use. When worn inside (e.g., aramid fiber jumpsuit), the integ-
rity of the chemical protective’ clothing will be lost in a flame situa-
tion, resulting in a potentially life-threatening situation. Alterna-
tively, thermal protection can be worn both inside and outside the suit.
40
-------�
In any of these cases, the additional burden (weight/heat stress) to the
wearer must be considered.
In Table 5.5 are listed the advantages and disadvantages of many of
alternatives discussed earlier. Chemical resistance issues are not
included in the table as they are discussed elsewhere in the Guidelines.
Neither is cost addressed. Ensemble design and component alternatives
are characterized in a qualitative manner since there are no generally
accepted quantitative criteria by which they can be assessed. The state
of the art is not sufficiently advanced for setting minimum physical
property or performance values for ensemble materials and components.
However, the NFPA Subcommittee on Hazardous ChemIcal Protective Clothing
is engaged in several studies to define performance levels for chemical
protective suits used in emergency response.
41
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TABLE 5.5
ADVANTAGES AND DISADVANTAGES OF ALTERNATIVE ENSEMBLE COMPONENTS
COMPONENT ADVANTAGES DISADVANTAGES COMMENTS
PRIMARY MATERIAL
COMPOSITION WIDE VARIETY AVAILABLE CHEMICAL RESISTANCE VARIES FROM MATERIAL
TO MATERIAL AND FROM VENDOR TO VENDOR.
FLAME RESISTANCE SHOULD BE CONSIDERED
SUPPORTING FABRIC ADDS STRENGTH INCREASES WEIGHT
REDUCES FLEXIBILITY
EDGES MUST BE SEALED
WEAR INDICATOR INDICATES REDUCED PROTECTION PREFERRED
THICKNESS! INCREASES STRENGTH INCREASES WEIGHT
WEIGHT INCREASES PROTECTION REDUCES FLEXIBILITY
SEAMS
WELDED CHEMICAL RESISTANCE EQUIVALENT TO RUBBER MATERIALS CANNOT BE WELDED
THAT OF PRIMARY MATERIAL
LESS BULKY
LESS SUSCEPTIBLE TO SNAGGING
STITCHED APPLICABLE TO ALL MATERIALS REQUIRES STRAPPING OR SEALANTS LAPPED AND DOUBLE-STITCHED CONSTRUCTIONS
MUST BE TESTED FOR CHEMICAL RESISTANCE PREFERRED
PENETRATION THROUGH PINHOLES
-------�
TABLE 5.5 (CONTINUED)
ADVANTAGES AND DISADVANTAGES OF ALTERNATIVE ENSEMBLE COMPONENTS
COMPONENT ADVANTAGES DISADVANTAGES COMMENTS
CLOSURES
PRESSURE SEALING SIMPLE AVAILABLE MATERIALS HAVE LIMITED STAINLESS STEEL TEETH AND SLIDER AVAILABLE
ZIPPER CHEMICAL RESISTANCE FLAP MAY BE ADDED TO PROTECT ZIPPER
SEALING LIP PROTECTS ZIPPER FROM ENVIRONMENT TWO-STEP PROCESS: ZIPPER AND SEAL
ZIPPER REQUIRES DEXTERITY
SOME SEALING LIP MATERIALS MAY BECOME
STIFF/UNOPERABLE IN COLD WEATHER
WELDED CHEMICAL RESISTANCE EQUIVALENT TO HEAT SEALING EQUIPMENT REQUIRED
THAT OF PRIMARY MATERIAL DON/DOFF REQUIRES HELPER
LIMITS NUMBER OF REUSES
FRONT MAY BE USER OPERATED, IF ZIPPER MORE DIFFICULT TO DON AND DOFF SUIT
EMERGENCY DOFFING, IF ZIPPER MORE SUSCEPTIBLE TO CHEMICAL EXPOSURE
BACK LESS SUSCEPTIBLE TO CHEMICAL EXPOSURE TWO-MAN OPERATION
EASIER TO DON/DOFF SUIT
GLOVE/SLEEVE & BOOT/PANT INTERFACE OVERGLOVES/BOOTS INCREASE PROTECTION AND
SERVICE LIFE BUT REDUCE MOBILITY, TACTILITY
AND DEXTERITY
INTEGRAL FACTORY SEALED AND TESTED DIFFICULT TO REPLACE, MAY REQUIRE.
• RETURN TO FACTORY
NOT INTERCHANGEABLE FOR FIT
OR CHEMICAL RESISTANCE
-------�
TABLE 5.5 (CONTINUED)
ADVANTAGES AND DISADVANTAGES OF ALTERNATIVE ENSEMBLE COMPONENTS
COMPONENT ADVANTAGES DISADVANTAGES COMMENTS
DETACHABLE EASY TO REPLACE SEAL IS MADE IN FIELD AND IS
CAN BE OPTIMIZED FOR FIT AND NOT READILY TESTED
CHEMICAL RESISTANCE
• -CONCENTRIC RINGS NO MECHANICAL PARTS RELIES ON COMPRESSION SEAL; NO
CLAMP OR LOCK
DIFFICULT TO INSPECT
--RING/CLAMP SIMPLE MAY REQUIRE TWO PERSONS
EASILY INSPECTED CORROSION OF CLAMP
MECHANICAL SEAL
- -CONNECT RINGS EASE OF USE COMPLEXITY
MECHANICAL SEAL REPAIR MAY REQUIRE RETURN TO FACTORY
EXHAUST VALVES VALVES SHOULD BE COVERED TO PREVENT DIRECT
EXPOSURE TO LIQUIDS. COVERS SHOULD BE OF A
DESIGN WHICH MINIMIZES BACK DIFFUSION
FLAPPER SIMPLE CANNOT ADJUST CRACKING PRESSURE
CHEMICAL RESISTANCE OF DIAPHRAGM
SPRING-OPERATED CAN ADJUST CRACKING PRESSURE CORROSION RESISTANCE OF SPRING
CHEMICAL RESISTANCE OF DIAPHRAGM
-------�
TABLE 5.5 (CONTINUED)
ADVANTAGES AND DISADVANTAGES OF ALTERNATIVE ENSEMBLE COMPONENTS
COMPONENT ADVANTAGES DISADVANTAGES COMMENTS
VISORS SPLASH VISORS INCREASE PROTECTION AND
VISOR SERVICE LIFE. SPLASH VISORS MAY
RESTRICT HEAD ROTATION AND INTERFERE
WITH VISION
INTEGRAL FACTORY SEALED AND TESTED REPLACEMENT REQUIRES RETURN TO FACTORY
DETACHABLE VISORS EASILY REPLACED SEALING IS USER DEPENDENT
CHEMICAL RESISTANCE OF GASKET
FLEXIBLE LIGHTWEIGHT MAY CREASE RESULTING IN DECREASE IN
CHEMICAL RESISTANCE
U ’
RIGID STURDY, DURABLE HEAVY, MAY SHATTER (IF GLASS)
AIR SUPPLY SYSTEMS
SCBA WIDE RANGE OF OPERATION DURATION OF ACTIVITY LIMITED BY AIR SUPPLY
ENSEMBLE MUST BE DESIGNED TO ACCOMODATE
SCBA WEIGHT
AIRLINE LONG WORK PERIODS LIMITS RANGE OF OPERATIONS CHEMICAL RESISTANCE OF AIRLINE SHOULD
COOLING AIR CAN ALSO BE SUPPLIED BE CONSIDERED
-------�
TABLE 5.5 (CONTINUED)
ADVANTAGES AND DISADVANTAGES OF ALTERNATIVE ENSEMBLE COMPONENTS
COMPONENT ADVANTAGES DISADVANTAGES COMMENTS
COMMUNICATION SETS VOICE COMMUNICATION IS ESSENTIAL FOR
SAFE, EFFICIENT WORK
VOICE-AMPLICATION INEXPENSIVE FUNCTIONAL OVER SHORT DISTANCES
HARD-WIRED SYSTEM EXTENDS RANGE OF OPERATION REQUIRES ALL PERSONS BE CONNECTED BY WIRE
WIRELESS VOICE/HEARING QUALITY HIGH BATTERY LIFE LIMITS OPERATION PERIOD USER MUST DECIDE AMONG CONTINUOUSLY ON,
ALLOWS WIDE RANGE OF OPERATION SOME TRAINING REQUIRED PUSH TO ACTIVATE, OR VOICE ACTIVIATION.
ALSO, AMONG SIMPLEX, DUPLEX OR HALF-DUPLEX
COOLING SYSTEMS ALLOWS EXTENDED WORK PERIODS ADDED WEIGHT/BULK
REDUCES LIKELIHOOD OF HEAT STRESS UMBILICAL SYSTEMS RESTRICT RANGE OF
OPERATION
PASSIVE SYSTEMS ALLOW NO CONTROL OF
COOLING RATE
-------�
CHAPTER 6
CPC USE PROCEDURES
A. PURCHASE
Protective clothing is purchased either directly from the manufacturer or
through a CPC distributor. Listings of these organizations may be found
in, for example, the Thomas Register or Best’s Safety Directory. A
fairly extensive listing is provided as Appendices C and D. The larger
distributors carry several manufacturers’ products and a wide variety of
products. Virtually every manufacturer has a catalogue of its products
which describes each product as to the sizes available, thickness of the
rubber or plastic barrier, and the materials of construction. For
convenience, detailed summaries of this information for full-body ensem-
bles is provided as Appendices C and H.
Many of the catalogues also contain chemical resistance ratings charts
for the products. The reliability of the ratings varies from vendor to
vendor. Some ratings are based on extensive testing, while others would
appear to have minimal supporting evidence. Further comments on CPC
vendors’ literature are presented in Chapter 7.
In making CPC purchase decisions, important considerations are:
• the application to which the clothing will be put,
• the recommendations presented in Chapter 8,
• past experience with the particular item of clothing, and
• cost and availability.
B. PRE-USE INSPECTION
Each item of clothing should be inspected immediately upon removing it
from the package. First determine that the material of construction is
that which was ordered or specified for the task at hand. This will
involve comparing the item number with the catalogue number. Items of
different materials should be kept separated. (See Storage below.)
Visually inspect the items for defects such as imperfect seams, non-
uniform coatings, pinholes, malfunctioning closures, and tears. Some
flexible niaterials.may stiffen during extended storage periods; flex the
product and observe for surface cracks or other signs of shelf life
deterioration. Pinholes may be detectable by holding the garment up to a
light in a dark room. Cloves with holes can be identified by pressuriz-
ing the glove. This can be accomplished by blowing into the glove and
47
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then tightly rolling the gauntlet towards the fingers (thereby reducing
volume and increasing pressure) while observing that the glove holds
pressure. Alternatively, the glove could be inflated and then held under
water and examined for the presence of air bubbles. Full-body encapsu-
lating ensembles should be checked for the operation of pressure relief
valves and the fittings at the wrists, ankles, and neck. Standard
methods for, leak testing full-body ensembles are discussed in Chap-
ter 5.C.5.
C. DONNING
Each worker should thoroughly inspect the clothing he is to wear inunedi-
ately before donning. Of principal concern are cuts, tears, punctures’,
and discoloration or stiffness which may be indicative of chemical attack
resultant from previous use or non-uniformities in the rubber or plastic.
The ‘wearer should understand all aspects of the clothing operation and
its limitations; this is especially important for full-body encapsulating
ensembles where misuse could potentially result in suffocation. Note,
‘some materials may have temperature limitations; for example, some CPC
become stiff and may be unusable at low temperatures.
Once the clothing is on, all closures should be secured and checked. Use
the “buddy system.” Finally, the fit of the clothing should beevalu-
ated., Improperly fitting protective clothing represents a severe poten-
tial hazard. Where clothing is too small, worker movement is,restricted,
likelihood, for tear is increased, and the potential for’ accelerated
worker fatigue. is increased. Where the clothing is too large, the
possibility of snag is increased, and the dexterity and coordination of
the worker may be compromised.
D. IN-USE
During the course of the work task, each worker should periodically
inspect his protective clothing. Of principal concern ‘are tears, punc-
tures, seam discontinuities, or closure failure that may have developed
while’ working. Evidence of chemical attack such as discoloration,
swelling, stiffening, or softening should also be noted., (Note: Perniea-.
tion can occur without any visible effects on the clothing material.)
Any item of clothing that has been physically damaged or chemically
degraded should be doffed and replaced as soon as safely possible.
E.. DOFFING
A principal objective of the doffing process is to restrict the transfer
of chemical from the work area. A second objective is to avoid contact
of the person doffing the garment as well as others with chemical on the
outside of the garment.
48
-------�
Detailed doffing procedures have been developed by the EPA and are
contained in the Interim Standard Operating Safety Procedures of the
Office of Emergency and Remedial Response, Hazardous Response Suppoi t
Division. Part 7 and pertinent Annexes of the Interim Standard are
included herein as Appendix J.
They address:
• doffing site location,
• decontamination, and
• disposal of contaminated garments.
F. REUSE AND STORAGE
Several considerations relative to the storage and reuse of protective
clothing were discussed in Chapter 2. They primarily focus on hazards
that could potentially develop upon the storage of contaminated clothing.
Briefly, in cases where a chemical is absorbed by the clothing, the
chemical begins to permeate into the clothing. Short duration washing of
the clothing with• soap and water removes surface contamination but not
absorbed chemical. After surface decontamination, some of the absorbed
chemical will continue to permeate the clothing material and may ulti-
mately appear on the inside surface. This can happen during periods of
overnight or weekend storage. Where such potential hazards may develop,
clothing can be checked inside and out for discoloration or, if possible,
by wipe testing for suspect chemicals prior to reuse. This is particu-
larly important for full-body encapsulating ensembles which are generally
subject to extensive reuse due to their cost. Note, however, that
negative (i.e., no chemical found) test results do not necessarily
preclude the possibility that some absorbed chemical will be released to
the inside of the CPC during reuse.
It should be noted that, at the present time, there is very little docu-
mentation regarding clothing reuse. The use of disposable clothing, of
course, obviates the problem. Where reusable CPC is required, however,
the type of problem discussed above can best be minimized by selecting
the most resistant clothing for the chemical at hand; such clothing will
absorb little or no chemical. Furthermore, used clothing should be
stored in well-ventilated areas. Ideally, there should be good air flow
around each item of clothing.
Reuse of face shields and lens is a particularly important issue. Good
vision is required for both safety and efficiency on the work site. All
such items should be inspected for crazing, cracks, and fogginess prior
to use. See Chapter 3, Part D, in Volume II.
49
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Finally, in storing protective clothing, different types of materials of
clothing should not be mixed. For example, glàves which are black in
color and virtually indistinguishable from one another may be made from
nitrile, neoprene, Viton, polyvinyl chloride, butyl, etc., materials.•
Each material has unique chemical barrier properties. Mixing the gloves
significantly’ increases the chance that a worker will be wearing the
wrong clothing for the chemical of concern. It may be possible to
separate mixed gloves by using the manufacturer’s product’number that is
often found in the gauntlet area. ‘
50
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CHAPTER 7
CPC VENDORS’ LITERATURE
A. INTRODUCTION
The most widely available sources of information on CPC are the product
catalogues of the CPC manufacturers and vendors. These booklets contain
descriptions of the types, sizes, and varieties of CPC produced by each
manufacturer. In most cases the basic materials of construction of the
CPC are also included in the product descriptions. Many manufacturers
also include information pertinent to the chemical resistance of their
products or of the materials from which the products are fabricated.
This information is often in the form of tables of qualitative chemical
resistance ratings or use recommendations for the products/materials and
particular chemicals. However, the leading manufacturers are increas-
ingly providing information from permeation testing. A few vendors also
provide information pertinent to abrasion, tear, etc., resistance but in
general most catalogues do not address such application-related issues.
Since the focus of these Guidelines is the selection of clothing for
protection from exposure to chemicals, the vendors’ chemical ratings and
recommendations tables are the focus in this chapter; they are discussed
in more detail in Chapter 4 of Volume II.
B. COMMENTS ON VENDORS’ CPC RATINGS AND RECOMMENDATIONS
Of the 150 CPC èatalogues which were obtained and reviewed in the prepa-
ration of the Guidelines, 26 contained some form of chemical resistance
information for the products described therein. The information was both
qualitative and quantitative. The qualitative ratings/recommendations
typically were on a four-grade scale of “excellent,” “good,” “fair,” and
either “poor” or “not recommended.” In a small number of cases, five- or
six-grade scales were used. With the exception of those tables based on
permeation testing, these tables do not include information as to the
basis for the recommendations. From the results of interviews with
several of the vendors who do not supply permeation test results, it
would appear that, at present, most do not have (or at least are unwill-
ing to share) performance specifications or quantitative test data for
their products. The ratings/recommendations for a particular type of
product (for example, nitrile gloves) for a particular chemical may vary
from vendor to vendor. Both of these factors- -little or no test data and
inconsistencies among recommendation tables- -make the selection, from
qualitative information, of the best CPC for a given application a
difficult and uncertain task.
An increasing number of vendors have available or are providing permea-
tion test data, i.e., breakthrough times and permeation rates. These
data allow the comparison of CPC products. However, such comparisons
51
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must be performed with caution since test results can be influenced by
the testing method. For example, analytical sensitivity can strongly
influence the detection of breakthrough. Also, some vendors report the
earliest breakthrough time found in replicate tests while others report
an average value.
Given the above facts, the most important consiaeration to keep in mind
when using vendor recommendation tables, including those based on permea-
tion tests, is that the tables are intended to provide guidance, in the
selection of CPC. That is, the tables are meant as a place to start the
CPC selection process. The tables are meant for identifying candidate
CPC for further evaluation and are particularly useful for identifying
CPC from which poor performance would be expected and, therefore, which
can be dropped from consideration. In no way do the recommendations
address the wide variety of uses, challenges, and care to which the CPC
may be subjected. Most vendors strongly emphasize this point in’ the
‘descriptive text which accompanies the tables. Secondly, the vendors’
recommendations were not developed by, nor are they sanctioned by,
industrial hygienists or other safety professionals. CPC manufacturers
are in business to sell clothing and not to set the standards for safety
at any given work site. In conclusion, the principal purpose of the
catalogues is to provide information about products in terms of the
sizes, styles, and materials of construction. The ratings.charts should’
only be used as a starting point for further evaluation if chemical
resistance is an issue.
C. VENDORS’ ‘TEST METHODS
The quality of the test methods used by vendors to generate data to
support their recommendations range from state of the art to rudimentary.
Since the promulgation of ASTM Method F739, several CPC vendors, have
generated tabulations of permeation data for their products. As addi-
tional standards are developed, an increase in testing can be expected.
It would appear, however, that many purveyors of recommendation tables
continue to rely on information provided by the supplier of the raw
materials from which the clothing is fabricated. In general, the suppli-
ers’ ratings are based on some form of immersion testing, but little or
no permeation testing. Two drawbacks of this approach are (1) the raw
material supplier may be unaware of the special needs of CPC, and (2) the
CPC vendor has no firsthand knowledge of the chemical resistance of his
products. Potential problems associated with the first drawback are:
• Chemical permeation of a rubber or plastic material can occur
with little or no physical effect on the rubber or plastic.
This may or may not be detected by an immersion test.
• The information provided by the materials supplier is typically
developed for a general elastomer/plastic formulation or type.
52
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A result i-s that the recomnendation may not take into account
formulation modifications that are required to put the material
into a form appropriate for CPC.
A further comment on recommendation tables based on immersion testing is
that most are quite old, and based on subjective observation of immersion
test specimens rather than quantification of swelling, weight, or
strength changes. In many cases the details of the testing and the
qualitative descriptions -for defining “excellent,” “good,” etc., were- not
documented. Thus, it becomes impossible to compare results. Another
consideration associated with the age of the recommendations is -that as
time passes and
1. raw materials suppliers change formulations, -
2. CPC manufacturers change raw materials suppliers, and
3. CPC manufacturers change production methods,
the performance of the same “nominal” product may also change. There is
no indication that recommendations are routinely updated to reflect these
changes, except in a few exceptional cases. These considerations may
also apply to permeation data and the recommendations based on them.
Again, the CPC recommendation tables should oniy be used for guidance.
This includes those presented in the next chapter.
53
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CHAPTER 8
CPC RECOMMENDATIONS
In this chapter, CPC recommendations for approximately 500 chemicals or
aqueous solutions are presented. In addition, the chemicals. have been
grouped into generic families (e.g., acids, amines, etc.) and general
recommendations are made for each family which is represented by more
than one chemical having CPC performance information for a given mate-
rial. The recommendations are contained in Matrices A and B, and the
data on which the recommendations are based are tabulated in Appendices A
through E in Volume II. Appendix F in Volume II contains permeation data
for several non-aqueous, multi-component solutions. The matrices are
complemented by Appendices B through H which contain information perti-
nent to the acquisition of CPC such as a directory of vendors’ addresses
and telephone numbers.
A. SCOPE AND LIMITATIONS
1. Chemicals
Two matrices have.been developed. Matrix A (pp. 66-120) ‘contains CPC
recommendations for approximately 500 chemicals or aqueous solutions and
33 clothing materials. The chemicals are the liquids inclu4ed in the
Clean Water Act (CWA) Sections 311 and 307a, the Clean Air Act (CM)
Section 112, and the Resource Conservation and Recovery Act (RCRA)
Sections P, U, F, and K. Also included are any other chemicals (princi-
pally liquids but including some gases) for which there were CPC vendors’
recommendations cr technical reports of permeation test results.’ No
recommendations are presented for non-aqueous, multi-component solutions.
Vendors’ recommendations or permeation data were not available for all
the liquids addressed in the aforementioned acts. Approximately 40% of
the chemicals are included in OSHA Directive Subpart 2- -Toxic and Hazard’-
ous Substances, 29 CFR 1910.1000, Tables Z-1 and Z-2.
2. Chemical Classes
An alphabetical list of the chemicals is presented in Appendix B. Note
where a percentage follows the name of the chemical, it is indicative of
the concentration of the chemical in water. All other liquids are
single-component. Multi-component organic solutions are not addressed
although permeation data for some are presented in Appendix F in
Volume II. The right-hand column of Appendix B contains two pieces of
information for each chemical: the chemical abstract number (CAS number)
and a numeric “chemical class” code. The code is the “key” to Matrix A
since the matrix is organized numerically by chemical class, with the
code shown in parentheses following the generic class name. The chemical
classification scheme is summarized in Table 8.1 and is based on the
54
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TABLE 8.1
LISTING OF CHEMICAL CLASSES
Class Code
ACIDS, CARBOXYLIC, ALIPHATIC
Unsubstjtuted 102
Substituted 103
Polybasic 104
Others 106
ACID HALIDES, CARBOXYLIC
Aliphatic 111
Aromatic and Heterocyclic 112
ALDEHYDES
Aliphatic and Alicyclic 121
Aromatic and Heterocyclic 122
AMIDES
Amides 132
AMINES, ALIPHATIC & ALICYCLIC
Primary 141
Secondary 142
Tertiary 143
Polyamine 144
AMINES, AROMATIC
Primary 145
Secondary, Tertiary 146
Polyamine 147
ANHYDRIDES, CARBOXYLIC
Aliphatic 161
CYANIDES
Cyanides 215
ESTERS, CARBOXYLIC
Formates 221
Acetates 222
Higher Monobasic 223
Polybasic 224
Aromatic Phthalates 226
55
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TABLE 8.1 (Continued)
LISTING OF CHEMICAL CLASSES
Class Name Class Code
ESTERS, OTHER THAN CARBOXYLIC
Sulfonates 232
Others 233
ETHERS
Aliphatic 241
Aromatic 242
Alkyl-Aryl 243
HALOGEN COMPOUNDS
Aliphatic, Unsubstituted 261
Aliphatic, Substituted 262
Aromatic, Unsubstituted 263
Aromatic, Substituted 264
Polynuclear 265
Vinyl Halides 267
HETEROCYCLIC COMPOUNDS
Nitrogen, Pyridines 271
Nitrogen, Quinolines 272
Nitrogen, Others 274
Oxygen, Epoxy Compounds 275
Oxygen, Furan Derivatives 277.
Oxygen, Others 278
Sulfur 279
HYDRAZINES
Hydrazines 280
HYDROCARBONS
Aliphatic and Alicyclic 291
Aromatic 292
Polynuclear 293
HYDROXYL COMPOUNDS
Aliphatic & Alicyclic, Primary 311
Aliphatic & Alicyclic, Secondary 312
Aliphatic & Alicyclic, Tertiary 313
Aliphatic& Alicyclic, Polyols 314
Aromatic 316
56
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TABLE 8.1 (Continued)
LISTING OF CHEMICAL CLASSES
Class Name Class Code
INORGANIC ACIDS
Inorganic Acids 370
INORGANIC BASES
Inorganic Bases 380
INORGANIC GASES•
Inorganic Gases 350
INORGANIC SALTS
Inorganic Salts 340
I SOCYANATES
Is.ocyanates 210
KETONES
Aliphatic & Alicyclic 391
Alkyl-Aryl 393
LACTONES
Lactones 400
MIS CELLANEOUS
Miscellaneous 560
NITRILES
Aliphatic & Alicyclic 431
Aromatic 432
NITRO COMPOUNDS
Unsubstituted 441
Substituted 442
Nitroso 443
ORGANIC SALTS
Organic Salts 550
ORGANO -METALLIC COMPOUNDS
Organo-Metallic Compounds 461
57
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TABLE 8.1 (Continued)
LISTING OF CHEMICAL CLASSES
Class Name Class Code
ORCANO-PHOSPHOROUS COMPOUNDS
Organo-Phosphorous Compounds 460
ORGANO- SILICON COMPOUNDS
Organo Silicon Compounds 480
PEROXIDES
Peroxides 300
QUINONES
Quinones 490
SULFUR COMPOUNDS
Thiols 501
Sulfides & Disulfides 502
Sulfoxides 503
Sulfonic Acids 504
Sulfonyl Chlorides 505
Others 507
58
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system used by the Eastman Kodak Company. This system was selected
because it addresses a large fraction of the chemicals of concern herein.
Other classes have been added as needed. -
In Matrix B (pp. 121-124), CPC recommendations are provided for the same
33 materials but in this case for generic families of chemicals. The
chemicals in each family and on which the Matrix B recommendations are
based are readily determined from Matrix A. Note that not all classes in
Matrix A are presented in Matrix B; furthermore, recommendations are not
given for all materials for all classes. The criterion for being given a
recommendation in Matrix B is that the class must contain more than one
chemical with CPC recommendation for the material of concern. In many
cases there was considerable variability among the recommendations for
chemicals within a class; these are indicated by double asterisks(**).
In these cases, please refer to Matrix A for specific information.
3. Materials
The 12 materials for which the most information is available are listed
across the top of the matrices. Where information on other materials was
available, recommendations for these materials are in the right-most
column of the matrices. There were 21 such materials. A general charac-
terization of several of the physical properties of 13 of the materials
is presented in Table 8.2.
The 33 material categories were reduced from the approximately 145 types
and forms of clothing materials listed in Appendix E, and represent the
materials of construction for well over 90% of the CPC considered in the
Guidelines.
Multi-component materials are identified in two ways. Blends are indi-
cated by a “+.“ For example, a blend of nitrile rubber and PVC is
designated nitrile + PVC. Coated or laminated structures are indicated
by a “/.“ For example, nitrile rubber coated polyester fabric is desig-
nated nitrile/polyester. By grouping several types and forms of clothing
into one category, it is likely that in some cases particularly good or
particularly poor items have gone unnoted since there can be significant
differences in product quality between vendors. This is a compromise
that must be accepted and recognized in summary compilations such as
Matrices A and B. In general, however, a given material will exhibit the
same performance relative to another material independent of-whether the
materials are free films or coatings and independent of source. For
example, if a butyl rubber glove is more resistant than a nitrile rubber
glove to a given chemical, then it is highly likely that butyl rubber
gloves and clothing in both supported and unsupported form will be better
barriers to that chemical than their nitrile counterparts. In other
words, differences in performances betw.een products of a given material
will probably be small compared to performance differences between.
categories of materials. In using the matrices, it must be remembered
that their purpose is to provide a starting point for CPC selections.
59
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TABLE 8.2
*
PHYSICAL CHARACTERISTICS OF CPC MATERIALS
Material (Designation Abrasion Cut, Heat Ozone Puncture Tear ReLative
in Matrices) Resistance Resistance FLexibility Resistance Resistance Resistance Resistance Cost
ButyL Rubber (Butyt) F G G E E G G High
Chlorinated PoLyethylene E G G 0 E 0 G Low
(CPE)
Natural Rubber E E E F P E E Medium
Nitrile-Butadiene E E E G F E 0 Medium
Rubber (NBR)
Neoprene E E 0 G E G G Medium
Nitrite Rubber (Nitrite) E E E 0 F E 0 Medium
Nitrite Rubber + PolyvinyL G G G F E G G Medium
ChLoride (Nitrite + PVC)
PolyethyLene F F 0 F F P F Low
Polyurethane E E 0 0 0 0 High
Polyvinyl Alcohol (PVA) F F P 0 E F 0 Very High
PoLyvinyL ChLoride (PVC) G P F P E G 0 Low
Styrene-Butadi ne E G G 0 F F F Low
Rubber (SBR)
Viton G - 0 0 0 E G G Very High
*
Ratings are subject to variation depending on formulation, thickness, and whether the material is supported by fabric.
E-excettent; 0-good; F-fair; P-poor
-------�
Selections based on the matrices’ recommendations do not guarantee
protection since in no way do the matrices take into account such key
issues as the application of the CPC or quality differences between CPC
products.
4. Perfor nance Information
The information on which the matrices are based is from three sources:
• Vendors’ qualitative chemical resistance charts that are often
included in CPC catalogues. The ratings in the charts of
approximately 26 vendors (including the five largest manufac-
turers of CPC) were tabulated and reviewed by chemical and
material classes. In total, over 7,500 individual ratings
composed the tabulation.
• Qualitative chemical resistance charts from the suppliers of
CPC raw materials.
• The technical and product literature which addresses chemical
resistance and permeation testing of CPC materials and prod-
ucts. In all, over 5,200 individual test results (such as
breakthrough time, permeation rate, tensile property, and
percent weight change) were tabulated.
The vendors use a variety of rating scales; some have three grades, most
have four grades, and a few have five or six grades. In order to compare
ratings, anormalized four-grade system (i.e., A, B, C, D) was developed.
Briefly, products with the highest rating. in a four- or three-grade
system or the highest two ratings in the case of a six-grade system were
given a normalized rating of “A.” A normalized rating of “B” was given
to the next highest vendor’s ranking, which was generally call “good,”
but in some three-grade systems was. called “fair.” A normalized rating
of “C” was given to the third highest vendor ranking except for the.
three-grade systems. Typically, vendOrs called this ranking “fair.”
Finally, all vendors’ rankings of “poor” and “not recommended” were given
a normalized rating of “D.”
B. RECOMMENDATIONS
The recommendations in Matrices A and B resulted from a comprehensive
analysis of all the information described above. Briefly, two separate
computer data bases were developed: one for qualitative resistance
information, •and one for quantitative data from CPC testing. (The test
data are presented. in Appendices A through D of Volume II.) No attempt
was made to validate any of the data prior to their input. The method of
analysis served as an internal validation process. The information for
each chemical/material pair in each data base was analyzed separately
using computer algorithms .which took into account the amount and
61
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consistency of the information for each pair. (The rationale is de-
scribed in detail in Appendix H of Volume II.) For each data base, the
result was a classification of each chemical/material pair into one of
the four following groups:
Group 1 - - significant amount of information indicating excellent
chemical resistance.• -
Group 2 - - lesser amount of information indicating excellent
chemical resistance.
or
- - significant amount of information indicating good
chemical resistance.
Group 3 - - significant amount of information indicating fair
chemical resistance.
or
- - lesser amount of information indicating poor chemical
resistance.
Group 4 - - significant amount of information indicating poor
chemical resistance.
In all cases the algorithms were designed to produce a conservative
classification; that is, inconsistencies were resolved in favor of the
lower group.
The results of the quantitative and qualitative analyses were, ‘then
combined to produce the recommendations shown in Matrix A. Again,’ this
was performed by means of a computer. The rationale was that shown in
Table 8.3. In all cases of inconsistencies between the •ata and qualita-
tive ratings, the test data were more influential in forming the recomL
mendation. In, some cases (indicated by ** in the table), technical
judgment rather than a computer algorithm was used because the informa-
tion was not readily susceptible to simple computer analysis. Rather, it
required careful consideration’ as to source, methods, and past experi-
ence.
Single and double, upper and lower’ case “r’s” and “n’s” are used to
convey the recommendations. Briefly, RR, R, rr, and r indicate various
degrees of good resistance and NN, N, nn, and n indicate various degrees
of poor chemical resistance; Double characters indicate that there are
test data to support the recommendations, and single characters indicate
that only qualitative information was available. Upper case characters
indicate consensus and a relatively large amount of information, whereas
62
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Test
Data
TABLE 8.3
QUALITAT!VE DESCRIPTION OF RECOMMENDATIONS IN MATRIX A*
Qualitative Ratings
*Recommendations obtained by computer algorithm. See Appendix H of Volume II
for rationale.
**Reomt.nendations for these combinations were determined on basis of technical
judgement rather than computer alçjorithm.
(-h)
Quantity/
Resistance
.
Many/Excellent
Few/Excellent
or
.
Many/Good
Many/Fair
or
Few/Poor
Many/Poor
.
None
Many/Excellent
R R
R R
* *
R A
Few/Excellent
or
Many/Good
rr
rr
**
:
**
rr
Many/Fair
or
Few/Poor
flfl
nfl
.
flfl
.
flfl
S
flfl
Many/Poor
N N
N N
N N
N N
N N
None
A
r
fl
N
No
Recommenda-
t ion
-------�
lower case indicates a relatively small amount of information or incon-
sistencies.
The recommendations in Matrix B are based on the technical judgment of
the authors upon review of Matrix A. As stated in Point 6 of Section C
which follows, Matrix .B is designed to provide general guidance to the
initial steps of clothing selection.
C. USER INSTRUCTIONS
To make the most effective use of the Guidelines, references must be made
to the matrices and the appendices. Assuming that the chemical(s) for
•which protection is required is known, the procedure would beas follows:
1. Go to Appendix B, an alphabetical listing of chemicals listed
in Matrix A. Find the chemical and referring to the right-most
column, its class code. If the chemical is not listed, go to
Step 6.
2. Return to Matrix A, a numerical listing of the chemicals by
class. Locate the class which contains the subject chemical by
means of the numbers in the parentheses’ next to the class
names. Table 8.1 is a listing of the chemical, classes and
their codes.
3’. Locate the subject chemical and read across to determine which
is (are) the preferred clothing material(s) for the chemical.
4. Go to Appendix C, an alphabetical listing of CPC by material
type and by product type. The vendors for the CPC are listed
in the right column. Additional information on the products
can be found by referring to Appendix E and using the first two
digits of the product code from Appendix C. Also additional
information on encapsulating ensembles and splash suits can be
found in Appendices C and H, respectively.
5. Co to Appendix D, an alphabetical listing of the vendors and
their addresses and telephone numbers. Contact the vendor(s)
and initiate procurement procedures.
6. When the specific chemical of interest is not listed in Appen-
dix B, it may be possible to narrow the CPC alternatives
through the use of Matrix B. With the help of Table 8.1,
attempt to classify the chemical; then follow the general
recommendations provided in Matrix B. At this point, two
options are open: (a) follow Steps 4 and’ 5’ above, or
(b) return to Matrix A. In Matrix A, review all the chemicals
in the class of interest and identify the one or two that are
most similar to the specific chemical in question. Select CPC
64
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on the basis of the recommendations for the similar chemicals.
Note. that in Matrix B, asterisks are indicative that the
particular material exhibited considerable variability in its
resistance to the chemicals of the given class. In these cases
reference to Matrix A and caution in CPC selection is highly
advised.
During the selection and eventual use of the CPC recommended in
Matrices A and B, it is important to remember that:
1. The recommendations are based on the best information avail-
able. In some cases, however, this information is very
limited
2. The recommendations are a guide, not a guarantee.
3. The recommendations probably do not hold for extreme use
conditions (e.g., high and low temperatures, long-term contact,
high abrasion, etc.) nor do they consider the problems associ-
ated with reuse described in Chapter 6, Part F.
4. There may be certain products in each category that are better
or poorer than the norm. Also, the quality of construction of
even the “better” products can vary from batch to batch. In
their present form, the matrices do not address quality issues.
The assessment of quality and uniformity o.f quality can best be
gained through field experience and, therefore, left as a task
for the field personnel. It is possible that future Guidelines
will be modified to include recommendations for specific
products that are based on quality and field performance.
5. The “double” letter recommendations are based primarily on
breakthrough time data; permeation rate data were given only
secondary consideration.
A final comment pertains to the completeness of CPC product and vendor
listings presented in the appendices. The objective was to include at
least one source for any given item of CPC. The listings, therefore, are
extensive but are probably not all-inclusive; it is unlikely that all
distributors or all brands/lines of CPC are mentioned. The listings are
designed such that they can be readily expanded to cover additional
manufacturers or distributors as they become known to the EPA or
U.S. Coast Guard. Furthermore, the recommendations can also be modified
as additional performance information becomes available to the EPA or
U.S. Coast Guard.
65
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MATRIX A
RECOMMENDATIONS BY CHEMICAL
66
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Acids, Carboxylic, Aliphatic
Llnsubstituted (102)
Acetic Acid
Acetic Acid, <30%
Acetic Acid, 30-70%
AceticAcid, >70%
Acrylic Acid
Butyric Acid
Diacetin
2-Ethylhexanoic Acid
Formic Acid
Formic Acid, 30-70%
Formic Acid, >70%
-J
ft rr
R r
r
r
r
r
-4
-J
¼ ’ .
4. 4.
-.1’
0
—
4. .
¼’
-4
I :
nn RR nfl RR nfl n NN rr
r rr n
rr rr
nfl n
rr
R ft R r NN ft n
r
rr rr nfl rr nfl n nfl
rr
rr
rr
rr
n
r
rr rr
r
-I
0
TEFLON( rr)
NEOP+NAT R(JB(RR)
NEOPRENE+SBR( r)
NAT+NEOP+NBR( r)
POLYtJRETHANE( r)
SARANEX( rr)
SBR( r)
VIT/CLORBUTL( rr)
NEOP/NAT RtJB(RR)
SBR/NEOPRENE( r)
POLYIJRETHANE( r)
SBR( r)
TEFLON( rr)
NEOP+NAT RUB( r)
NEOPRENE+SBR( r)
POLYURETHANE( R)
SBR( R)
SBR/NEOPRENE( r)
NEOP+NAT RUB(rr)
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of’ recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
4.
.4
S
-------�
Acids, Carboxylic, Aliphatic (cont.)
Unsubst/tuted (cont.) (102)
Glycerin Triacetate
Laurie Acid
Lauric Acid, 30-70%
Linoleic Acid
Methylacrylic Acid
Oleic Acid
Palmitic Acid
Propionic Acid
Stearic Acid
I
‘I
/
(5 ,
-I
‘I ‘
q q•
r
n r
rr rr rr
r n r
n
n r r nfl rr rr rr rr rr
NN rr n f l
NN
r R R r R
e
1/
- .1
Ii
r
r
nfl
r r
r
rr r r NEOP+NAT RtJB( r)
NEOPRENE+SBR( n)
POLYtJRETHANE( r)
SBR( n)
SBR/NEOPRENE( r)
rr r
TEFLON( rr)
R POLYURETHANE( R)
SBR( R)
SBR/NEOPRENE( r)
Note: Numbers in parentheses are chemical class codes —- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
-------�
Lactic Acid
Acids, Carboxylic, Aliphatic (cont.)
Substituted (703)
Chloroacetic Acid
Lactic Acid, <30%
Lactic Acid, >70%
Malic Acid
Polybasic (101/)
Maleic Acid
Maleic Acid, >70%
Malic Acid
Oxalic Acid
.4- ‘4I
4 ) .
4.
‘4.4 - -J
.- —
‘3 ,
-d
‘4! .
4. 4.
0 -J
4.
—
NN SARANEX(rr)
R r r R R R R R r r NEOP+NAT RUB( n)
NEOPRENE+SBR( r)
POLYURETHANE( R)
SBR( R)
SBR/NEOPRENC( r)
r r
rr rr rr rr rr rr rr
r r r
n
n R R n
rr
RR RR
rr rr
r ,r
rr r RR RR
Others (106)
BenzenesulfOnic Acid rr
n R r
rr rr rr
r
rr n RR rr
rr
POLYURETHANE( n)
SBR( r)
SBR/NEOPRENE( r)
SBR( r)
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3..
Source: Arthur 0. Little, Inc.
-------�
Acid Halides, Carboxylic
Aliphatic (111)
•1
.
a.
..- -.
#
— , ‘..
* *
‘I
a.
-I
0
-J ’
0
. : •
a. a.
‘ l
a
0
I
S•
Acetyl Chloride n r n TEFLON(rr)
SARANEX( nfl)
Ethyl Chiorocarbonate
Aromatic and lleterocyclic (712)
Benzoyl Chloride
Al dehydes
Aliphatic and A//cyclic (121)
Aceta Idehyde
-J
9 Acrolein
Butyra Idehyde
Crotona I dehyde
Decanal (all isomers)
r
rr n r
RR NN
rr NN
no
rr on
rr rr
nfl
n
rr NN nfl 0 HYPALON(nn)
TEFLON(rr)
NEOPRENE+SBR( r)
POLYURETHANE( r)
SBR( n)
V IT/CLORB IJTL(nn)
S ILVERSHIELD(rr)
SBR/NEOPRENE( n).
VIT/CLORBUTL( rr)
r TEFLON( rr)
POLYURETHANE( n)
SBR( r)
SBR/NEOPRENE( r)
TEFLON( rr)
NN rr rr SARANEX(rr)
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of’ recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
•NN NN NN NN NN no NH NN
on NN
nfl ft nfl
NN
n R no r r
nfl NH
rr rr
NN
C,
•.1
.5
‘I
-------�
Aldehydes (cont.)
Aliphatic and Al/cyclic (cont.) (121)
Formaldehyde, <37%
G I uta ra I dehyde
Hexana I
I sobutyra Idehyde
rr
Propionaldehyde
rr
Trichloroacetaldehyde
.
nfl
Aromatic and iletrocyclic
(122)
Benza Idehyde
Furfura I
,
a.
-..
¼•
a.
sI
c
-
a.
‘
a.
.
0
,
! >
-. .
.
A. q
. C,
RR rr r NN NN nfl NN RR
rr rr
r
rr n n nn nn n nfl NN RR
RR r n NN NN nfl NN NN rr
nfl
fin
n NN RR
rr rr
NN
NN
NN nfl
NN
NN
rr
‘I
r TEFLON(rr)
NEOP+NAT RUB( n)
NEOPRENE+SBR( r)
POLYIJRETHANE( r)
SBR( R)
SILVERSHIELD( rr)
SBR/NEOPRENE( r)
r
N n r NEOP+NAT RIJB( n)
NEOPRENE+SBR( n)
POLYURETHANE( n)
SBR( r)
SBR/NEOPRENE( n)
N rr r TEFLON( rr)
NEOPRENE+SBR( n)
POLYURETHANE( n)
SBR( n)
SILVERSHIELD( rr)
SBR/NEOPRENE( n)
Note: Numbers in parentheses are chemical class codes -— see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g..RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
—4
I.- .
-------�
f in nn nfl nfl
Am/des (132)
N, N-Dimethylacetamide
Dimethylformamide
RR
‘
nfl
NN
, fl
NN,
nn
NN
N
NN
Formamide, 30%
Hexamethy lphosphoamide
rr
nfl
nfl
nn
nn
‘Urea
r
•r
r
r
Asnines, Aliphatic&Alicycl
ic
Pr/mary (1I 1)
Allylamine
Butylarnine
nn
nfl
NN
n
NN
NN
nfl
iso—Butylarnine
nfl
rr
fi
NN
Cyclohexylathine
Ethanolamine
nfl
rr
r
n
NN
RR
fin
RR
RR
nn
RR
rr
-4
NEOP+NAT RUB( n)
SARANEX( rr)
TEFLON( rr)
NEOP+NAT RUB(nn)
SBR( r)
VIT/CLORBUTL( rr)
SILVERSHIELD(rr)
NEOP+NAT RUB( r)
POLYURETHANE( nfl)
r
nfl NN
NN n TEFLON(rr)
VI T/CLORBUTL( nn)
fin NN n VIT/CLORBUTL(rr)
rr rr fl fl NE0P ENE+SBR( n)
POLYURETHANE( n)
SBR( n)
SBR/NEOPRENE( n)
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: ArthurD. Little, Inc.
n ides’
1
I
‘4,
I
C.,
‘I
-------�
-1
-.1
w
a.
‘4 ,
‘5 ,
0
a. .
Amines, Aliphatic &Alicyclic (cont.)
Primary (liii) (cant.)
Ethylamine, 30-10%
I sopropylamine
Methy lam me
Methylarnine, 30-70%
Mono I sop ropano lami ne
n- P ropy lam me
Secondary (11/2)
sec-Butyl amine
Diallyamine
01-n-amy lam i ne
Dibuty lam me
Diethylamine
nn nn
r nn rr
rr
rr rr
nfl NN
n rr
NN
rr
rr
rr
TEFLON( rr)
SI LVERSH I ELD( nn)
.
MN
NN
TEFL ON(rr)
.
PV ACETATE(rr)
rr
SBR( r)
nfl
rr
NM
rr
SILVERSHIELD(rr)
rr
.
TEFLON( rr)
PV ACETATE(rr)
nn
nn
nn
NN
nn
rr
NN
rr
n f l
rr
NM
rr
n
nn
rr
NM
rr
n
nn
n
NN
NN
n
NM
NN
n
MN
fin
n
SARAN [ X(nn)
SBR( r)
VIT/CL ORBUTL(nn)
IILVERSIIIELD(rr)
Diisobuty lamine nn
rr
rr
rr
Note: Numbers in parentheses are chemical class codes —- see Table 81 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur 0. Little, Inc.
-I
/
a.
-d
S.
• 44g.
-I
/
-J
‘I
-------�
Aznines, Aliphatic &Alicyclic (cont.)
Secondary (11i2) (cont.)
Di isopropylamine
Dime thy lam me
Di methylethano lam I ne
Dip ropy lam me
Ethyi-n-butylami ne
Ethylenimine
n-Me thy le tha no lamine
Morphol me
Pyrrole
-.1
4.
-..
- -.
. *
4.
sd
c
.-j
:w
.
4.
.
4.
.
-S
.
d
4 I
0
I
>
4)
nfl
rr
rr
NN
nfl
nfl
NN
rr
•
NN
nfl
nn
nn
nn
rr
NN
nfl
nn
nn
NN
rr
NN
rr
RR
nn
N
r NN
RR
n
RR
NN rr TEFLON( rr)
TEFLON( rr)
POLYCARBONAT( rr)
CELLUL ACRYL(rr)
NEOPRENE+SBR( n)
POLYURETHANE( n)
SBR( n)
SILVERSHIELD( rr)
SBR/NEOPRENE( n)
n
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of’ recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
C,
-J
‘5
‘I
n
-------�
: ‘
1 .
-J -J
— —
, ;
.-.
* .*
.
1
Q.
,
,
,
-.1
V.
. .
4. 4.
,
.
— .
.
Ainines, Aliphatic & Alicyclic (cont.
)
Tertiary (7113)
.
tert-Butylarnine
Diethanolamine
Diethylami noethanol
Dimethylbutylamine
n-Ni trosod i methylam I ne
Trial lylamine
Triethanolamine
Triethanolamine, >70%
rr
rr
r
•rr
rr
rr
- ..
Triethylamine
Tri—n—propylamine
rr
n
nn
nn
RR
rr
•
rr
rr
rr
n
rr
n
nfl
r
rr
rr
rr
rr
rr
nn
nn
nfl
NN
nfl
nn
rr
r
r r N
R
rr
R rr
NN rr
SBR( n)
TEFLON( rr)
NEOP+NAT RUB( r)
POLYURETHAN [ ( n)
SBR( ii)
SBR/NEOPRENE( n)
rr n r POLYURETIIANE( n)
SBR( n)
SBR/NEOPRENE(. n)
NN rr n
Note: Numbers in parenthesesare chemical class cOdes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Li’ttle, Inc.
I
‘4’
-I
I,
-------�
Amines, Aliphatic &Alicyclic (cont.)
P0/yam/ne ( /i4)
1, 3-Diaminopropane.
Di ethylenetriam i ne
Dime thy lam mop ropy lamine
Ethylenediamine
Iminobi spropylamine
3-Methylami flop ropy lam I ne
Propylenediamine
Tetraethylenepentam i ne
N, N, N’ , ‘ —Tetramethylened i amine
-J
° ‘ Triethylenetetrarnine
-.1
nfl NN rr
rr nfl
nfl MN nfl
.
q.
i
-.1
—
—
*
‘1
-
.-
,
-.
*
Q
.
‘ 3 /
O
C.,
.
.
Q.
, .
-.
.
. . ,
,
‘ .
.
G,
.-J
. . .
;,
, ._ .
o . •
rr nfl n NN rr fin
rr NM nfl
rr NM fin
rr rr
rr nfl nn
nfl nfl
rr nn
rr
NN
nfl rr
MN
NN Il TEFLON(rr)
SARANEX(rr)
NN
rr
nn rr
rr
NN nfl
rr
Amines, Aromatic
Pr/mary (145)
Aniline
RR r rr NM
TEFLON( rr)
NEOP+NAT RUB(rr)
NEOPRENE+SBR( n)
POLYURETHANE( r)
SARANEX( rr)
SBR( n)
NEOP/NAT RUB(NN)
SILVERSHIELD(rr)
SBR/NEOPRENE( n)
MN NN nfl NN RR NM NN rr
Dimethylanaline fi
Note: Numbers inparentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur 0. Little, Inc.
n
-------�
-I
rr
Q . d
C)
n
fl
n r
rr rr NN nfl
C )
4.
- . -S
-S —
.
/
4.
3d
c
• .J
‘. C,
-
4. 4.
‘
4 ’
0
*
.
. 4
Amines, Aromatic (cont.)
Secondary, Tertiary (Ui6)
Dicyclohexylamine
1—Piperazineethaneamine
o-Toluidine
Polyaminè (71i7)
Methyl Aniline
Phenylenediamine
Anhydrides, Carboxyl ic
Aliphatic (161)
Acetic Anhydride
Prop ionic Anhydride
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.)see Table 8.3.
Source: Arthur D. Little, Inc.
n
NN n
fi
fi
NN
‘4’
0
S .. . 4/
*
-.4
C.,
- .1
‘ S .
0
TEFLON( rr.)
TEFLON( rr)
-------�
Hylene
Cyan Ides
Cyan ides (215)
Hydrocyanic Acid
Potassium Cyanide
Sodium Cyanide, <30%
Sodium Cyanide, 30-70%
Esters, Carboxyl ic
Formates (221)
Ethylene Acetate
Ethyl Formate
-.4
03
Methyl Chloroformate
Methyl Formate
rr
r
r
n n
r n r R
nn
n
*
1
• .1 - i
I!
n
n R
POLYURETHANE( r)
SRR( n)
SBR/NEOPRENE( n)
n POLYLJRETHANE( n)
SBR( R)
SBR/NEOPRENE( r)
n
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
C)
-d
Q
c - I
. ..-
4. .
C.,.
-J
‘I
rr nn r
r
r
rr
NN
n
N
-------�
Esters, Carboxylic (cont.)
Acetates (222)
Amyl Acetate
Butyl Acetate
Butyl Cellosolve Acetate
2-Ethoxyethyl Acetate
Ethyl Acetate
Ethyl Acetoacetate
Glycerin .Triacetate
C)
.
Q .
4
-‘I
.‘,,
•.J
.
.-.
0
a
C.)
...
.,
-.
, .
. ,I
‘.
.
.
.-
.
‘I •
q q•
Note: Numbers in pa rentheses are chemical class codes -— see Table 81 and Appendix B.
For explanation of recommendation codes (e.g.. RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
Cj . A.
S. .
g .
C.,
A. £q
Q.
‘ .C_,
R n n nn , nn nfl NN rr nfl n n NEOP+NAT RUB( r)
NEOPRENE+SBR( n)
POLYURETHANE( n)
SBR( N)
SBR/NEOPRENE( n)
rr r NN NW nfl NN NW rr NW nfl TEFLON(rr)
NEOP+NAT RUB(NN)
NEOPRENE+SBR( n)
NAT+NEOP+NBR( r)
POLYIJRETHANE( r)
SBR( r)
NEOP/NAT RUB(NN)
.SILVERSHIELD( rr)
SBR/NEOPRENE( n)
NAT+NEOP+NBR( r)
n nn nn . . ,r NAT+NEOP+NBR( . r)
rr nn n NN NW nfl NW NW n nfl n n TE.FLON(rr)
NEOP+NAT RUB( r)
NEOPRENE+SBR( n)
POLVURETHANE( r)
SARANEX( nn)
SBR( N)
VIT/CLORBUTL(nn)
SI LVERSH I ELD( rr)
SBR/NEOPRENE( n)
r
r r
-------�
Esters, Carboxyl ic (cont. )
Acetates (222) (coAt.)
Isoamyl Acetate
Isopropyl Acetate
Methyl Acetate
Methyl Cel losolve Acetate
Methyl Chloroacetate
Propyl Acetate
Vinyl Acetate
Higher Monobasic (223)
Butyl Acrylate
Butyl Oleate
Butyl Stearate
I
a.
-J
/
‘
,$
- 4I
. a.
.1
w
. .
a. .
—
. .
NEOP+NAT RUB(NN)
HVPALON(nn)
NEOP/NAT RUB nn)
n
n POLYURETHANE( n)
SBR( n)
SBR/NEOPRENE( n)
NAT+NEOP+NBR( r)
SARANEX( rr)
fl NEOPRENE+SBR( n)
POLYURETHANE( n)
SBR( n)
SILVERSHIELD( rr)
SBR/NEOPRENE( n)
TEFLON( rr)
n TEFLON(rr) ’
r
r
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: ArthurD. Little, Inc.
‘C,
-J
‘I
NN MN NN ‘nfl MN NN
n
rr n NN r n n NN nn NN
rr ‘ n NM n ‘ n MN MN rr N n
n r fl
n
r
r
-------�
Esters, Carboxylic (cont.)
Higher MoriobasIc (223) (corit.)
Ethyl Acrylate
Ethyl Methacrylate
Isobutyl Acrylate
Isopropylmethacrylate
Methyl Acrylate
Methyl Methacrylate
Methyl Oleate
Propylmethacryla te
Polybasic (221,)
Oibenzyl Sebacate
Dibutyl Sebacate
Di-(2-Ethylhexyl )-Sebacate
Diethyl Oxalate
Diethyl Sebacate
Di isooctyl Sebacate
Tannic Acid
Tannic Acid, 30-70%
Tannic Acid, >70%
I
(4
nfl NN nfl NN
nfl nfl nfl
nfl
nfl
rr n NN
nfl n n NN
r
()
4.
4 1
..., -.1•
- . .-
, 1
U—. —
. . .
4.
‘ 3 1
(
0
• .1
..
4.
0
.
4.
•
/
—
.
,
0
C.,
‘I
NW rr NN NN rr TEFLON(rr)
SARANEX(rr)
VIT/CLORBUTL(nn)
rr NW
nfl rr
•nn rr
nfl rr
n n n NW RR
nfl nfl
r
r
r
r
r
r
R r R R rr R rr
rr rr rr
rr rr nfl
NN
NN
n TEFLON(rr)
NW n TEFLON(rr)
r
rr NW
r
n
r
r
r
r
rr r NEOPRENE+SBR( r)
POLVIJRETHANE( r)
SBR( R)
SBR/NEOPRENE( r)
rr
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,.R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
-------�
Esters, Carboxyl Ic (cont.
Aromatic Phtha/ates (226)
Bis(2—Ethylhexyl ) Phtha late
n—Butyl Phtha late
03
Q.
it
•.1
/
.4,
-I
S.
-d
C.,
.1
41
rr
r
rr
rr
RR
nn NN rr r
RR n r
NN rr NN rr RR
N rr
-J
ii ..
r NEOPRENE+SBR( n)
POLYURETHANE.( n)
SBR( r)
SILVERSHIELD( rr)
SI3R/NEOPRENE( r)
n r flfl NN nfl NEOP+NAT RUB( r)
Diisoctyl Phthalate
r
r
Dimethyl Phthalate
r
r
Di—n-octyl Phthalate
Di—Sec—Octyl Phthalate
r
r
Methyl Salicylate
fl
r
Esters, other than Carboxylic
Others (233)
Ethyl Silicate
Isobutyl Nitrite
Tetrabutyl Orthotitanate
In isooctyl Phosphate
r
r
r
nfl NN nfl
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur 0. Little, Inc.
r
r
r
-------�
Ethers
Aliphatic (2’ I1)
•
Butyl Cel losolve
r
UN
Butyl Cellosolve Acetate
Dibenzyl Ether
n
N
R
r
r
Dibutylether
2,2’—Dichloroethyl Ether
nn
rr
2—Ethoxyethyl Acetate
n
n
rr
n
Ethyl Cel losolve
Ethyl Ether
•
RR
NN
r
r
n
NW
NN
NN
NW
nfl
NN
UN
Isopropyl Ether
rr
n
UN
nn
rr
Methyl Cellosolve
rr
.
n
R
r
nfl
Methyl Cellosolve Acetate
.
.
Methyl Cellulose
n
r
r
4.
‘ .‘ ‘
-I -
• .. -. £ ,
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a
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0
4.
/
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.
,
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.
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rr rr
R
n
UN NN
NN RR nfl NN
rr nfl rr
R
r
n NAT+NEOP+NBR( r)
NAT+NEOP+NBR( r)
r POLYURETHANE( n)
SBR( n)
SBR/NEOPRENE( n)
fl
TEFLON(rr)
r NAT+NEOP+NBR( r.)
n NAT+NEOP+NBR( r)
n TEFLON(rr)
NEOP+NAT RUB( n)
NEOPRENE+SBR(. r)
POLYURETHANE( n)
SBR( R)
VIT/CLORBUTL(NN)
SILVERSHIELD(rr)
SBR/NEOPRENE( r)
n NEOP/NAT RUB(NN)
NEOP+NAT RUB(nn)
NAT+NEOP+NBR( r)
POLYURETI-$ANE( n)
SBR( n)
SBR/NEOPRENE( n)
POLYURETHANE( r)
Note: Numbers in parentheses are chemical class codes -- see Table 8. 1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur 0. Little, Inc.
‘4 ’
-d
‘4-
r
n
I )
-------�
Ethers (cont.
Aromatic (242)
1, 3-D ioxo lane
AIky/-Aryl (243)
Phenyl Ethyl Ether
Halogen Compounds
Aliphatic, Unsubsti’tuted (261)
Allyl Chloride
n-Butyl Chloride
Ca rbontet rab ron ide
Carbon Tetrachloride
03
I
-J
/
‘4 ,
-I
I
-J
-.1
‘4J .
q. q•
n
n
r rr
nn
r-.
N nfl r NN NN NN N NN RR
n
n
n
-J
‘I
n TEFLON(rr)
PV ACETATE(rr)
NN rr n TEFLON(rr)
.NEOP+NAT RUB(NN)
NEOPRENE+SBR( n)
POLYURETHANE( n)
SBR( N)
NEOP/NAT RUB(NN)
PV ACETATE( rr)
SILVERSHIELD( rr)
SBR/NEOPRENE( n)
2-Chloro—1,3-butadiene
r NN
NN rr
NN
Chlorodibrornornethane
nn
nn
NN
rr
Chlorododecane
r
n
Note: Numbers in parentheses are chemical class codes-- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
rr nn rr
-------�
Halogen Compounds (cont.)
Aliphatic, Unsubstituted (261) (cont.)
Ch 10 ro form
Di ch I orobromomethane
1 ,4-Dichloro-2-butene
Dichloroethane
cis-D ich 10 roe thy lene
1,2-Dichioroethylene
Ln
ti, 2-D I chlo roethylene
Dichioroethylene (all isomers)
Dichloropropane (all isomers)
Dichioropropane-Dich loropropene
2, 3-Dichloro-1-propene
1, 3—Dichloropropene
Ethyl Bromide
Q.
S.
‘4,
-I
#
-.
.
‘4,
a.
‘3 ’
c
(.1
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. .
a.
,
0
! >
-. .
.
NN NH
r n n n
-4
//
N NN r NN NH ii NN NN RR NN rr n TEFLON(rr)
NEOP+NAT RUB(NN)
NEOPRENE+SBR( n)
POLYURETHANE( r)
SARAN EX(NN)
SBR( N)
VIT/CLORBIJTL( rr)
NEOP/NAT RUB(NN)
SI LVERSH I ELD( NN)
SBR/NEOPRENE( n)
nn NH rr V ITON/BUTVL(rr)
nfl NH NN rr NN RR SARANEX(rr)
n n TEFLON(rr)
fin NN NN rr
nfl NN nfl
NN rr NN rr
n fi
fin
nfl
fin
NN
NN
rr NN rr
rr NN rr
rr NH nfl
TEFLON(RR)
TEFLON( rr)
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix 8.
For explanation of recommendation codes (e.g. RR,R.,NN, etc.) see Table 8.3.
Source: Arthur 0. Little, Inc.
-------�
Halogen Compounds (cont.)
Aliphatic, Unsubstituted (261) (cont,)
Ethylene Dibromide
Ethylene Dichioride
Ethyl idene Dichloride
Freon 11
Freon 12
Freon 21
Freon 22
0,
0 ’
Freon 112
Freon 1114B2
Freon IF
Freon TMC
I-la lothane
Hexach 10 rocyc lopentad I ene
Isopropyl Chloride
no nn rr NN NN
nn nfl r NH NN
nn
n r n R
r n R
n n
r r
r
r
n r NH RR no RR
rr rr NN NN
nn
nn
r
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NH NN RR NN no NH TEFLON(RR)
SARANEX(NN)
n NH NN nn NH rr n TEFLON(nn)
NEOP+NAT RUB(NN)
POLYURETHANE( no)
NEOP/NAT RUB(NN)
SILVERSHIELD( rr)
rr NN nn
fl n r n SBR(n)
r n r SBR(n)
o n SBR( n)
o n SBR( n)
n
n
NN nn NN r NEOP+NAT RUB(NN)
NEOP/NAT RUB(nn)
NH rr rr CHLOROBUTYL(rr)
TEFLON(nn)
rr NN on
nn rr rr
r
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
c 4I
-------�
Halogen Compounds (cont.)
Aliphatic, llnsubstituted (261) (cront.)
Methyl Bromide n
Methyl Chloride n
N r
4.
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4.4 ;
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Methyl Chloroform
NN
n
r
NN
NN
NN
NN
NN
RR
MN
rr
n
Methylene Bromide
n
n
n
n
NN
rr
n
Methylene Chloride
.
NN
on
r
MN
NM
nn
NN
NN
on
NM
no
n
Methyl ‘Iodide
nn
NM
NM
MN
MN
rr
Propyl Chloride
Propylene Dichloride
on
‘
rr
MN
rr
Tetrachiorodifluoroethane
r
n
1,1,1,2-Tetrachioroethane
nn
rr
NN
rr
1,1,2,2-Tetrachioroethane
on
n
MN
MN
no
NN
rr
NN
rr
Note: Numbers in parentheses are chemical class codes -- see Table’8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur 0. Little, Inc.
-1
‘I’
SARANEX( rn
SBR( r)
NEOPRENE+SBR( n)
POLYURETHANE( n)
SBR( n)
SBR/NEOPRENE( n)
TEFLON( rr)
NEOP+NAT RUB(NN)
POLYURETHANE( NN)
NEOP/NAT RUB(NN)
SILVERSH IEL O(rr)
TEFLON( nfl)
NEOP+NAT RIJB(NN)
VI T/CLORBUTL( NN)
NEOP/NAT RUB(NN)
SILVERSFIIELD( rr)
NEOP+NAT RIJB(NN)
NEOP/NAT RUB(NN)
PVACETATE( rr)
TEFLON( rr)
NEOP+NAT RUB(NN)
-------�
Halogen Compounds (cont.)
Aliphatic, Unsubstituted (261) (cont.)
let ra ch 10 roe thy lene
Tetrafluoroethylene rr
1,1,2-Trichioroethane nn
Trichio roe thy lene
OD
1,2,3-Trichioropropane nn
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rr rr rr
NN NN NN NN nfl NN rr
NN nn NN NN NN NN NN NN NN nfl
nfl rr rr
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and.Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
C ,,
-5
‘S
n TEFLON(nn)
NEOP+NAT RIJI3(NN)
NEOPRENE+SBR( n)
POLYURETHANE( n)
SARANEX( NN)
SBR( N)
SI LVERSIl I ELD(rr)
SBR/NEOPRENE( n)
TEFLON( rr).
POLYURETIIANE( NN)
CHLOROBUTVL( r)
TEFLON RR)
N [ OP+NAT RUB(NN)
NEOPRENE+SBR( n)
POLYURET1-IANE( nn)
SARANEX( NN)
SBR( N)
NEOP/NAT RIJB(NN)
SILVERSHIELD( rr)
SBR/NEOPRENE( n)
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Halogen Compounds (cont.)
Aliphatic, Substituted (262)
2-Bromoethano I
1 -Brorno-2-propanol
3-Bromo-1 -propanol
Ch I oroacetone
Chloráacetonitri le
3-Gb Ioro-2-methylpropene
1-Ch Jo ro-2-p ropa no I
3-Ch loro-1-propanol
1,2—Dibromo-3-chloropropane
Dichloroacetyl Chloride
2,2’-Dichloroethyl Ether
Epichiorohydrin
Ethylene Chiorohydrin
Trichioroaceta Idehyde
2,2, 2-Trichloroethanol
In? luo roe tha no I
rr UN
rr UN
rr rr
r n n R n
rr NN
nn
rr NN
rr
nn
n
nfl RR
nn n NN nfl
NN rr
rr rr
rr rr
N
rr
NN
r r
UN rr
NU rr
nfl NN rr
n
rr UN rr
nn UN UN nfl nfl
rr r rr rr
rr n
rr
rr NN rr
rr rr
NN RR MN
r POLYURETHANE( n)
SBR( n)
SBR/NEOPRENE( n)
TEFLON( rr)
TEFLON(RR)
POLYURETHANE( nfl)
SARANEX( nfl)
SARANEX(nn)
NEOP+NAT RUB(rr)
NEOP/NAT RUB( rr)
Note: Numbers in parentheses are chemical class codes.-- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
p
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0
a.
I.
C,
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Halogen Compounds (cont.)
Aromatic, Urisubstituted (263)
Benzyl Chloride
Bromobenzene
Bromoch loromethane
Ch 10 robe nzene
o-Chlorotoluene
p-Ch loroto I uene
.o Dichlorobenzer e
1 ,2-D,i ch 10 robenzene
1, 3-D i ch lorobenzene
F Iuo robenzene
1 ,2,t4-Tri hIorobenzene
Aromatic, Substituted ( 26’i)
Pentachlorophenol
d
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N n TEFLON(rr)
POLYURETHANE( n)
SBR( n)
SBR/NEOPRENE( n)
rr rr n
r
NN RR n TEFLON(rr)
NEOP+NAT RUB( n)
SBR( n)
rr
rr
n
nfl rr n
nfl rr
n
nfl
nfl
NN rr NN
rr NN rr
TEFLON(rr)
SARANEX( nfl)
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
n nn r N N n r
r nn
r
fin n r N NN n nfl NN nn
n n f l
r
r
NN NN rr
NN
-------�
(1
0
Halogen Compounds (cont.)
Polynuclear (265)
Chloronaphthalenes (all isomers)
Polychlorinated Biphenyls (PCB’s)
Vinyl I/a/ides (267)
Dimethylvinyich loride
Vinyl Chloride
Vinyl idene Fluoride
r N n
nn n NN rr
n rr
rr NN NN
n rr n rr r
NN rr n rr
NN rr NN rr
NN n rr
NN rr
SILVERSHIELD(RR)
TEFLON( rr)
SARANEX( RR)
SILVERSHIELD( rr)
Note: Numbers in parentheses are chemical class codes -— see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3..
Source: Arthur D. Little, Inc.
I
0
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Heterocycl ic Compounds
Nitrogen, pyridines (271)
Pyrid me
Nitrogen, Others (274)
Ethylen i mine
P i per i d i ne
Oxygen, Epoxy Compounds (275)
Allyl Glycidyl Ether
Epichlorohydrin
1 ,2—Epoxybutane
Ethylene Oxide
Phenyl Glycidyl Ether
Propylene Oxide
1,3-Propylene Oxide
Oxygen, Fura, Derivatives (277)
Fu ran
Tetrahydrot’uran
Oxygen, Others (278)
1,4-Dioxane
rr rr rr
nfl NN NN nfl nn
n NN
nfl nn
n n n NN
rr NN
rr NN nn n
n NN NN . n NN NN NN
NEOP/NAT RIJB(nn)
n TEFLON(rr)
Note: Numbers in parentheses are chemical class codes - - see Table 8.1 and Appendix B.
For explanation of ’ recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.’
Source: Arthur D. Little, Inc.
,& , ‘
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NN
rr
n
nn
nfl NN
n
rr
rr nn
RR
n’ NN nfl
nn
NN
- ‘I
‘I
NEOP+NAT RUB(NN)
NEOP/NAT RUB(nn)
NEOP/NAT RUB(rr)
TEFLON( RR)
POLYURETHANE(nn)
SARNEX( nn)
r r
rr
rr
rr
n
NN
nfl
NN
nn
fl
rr
NN
NN
n n
nn
n NN
NN
RR r
NN NN n NN NN n NN NN
TEFLON( rn
NEOP+NAT RUB(NN)
SARANEX( NN)
VI T/CLORBIJTL( NN)
NEOP/NAT RUB(NN)
TEFLON( rr)
NEOP+NAT RUB(nn)
SARANEX(nn) ,
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Hyd raz i nes
Hydrazines (280)
1, 1—Dimethylhydrazine
1 • 2-Dimethylhyd raz me
RR
nfl
n
NH
NH
NH
NH
NH
nfl
Hydrazine
rr
n
r
rr
rr
rr
n
Hydrazine, 30—70%
rr
rr
rr
rr
RR
rr
n
rr
Methylhydrazine
NN
nfl
nfl
rr
n
n CHLOROBUTYL(rr)
TEFLON(nn)
NEOP/NAT RUB(NN)
n
CHLOROBUTYL( rr)
TEFLON(nn)
SILVERSHIELD( rr)
CHLOROBUTYL( rr)
CR 39(rr)
TEFLON(NN)
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation cf recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
‘I
-4 ‘.1
— — ‘ 1
* * Q.
-.1
0
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q.
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Hyd roca rbons
Aliphatic and Alicyclic (291)
Butad i ene
Butane
Butene
Butylene
Cyc I ohexa ne
Decahydronaphtha lene
Deca ne
.4 - Diiscibutylene
Di pen tene
Ethane
Ethyl Silicate
Ga so I i ne
rr NN. nn
n
q.
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a. a.
1
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N R r n N r
n r
r r
r n
r
N r r NN NN n RR NN nn NN
n r
r
r
r
r
r
nn r rr N rr NN
rr r
RR n
n
n
n
n
r
rr NN rr NN r nn
-.1
.5
Ii
NEOPRENE+SBR( r)
POLVLJRETHANE( R)
SBR( ii)
SBR/NEOPRENE( n)
SBR( r)
TEFLON( rr)
NEOP+NAT RUB(NN)
NEOPRENE+SBR( n)
POLVURETHANE( n)
SBR( n)
NEOP+NAT RUB(NN)
NEOPRENE+SBR( n)
POLYURETHANE( R)
SBR( n)
SBR/NEOPRENE( n)
Note: Numbers in parentheses are chemical class codes-- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN; etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
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.
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Hydrocarbons (cont.)
Aliphatic and Al/cyclic (cont.) (291)
Heptane
Hexane NN
1-Hexene
b-lonone rr
I sobutylene
I sooctane
Isoprene
JP-4, Jet Fuel
Kerosene
Methane
Methyl Cyclopentane
UN nfl rr RR rr NN
rr UN NN NN NN UN RR NN
r
rr
rr
n r r NN UN
nfl
n
nfl NN nfl
nfl
rr
RR
fl
nfl UN r n
rr
rr
n r
NEOP/NAT RUB(NN)
TEFLON(rr)
NEOPRENE+SBR( n)
POLYURETHANE( R)
SBR( N)
VIT/CLORBUTL( rr)
SILVERSHIELD(rr)
SBR/NEOPRENE( n)
r nfl N rr .rr. nfl rr fin r n NEOP+NAT RUB(nn)
NEOPRENE+SBR( n)
POLYURETHANE( r)
SBR( n)
SBR/NEOPRENE( n)
rr
n
Mineral Spirits
N rr NN rr NN
rr NN
NEOP+NAT RUB(nn)
SARAN EX(NN)
SBR( r)
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table8.3.
Source: Arthur 0. Little, Inc.
(I
S.,
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, g’ ‘I
a.
o ‘ a. -J a.
£4 , £4 1 0 -.1
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Hydrocarbons (cont.
Aliphatic and Al/cyclic (cant.) (291)
Naphtha, V.M.& P N rr r N. nfl NN rr NN rr UN r n NEOP+NAT RUB(NN)
NEOPRENE+SBR( n)
POLYURETHANE( R)
SBR( n)
SBR/NEOPRENE( n)
Octadecane r n
n-Octane r nfl rr rr rr nn n NEOP+NAT RUB( n)
Pentane n UN NN NN NN UN nn NN RR NEOP+NAT RUB(NN)
NEOP/NAT RUB(NN)
SILVERSH IELD(rr)
Pentene r n SBR( r)
Pinene Call isomers) r fl
Propane N N R R n rr r r NEOPRENE+SBR( n)
POLYLJRETHANE( R)
SBR( n)
SBR/NEOPRENE( n)
2,2,t4 —Trimethylpentane r n
2,4,14—Trimethyl-1-pefltefle r fl
Turpentine N r r N N N nfl nn rr N r n TEFLON(rr)
NEOP+NAT RUB(NN)
NEOPRENE+SBR( n)
POLYURETHANE( r)
SBR( n)
SBR/NEOPRENE( n)
f4-Vinyl-1-cyclohexane nfl nfl nfl rr
•Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur 0. Little, Inc.
-------�
Hydrocarbons (cont.)
Aromatic (292)
RR
nfl
rr
nfl rr
£4J.
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NH
nfl
rr
NH
NN NN NH NN tIN
NH
nfl
rr
p-tert-Butyl Toluene
3-Ch loro-2—methylpropene
m-Cresol
:
.
Cresols
n
r
r
Cumene
rr
r
Cymene
r
Diethyl Benzene
r
Diisopropyl Benzene (all
isomers)
r
•
Divinyl Benzene
RR
RR
Ethyl Benzene
n
Gasoline
nfl
r
rr
N
rr N
N rr N
N rr
NH
r
nfl
rr
rr
NN
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—
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‘3 ,
1. -J
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EVA(NN)
TEFLON(NN)
NEOP+NAT RUB(NN)
NEOPRENE+SBR( n)
POLYURETIIANE( NH)
NONWOVEN. PE(NN)
SARANEX( NN)
SBR( N)
NEOP/NAT RUB(NN)
PV ACETATE(rr)
SILVERSHIELD( rr)
SBR/NEOPRENE( n)
SILVERSHIELD( rr)
TEFLON( rr)
NEOP+NAT RUB(nn)
NEOP/NAT RUB(rr)
n SARANEX(rr)
n
n
n
fl
SILVERSHIELD( rr)
n TEFLON( rr)
NEOP+NAT RUB(NN)
NEOPRENE+SBR( n)
POLYURETHANE( R)
SBR( n)
SBR/NEOPRENE( n)
Note: Numbers in parentheses arechemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
r n
RR
NH rr
rr rr NH
nn n
rr rr
nn
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Kerosene
d-L i monene
Natural Gas, Liquified
Ni t robe nzene
Styrene
1,2,3,4-Tetrahydronaphtha lene
10$ uene
- 1
. a.
Ca.
n
n r nfl N rr rr nn rr nn r., .n NEOP+NAT RUB(nn)
NEOPRENE+SBR( n)
POLVURETHANE( r)
SBR( n)
SBR/NEOPRENE( n)
rr r rr rr rr n
r n
N RR NN NN n NN RR N RR TEFLON(rr)
NEOP+NAT RUB( n)
NEOPRENE+SBR( r)
POLVURETHANE( n)
SBR( n)
VIT/CLORBUTL( rr)
SILVERSHIELD( rr)
SBR/NEOPRENE( n)
n rr r NN FIN NN NN NN rr NN r n TEFLON(rr)
SARANEX( nfl)
VIT/CLORBUTL( rr)
r
NN r rr NN FIN nfl NN NN NN NN nfl
Hydrocarbons (cont.)
Aromatic (cant.) (292)
JP—4, Jet Fuel
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur 0. Little, Inc.
TEFLON( rr)
NEOP+NAT RUB( n)
POLYURETHANE( r)..
SARANEX(NN)
SBR( N)
VIT/CLOR8UTL( rr)
NEOP/NAT RIJB(NN)
SI LVERSH I ELD( rr)
SBR/NEOPRENE( n)
-------�
Hydrocarbons (cont.)
Aromatic (cont.) (292)
Xylene
,
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n TEFLON(rr)
NEOP+NAT RUB(NN)
SBR( n)
NEOP/NAT RUB(NN)
m-Xylene
NN
nn nn
rr
RR
o-Xylene
nfl nn
nfl
rr
•
rr
p—Xylene
nfl
nn
. rr
NN
rr
Note: Numbers in parentheses are chemical class codes -- see Table 8.1. and Appendix B.
For explanation of recommendation codes (e.g. RR,H,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc. S
C -)
n n r NN NN NN NN NN RR NN rr
-J
‘I
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Hyd roxyl Compounds
Aliphatic & Alicyc/ic, Primary (311)
Allyl Alcohol
Amyl Alcohol
Butyl Alcohol
n—Butyl Carbitol
Butyl Cellosolve
,—
Carbitol
Diacetiri
0 lethy lam I noethanol
Ethanol, 30-70%
Ethanol, >70%
Ethanol amine
RR rr rr
rr
R r
rr
RR
‘I
/
C,
‘ .1 (
TEFLON( rr)
SARANEX( rr)
NEOPRENE+SBR( A)
POLVURETHANE( A)
SBR( K)
SBR/NEOPRENE( A)
TEFLON( rr)
NEOP+NAT RUB(nn)
NEOPRENE+SBR( n)
POLYURETHANE( r)
SBR( n)
SBR/NEOPRENE( n)
n NAT+NEOP+NBR( r)
rr
rr
rr r n KR RR KR rr rr n KR ,n n NEOPRENE+SBR( n)
POLYURETHANE( n)
SBR( n)
SBR/NEOPRENE( n)
rr r NN NN NN NN NN n NAT+NEOP+NBR( R)
Note: Numbers in parentheses are chemical class codes -- see Table 8:1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur 0. Little, Inc.
Ethyl Cellosolve
rr nn NN rr rr
r NN AR NN nn nn rr
NN rr r
nn KR nn RR RR nfl no r
r r
r
NH
rr rr
r r
r r
no
rr
rr
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Hydroxyl Compounds (cont.
A/iphatic & A//cyclic, Primary (cont.) (311)
Ethyl Alcohol R
.
4.
Q
-.1 -J
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1
4.
31
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.
. .
0
—
. 4
NN NN nfl RR NM rr NN
r
C,
-.1
//
Ethylene Chlorohydrin
2-Ethyl-1-Hexano l
Glycols
Hexyl Alcoho.l
Isobutyl Alcohol
Methanol
r
r
r
rr
rr
rr rr
rr r nfl
rr rr rr NM NM nfl NN
rr rr n
rr rr
r
r
NN NN RR NM n NN rr r NEOP+NAT RIJB( r)
SBR( r)
nfl NN NN nfl rr TEFLON(rr)
NEOP+NAT RUB(NN)
NEOPRENE+SBR( r)
NAT+NEOP+NBR( r)
POLYURETHANE( r)
SARANEX( rr)
SBR( R)
VIT/CLORBUTL( rr)
NEOP/NAT RUB(NN)
PV ACETATE( rr)
SBR/NEOPRENE( r)
Methanol, <30%
Methanol, >70%
rr
rr
Note: Numbers in parentheses are chemical class codes see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
cZD
TEFLON( rr)
NEOP+NAT RUB(nn)
NEOPRENE+SBR( r)
POLYURETHANE( n)
SBR( n)
NEOP/NAT RUB(rr)
SBR/NEOPRENE( r)
-------�
-I
Hydroxyl Compounds (cont.
Aliphatic & AIicycIic Primary (cont.) (311)
Methyl Cellosolve rr
1 —Octanol
r
,0
*
d i j
-J -I
.- —
.- -.
* *
n R r nn
-I
• .1
4. 4.
4.4;
* S _ I
C )
-.. .
4. .
R
r
-I
‘I
NEOP+NAT RUB(nn)
NAT+NEOP+NBR( r)
POLYLJRETHANE( n)
S8R( n)
SBR/NEOPRENE( n)
Q
n-Octariol r
Propyl Alcohol r
2,2, 2-Trichloroethanol
Tnt’ luo roe tha no
Aliphatic & 4licyclic, Secondary (312)
Cumene
Cyci ohexano I
2—Furylmethanol
Isopropyl Alcohol
lsopropyl Chloride
Lactic Acid
r nn RR rr RR rr RR
r. nn RR MN RR NN n nfl
rr rr NN RR MN
r POLYURETHANE( n)
SBR( R)
SBR/NEOPRENE( r)
r r TEFLON(rr)
NEOPRENE+SBR( r)
POLYURETHANE( r)
SBR( r)
PV ACETATE( rr)
SBR/NEOPRENE( r)
SARANEX(nn)
NEOP+NAT RUB( rr)
NEOP/NAT RUB(rr)
rr r
n r r NN NN nfl RR rr RR rr RR r SILVERSHIELD(nr)
n r
rr rr r NM RR nfl RR MN nn r r CHLOROBUTVL( rr)
TEFLON(RR)
NEOP+NAT RUB(NN)
NAT+NEOP+NBR( r)
SBR( r)
NEOP/NAT RUB(nn)
r r
R r r R R R R R r .r
Note: Numbers in parentheses are chemical class codes -- see Table
For explanation of recommendation codes (e.g. RR,R,NN, etc.)
Source: Arthur D. Little, Inc.
8.1 and Appendix B.
see Table 8.3.
-------�
Hydroxyl Compounds (cont.!
Aliphatic & Al/cyclic, Tertiary (373)
Lactic Acid, <30%
Lactic Acid, >70%
tert—Butanol rr
Citric Acid r
Citric Acid, <30%
Diacetone Alcohol r
Terpineol
O Aliphatic & Al/cyclic, Polyols (314)
Diethylene Glycol
Di isopropy.l Ketone
Ethylene Glycol
Glycerol r
Phenolphthalein
Propylene Glycol
1
(5 ,
-I
NN
R
-J -I
—
r r
rr rr •rr rr rr rr rr
r NN rr
R. R R R
rr rr rr rr rr nfl rr
n r R r R
r
r
n
R r r RR rr RR RR RR rr nfl
r r R r R r
r
rr rr rr rr
rr
rr
RR
rr
r
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur 0. Little, Inc.
/
r
r
-J
‘I
NEOP+NAT RUB(
NEOPRENE+SBR(
P OLVURETHANE(
SBR(, l )’
SBR/NEOPRENE(
r POLYURETHANE( n)
SBR( r)
SBR/NEOPRENE( r)
r)
r)
R)
r)
fl
r
n
r r TEFLON(rr)
NEOP+NAT RIJB(RR)
NEOPRENE+SBR( n)
POLYURETHANE( r)
SBR( R)
NEOP/NAT RUB(rr)
SBR/NEOPRENE( r)
r NEOP+NAT RUB( r)
POLYURETHANE( n)
SBR( R)
SBR/NEOPRENE( r)
NEOP/NAT RUB(rr)
-------�
a.
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.
a.
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rr r r R r r
r
r
n r N rr r R
rr
nfl rr rr rr
n r r nn
r
rr rr
NN rr NN
R nfl NN rin n NN rr nfl
rr
RR NN fin NN rr
r. R R r R
‘4 ,
C -,
— .
a. . a
C.,
-.1
‘S
R rr r POLVURETHANE( n)
SBR( R)
SBR/NEOPRENE( r)
r
r
r rr r SBR( r)
rr
NN TEFLON(rr)
NEOP+NAT RIJB(nn)
NEOP/NAT RUB(rr)
fl n SARANEX( rr)
r
rr
NN n TEFLON(rr)
NEOP+NAT RUB(rr)
NAT+NEOP+NBR( r)
POLYIJRETHANE( r.)
SBR,( n)
NEOP/NAT RUB(rr)
SBR/NEOPRENE( r)
NN RR
n r r
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
Hydroxyl Compounds (cont.
Aromatic (316)
Benzyl Alcohol
Benzyl Benzoate
n-Butyl Benzoate
Creosote
Creosote, Wood
m-Cresol
Creso Is
Ethyl Benzoate
I- .
Nonylphenol
Pentachloropheno I
Phenol
Phenol, <30%
Phenol, >70%
Picric Acid
-------�
Inorganic Acids
Inorganic Acids (370)
Boric Acid
Chlorosulfonic Acid
Chromic Acid
Chronic Acid, <30%
Chromic Acid, 30-70%
Fluoroboric Acid
Fluorosilicic Acid
Hydrobromic Acid
Hydrobrornic Acid, 30-70%
Hydrochloric Acid
Hydrochloric Acid, <30%
rr
rr
-J
S
rr
n
rr
n r NN N RR
N rr RR r
‘4 ,
r rr
4.
-.1
.-
A. 4, 1.
4. A.
0
POLYURETHANE( n)
SBR( r)
SBR/NEOPRENE( r)
CHLOROBUTYL( rr)
TEFLON(nn)
NEOP+NAT RUB(rr)
NEOPRENE+SBR( n)
NAT+NEOP+NBR( r)
POLYCARBONAT( rr)
POLYURETHANE( n)
SARANEX( rr)
SBR( r)
NEOPRENE+PVC( rr)
SBR/NEOPRENE( n)
NEOP+NAT RUB(rr)
SBR( r)
NEOP/NAT RUB(rr)
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN,, etc.) see Table 8.3.
Source: Arthur 0. Little, Inc.
n n r n n nfl
r
r r
r r R r R
r r
nfl rr rr rr RR RR rr NN rr rr
r RR rr rr rr rr n rr r
n n SARANEX(rr)
NEOP+NAT RUB(rr)
r
-------�
I
Inorganic Acids (cont.)
Inorganic Acids (cont.)(3?O)
Hydrochloric Acid, 30-70% r
Hydrochloric Acid, >70%
Hydrofluoric \cid
Hydrofluoric Acid, <30%
Hydrof’Iuoric Acid, 30-70%
0
0 ’
Hydrofluoric Acid, >70%
Iodine Pentafluoride
Nitric Acid
r RR RR n RR nn
rr
nn r rr N N n n rr
r R r
r RR rr NN nn rr
rr
n
n rr rr n rr nfl n rr
‘I
-1
, ;
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,
0
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S.
0
n fin rr r NEOP+NAT RUB(rr)
SARANEX(rr)
NEOP/NAT RUB(RR)
S ILVERSHIELD(rr)
NEOP+NAT RUB( rr)
NEOP/NAT RUB( rr)
MN rr rr NEOPRENE+SBR( n)
POLYCARBONAT( rr)
POLYURETHANE( n)
SARANEX( rr)
SBR( n)
NEOPRENE+PVC( rr)
SBR/NEOPRENE( n)
NAT+NEOP+NBR( r)
r r NEOP+NAT RUB(RR)
SARANEX( nfl)
SBR( ‘r)
NEOP/NAT RUB(rr)
NEOP+NAT RUB(rr)
NEOP/NAT RUB( rr)
n
CHLOROBUTYL( rr’)
TEFLON(nn)
NEOP+NAT RUB( rr)
NAT+NEOP+NBR( r)
POLVURETHANE( n)
SARANEX( rr)
SBR( n)
SILVERSHIELD( rr)
NEOPRENE+PVC( rr)
SBR/NEOPRENE( n)
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur 0. Little, Inc. -
r
n nn
NM rr rr
-------�
Inorganic Acids (cont.)
Inorganic Acids (cont.) (370)
Nitric Acid, <30%
0
-d
I’
1
-4
—
* ‘4.
I
C)
—
4.
Nitric Acid, 30-70%
rr
n
nn
n
rr
r
Nitric Acid, >70%
n
n
on
n
NN
nfl
nn
n
NN
rr
Nitric Acid, Fuming Red
no
no
rr ‘ rr
rr
NN
NN
rr
Perch loric Acid
r
r
N
rr
rr
Perch loric Acid, 30—70%
n
rr
r
rr
n
rr
Phosphoric Acid
r
rr
rr
rr
rr
rr
n
rr
rr rr
C. ,
-4
NEbP+NAT RUB(rr)
NAT+NEOP+NBR( r)
SBR( r)
NEOP/NAT RUB(rr)
NEOP+NAT RUB(rr)
SARANEX( rr)
NEOP/NAT RtJB(rr)
SARANEX( rr)
SBR( r)
NEOP/NAT RUB(rr)
CHLOROBIJTYL( rr)
TEFL ON(nn)
NEOP/NAT RUB(rr)
SILVERSHIELD(nn)
rr r r NEOPRENE+SBR( n)
POLYURETHANE( n)
SBR( n)
SBR/NEOPRENE( n)
NE0PI NAT R1i ( r)
NEOPRENE+SBR( n)
NAT+NEOP+NBR( r)
POLYLJRETHANE( n)
SARANEX( rr)
SBR( r)
SBR/NEOPRENE( n)
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
‘For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table’ 8.3.
Source: Arthur D. Little, Inc.
-------�
.
‘I
-I
—
# ;
— l id
4.
-I
0
()
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C,
4. 4.
4
0
.
-
‘
. -.
Inorganic Acids (cont.)
Inorganic Acids (cont.)(370)
Phosphoric Acid, <30%
Phosphoric Acid, 30-70%
Phosphoric Acid, >70%
Phosphorus Oxychloride
0
cc ’
r r r
r
r r RR rr rr rr rr
r r
r
rr r
NN nfl
nn
NN
nn
Phosphorus Trichioride
r
Sulfuric Acid
n
RR
rr
N
rr
nfl
n
rr
NN
rr
rr
Sulfuric Acid, <30%
r
r
r
R
rr
R
RR
rr
r
Sulfuric Acid, 30—70%
r
rr
rr
rr
rr
rr
rr
r
Sulfuric Acid, >70%
r
r
n
n
nfl
N
RR
n NN
Sulfur Monochloride r
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
rr
r
n
NEOP+NAT RUB( rr)
NEOP/NAT RUB( rr)
NONWOVEN PE(NN)
SARANEX( nfl)
PV ACETATE(NN)
CHLOROBUTYL( rr)
TEFLON(nn)
NEOP+NAT RUB(rr)
NEOPRENE+SBR( n)
NAT+NEOP+NBR( n)
POLYURETHANE( n)
NONWOVEN PE(NN)
SARANEX( RR)
SBR( n)
VIT/CLORBUTL( rr)
SILVERSHIELD( rr)
NEOPRENE+PVC( rr)
SBR/NEOPRENE( n)
NEOP+NAT RUB( r)
NAT+NEOP+NBR( r)
NONWOVEN PE(nn)
SARANEX( rr)
SBR( r)
NEOP+NAT RLJB(rr)
NONWOVEN PE(NN)
SARANEX( rr)
NEOP/NAT RUB(rr)
TEFLON( rr)
NONWOVEN PE(NN)
SARANEX( rr)
SBR( r)
NEOP/NAT RUB(rr)
/.- -lii
4.
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.
Inorganic Bases
Inorganic Bases (380)
Ammonium Hydroxide
Aminonium Hydroxide, <30%
Ammonium Hydroxide, 30—70%
Calcium Hydroxide
Potassium Hydroxide r
Potassium Hydroxide, <30%
Potassium Hydroxide, 30-70%
I-
Sodium Hydroxide
Sodium Hydroxide, <30%
Sodium Hydroxide, 30-70%
R r rr rr NN rr NN n NN r
RR ‘RR RR NN rr
rr rr r rr NN R
r r
R R r R R n
r r
r r r RR RR RR RR rr n RR
n rr R R rr R rr rr
rr
rr r rr RR RR RR RR RR n RR RR rr
Note: Numbers in parentheses are ôhemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur 0. Little, lnc
‘A 41
4.
0
C..,
-.1
NEOP+NAT RUB(nn)
NEOPRENE+SBR( r)
POLYIJRETHANE( r)
SBR( R)
SBR/NEOPRENE( r)
NEOPRENE+SBR( r)
POLYURETI-IANL( n)
SBR( r)
SBR/NEOPRENE( r)
r NEOP+NAT RIJB(rr)
SBR( r)
POLYIJRETHANE( r)
SBR( r)
VIT/CLORBUTL( rr)
SILVERSHIELD( rr)
SBR/NEOPRENE( r)
NEOP+NAT RUB(rr)
TEFLON( rr)
NAT+NEOP+NBR( r)
NONWOVEN PE(NN)
SARANEX( RR)
SBR( r)
NEOP/NAT RUB(rr)
NEOPRENE+PVC( rr)
-------�
,
4, -d
.-
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4,
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5.
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n r
NN
n r rr n rr fl NN
n r r
rr r
nfl NN
r r n R r
r r
r r
n
nfl rr n
.5,
‘5 ’.
N.
‘4,
4.4;
.4 -
.5 .
4. .
rr rr SARANEX(rr)
R POLYURETHANE( 11)
SBR( r)
SBR/NEOPRENE( n)
r n r
•NN
rr n f l
nfl nfl
r n
r
r
r
fl
rr nn nn n CHLOROBtJTYL(rr)
TEFLON( NN)
CR 39(rr)
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur 0. Little, Inc.
Inorganic Gases
Inorganic Cases (350)
Ammonia
Bromine
Chlorine
F I uo r ne
Hydrocyanic Acid
Hydrogen Phosphide
Hydrogen Sulfide
Nickel Carbonyl
Nitric Oxide
Nitrogen Dioxide
Nitroger Tetroxide
-------�
Inorganic Salts
Inorganic Salts (31,0)
Ammonium Fluoride
Ammonium Fluoride, 30-70%
Ammonium Sulfate
Arsenic Trichloride
Bromine Trifluoride
Calcium Chloride
Calcium Hypochlorite
r
r
r
n
n
.
4.
1 L
* 1
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4..
4, .-
* *
l
-.1
—
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-S
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.
0
0
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w
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rr rr
R R .r r
R R r r
R R r r
rr rr
R
R
R
n
n
4 ,
*
* 5>
C) ‘
4. . 4
POLYURETHANE( R)
SBR( r)
SBR/NEOPRENE( r)
POLYURETHANE(
SBR( r)
SBR/NE OPRENE(
POLYtJRETHANE(
SBR( n)
SBR/NEOPRENE(
P OLYURETHANE(
POLYURETHANE(
SBR( r)
POLYURETHANE( r)
SBR( n)
SBR/NEOPRENE( n)
POLYURETHANE( r)
SBR( n)
SBR/NEOPRENE( n)
POLYURETHANE( r)
SBR( r)
SBR/NEOPRENE( r)
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g..RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
Copper Chloride
n
r
r
r
Copper Sulfate
n
R
r
R
Cupric Chloride
r
n
R
r
R
Cupric Sulfate
r
n
R
r
r
R
Ferric Chloride
r
r
R
r
R
C,
-I
‘I
NEOP+NAT RUB( r)
r)
r)
r).
ti)
r)
r)
-------�
cJ_ .
r
r r
r r
.
a.
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•.1 -.1
—
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r
r
r
n
r
rr
rr
rr
rr
rr
r
r
r
r
r
r
R
r
R
nn
NN
NN
rr
MN
RR
rr
MN
n
rr rr RR
nfl
RR
r
S . ,
//
Inorganic Salts (cont.)
Inorganic Salts (cont.)(340)
Potassium Dichromate r r R r R POLYURETHANE( ii)
SBR( r)
SBR/NEOPRENE( r)
Potassium Bromide
Potassium Chloride
Potassium Cyanide
Silver Nitrate
Sodium Chloride
Sodium Hypochlorite, 30-70%
Sodium Silicate
Sodium Sulfide
Sodium Thiosulfate
NJ
Stannous Chloride
Isocyanate (210)
Methyl Isocyanate
Toluene Di isocyanate
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur 0. Little, Inc.
I socyanates.
POLYURETIIANE( r)
SBR( r)
SBR/NEOPRENE( r)
TEFLON(RR)
SILVERSHIELD(RR)
-------�
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RR NN NN NN nn NN NN NN NN NN
rr n n nn
r n r R r
n n nn nn n rr NN rr
RR RR
n
nfl n
rr rr
r
1
‘I
TEFLON( rr)
NEOP+NAT RUB(NN)
NEOPRENE+SBR( n)
NAT+NEOP+NBR( r)
POLVURETHANE( r)
SARANEX( nn)
SBR( n)
VI T/CLORBLITL( nn)
NEOP/NAT R(JB(NN)
PV ACETATE( rr)
SILVERSHIELD( rr)
SBR/NEOPRENE( n)
rr n nfl n NEOP+NAT RUB(nn)
SILVERSHIELD( rr)
R r POLYURETHANE( fi)
SBR( r)
SBR/NEOPRENE( r)
RR S ILVERSH IELD(rr)
rr
rr nn
N
r
r VIT/CLORBUTL( rr)
n
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR ,R,NN, etc.) see Table 8.3.
Source: Arthur 0. Little, Inc.
a.
-.1
/
Ke tone s
Aliphatic & Al/cyclic (391)
Acetone
Cyc lohexanone
Diacetone Alcohol
Diisobutyl Ketone
Diisobutyl Ketone, >70%
I sophorone
Mesityl Oxide
L4-Methoxy-4-methyl-2-pentanone
Methyl n-Butyl Ketone
-------�
Ketones (cont.)
Aliphatic &Aliöyclic(cont.)(39/)
Methyl Ethyl Ketone
Methyl Isobutyl Ketone
Methyl-vinyl-ketone
N-Methyl-2-pyrrol idone
AI/cyl-AryI (393)
Acetbphenone
Lactones
Lactones (1100)
beta-Prop iolactone
/
0
-1
- .1
w
.- “ . . —
4. 4. 4.
RR nfl MN NN NN MN NN MN nn MN NM NN
MN n n NN •NN nfl NM NN rr nfl nfl
nfl
NN NM NN MN
n
rr nn nn nn MN nn nfl
C,
-.1•
Q
0
CHLOROBUTYL( rr)
TEFLON(nn)
NEOP+NAT RUB( MN)
NEOPRENE+SBR( n)
POLYURETI-IANE( r)
SARANEX( NM)
SBR( r)
VIT/CLORBUTL(nn)
NEOP/NAT RUB(NN)
SBR/NEOPREME( n)
n TEFLON(rr)
NEOP+NAT RUB( n)
SBR( r)
VIT/CLORBUTL( rr)
r TEFLON(rr)
POLYURETHAME( NM)
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
-------�
Miscellaneous
Miscellaneous (560)
Aspha I t
Mercury
Mineral Oil
4.
.J -.1
-S -S -4
-S • . 1
. . . .4. 4.
r
r r
C
I— .
I-s
Li ’
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation 7 f recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur 0. Little, Inc.
C,
0 -J
.5
-S
4. .
n
r r
n
C)
/
-------�
Nitri les
Aliphatic & AIicyc/ic (1j31)
Acetonitrile
Bromoacetonitri le
Chioroacetonitri le
Ethyl Cyanide
Isoamylnitrile
°.‘ Methacrylonitrile
Trichloroacetoni tn le
Va leronitni le
Aromatic (432)
Benzonitni le
Acrylonitri le
,... ‘I
C.,
RR rr nfl NN NN
n nfl N r n n NN
NN
NN
nfl NN
rr NN
rr rr
rr NN nfl
rr NN
nfl rr
rr
rr
‘4’
...d
..-
A2
S
.
£Q
iS’
.
C)
._/
.W
. . .-.
4. .4. -
q i
0
;
, .
.
4)
NN NN rr NN rr rr
N n
rr rr
rr rr
rr NN
rr rr
nfl NN
rr rr
rr
rr nn
‘C-,
-I
SW
-S
0
TEFLON( rr)
NEOP+NAT RUB( r)
SARANEX( rr)
VIT/CLORBUTL( rr)
SILVERSFIIELD( rr)
TEFLON(nn)
NEOPRENE+SBR( n)
POLYURETHANE( r)
SARANEX( nfl)
SBR( n)
SBR/NEOPRENE( n)
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc. S
4.
¼ .
-J
/
-------�
.
Q .
- -J
. ‘.
o
C.,
4
!
‘
Q .
,
1’
c
N
.‘-
o
Nitro Compounds
Unsubstituted (441)
Nit robenzene
rr
rr
NN
NN
n
NN
RR
N
RR
Nitroethane
rr
n
NN
nn
rr
Nitroglycerine
r
r
Nitromethane
rr
NN
rr
nfl
rr
UN
n
n
Nitropropane
RR
n
no
NN
UN
NN
NN
on
nn
1-Nitropropane
rr
•
no
rr
I-
-.j
2-Nitropropane
-
Nitrotoluene
rr
UN
nn
r
rr
r
o-Nitrotoluene
no
.
p-Nitrotoluene
rr
2,4,6-Trinitrotoluene
n
•
N
N
r
R
Substituted (442)
2-Chloro-2-nitropropane
rr
NN
rr
no
n-Nitrosodimethylamine
nn
:
Picric Acid
r
R
R
r.
R
n
r
r
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur 0. Little, Inc.
TEFLON( rr)
NEOP+NAT RtJB( n)
NEOPRENE+SBR( r)
POLYURETHANE( n)
SBR( n)
VIT/CLORBUTL( rr)
S ILVERSHIELD(rr)
SBR/NEOPRENE( n)
r NEOP+NAT RUB( r)
POLYURETIIANE( nn)
SILVERSH IELD(rr)
nn TEFLON(rr)
POLYLJRETHANE( n)
SBR( r)
SBR/NEOPRENE( r)
POLYCARBONAT( rr)
POLYURETHANE( n)
SBR( n)
SBR/NEOPRENE( n)
-.1
.4-.
4
-------�
rr rr rr
r
(1
r
r
rr r r nfl nn
r
C)
.
4.
1
‘.1 -J
— -.
,
-I
0
c
C)
Sd
‘ .
— 5-
* *
‘I
4.
•.
4.
rr
n
fl
r
r
rr n rr RR rr rr r NEOPRENE+SBR( n)
POLYIJR [ THANE( n)
SBR(. n)
SBR/NEOPRENE( r)
r
1 ;
IF
Organic Salts
Organic salts (.550)
Benzethonium Chloride
Organo-Metal I ic Compounds
Organo-Metallic Compounds (461)
Titanium Tetrachioride
Triethyl Aluminum
Trioctyl Phosphine
Organo-Phosphorous Compounds
• Organo-Phosphorous Compounds (460)
Tributyl Phosphate
Tricresyl Phosphate
I- ’
Triisooctyl Phosphate
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and Appendix B.
For explanation of’ recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
-------�
Perox ides
.
41 -, -
-. —
‘4 1
.
41
q
.d
,
.-‘
:
.
Perox ides (300)
a lpha,alpha-Dimethylbenzyl Hydroperoxide
.
Hydrogen Peroxide nn
rr
r
r
R
r
n
Hydrogen Peroxide, <30%
Hydrogen Peroxide, 30-70%
RR
NN
rr
rr
n rr
Hydrogen Peroxide, >70%
r
Methyl Ethyl Ketone Peroxide rr
nn
rr
Quinones
-. 4
‘ O
Quinones (490)
Hydroquinone n
R
R
rr
r
rr
n rr
Hydroquinone, <30%
rr
rr
rr
rr
‘I
4
. _i
(1
— .
. .
-1
‘I
TEFLON( rr)
nn r r TEFLON(rin)
NEOP+NAT RUB( r)
NEOPRENE+SBR( r)
POLYURETHANE( r)
SBR( r)
SBR/NEOPRENE( r)
CHLOROBUTYL( rr)
NAT+NEOP+NBR( r)
NEOP+NAT RUB( rr)
POLYURETHANE( r)
SBR( r)
NEOP/NAT RIJB(rr)
n
rr
r SBR( r)
Note: Numbers in parentheses are chemical class codes -1— see. Table 8.1 and Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Source: Arthur D. Little, Inc.
-------�
.4-. ‘4I
0
nfl
NN NN
SI
‘ 41
-J 0
—
w
— ‘41 .
n
n
r
rr
r
N N fi NN NN RR N RR
rr RR RR rr nn rr NN
rr rr
rr rr rr
r
n
fl
n
r
n
I
0
Sulfur’ Compounds
Thiols (501)
tert-Butyl Mercaptan
Ethyl Mercaptan
Thionyl Chloride
Th iophenol
Sulffcles& Oisu/f’ides (502)
Calcium Bisulfate, 30-70%
Carbon Disulfide
SuIf’oxides (503)
Dimethyl Sulfoxide
0
Sulfonic Acids (504)
Methanesulf’onic Acid
p-Toluenesulfonic Acid
Others (507)
DisulfurDichioride
Note: Numbers in parentheses are chemical class codes -- see Table 8.1 and’ Appendix B.
For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3. ‘0
Source: Arthur 0. Little, Inc.
TEFLOt’l(nn)
NEOP+NAT RUB(NN)
POLYURETHANE( n)
SBR( N)
VI T/CLORBUTL( NN)
SBR/NEOPRENE( n)
,VIT/CLORBUTL( rr)
NEOP/NAT RUB(rr)
0
-------�
MATRIX B
RECOMMENDATIONS BY CHEMICAL CLASS
121
-------�
Acids, Carboxylic, Aliphatic
Unsubst I tuted
Pa lybas Ic
Al dehydes
Am ides
Aliphatic and Alicyclic
Aromatic and Hetrocyci ic
-J
.4-
. c?
.
—
,
.&
-
, .
s ...
c
-.1
•*
t
Q
0
\ ‘
-.1
.-
*
-.
1
•
S.
** rr ** rr NN
rr rr rr rr
RR NN r ** NN
rr n nfl nfl
** ** ** p
n rr
nn NN ** NN NN **
fl nn NN rr N
r
r
Cyan ides
Am ides
Amines, Aliphatic &Alicyclic
Primary
Secondary
Tertiary
Pot yam me
Cyan ides
Esters, Carboxyl ic
10 rma te S
Aceta tes
Higher Monobasic
Potybas Ic
Aromatic Phthalates
Ethers
Al iphatic
nfl nn nn
rr nn ** **
** ** NN ** n
** ** ** ** rr
nfl NN rr
n
nn nn NN
nfl nn
r **
** **
** ** **
NN
NN
** NN
rr NN
rr
nfl
** **
fl
n **
**
r
rr r
**
Note: For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Class recommendations only for chemicals classes in which two or more chemicals have
recommendations for a given material. Double asterisks (**) indicate a wide variation in ratings.
Source: Arthur D. Little, Inc.
R r r
Si
‘I
nfl
**
rr ** nfl
** ** n NN **
** n NN
** ** **
** NN **
** ** n NN
fin nfl ** NN
r r
rr r **
r
n
** rr ** NN
-------�
•
.
.
¼ .
..-.
0
â
-I
.- ...
0
-I
w
... .,-
.
41
I
o
4. .
Halogen Compounds
Al iphatic, Unsubstituted
Aliphatic, Substituted
Aromatic, Unsubstituted
Pal ynuc lear
Vinyl Halides
Heterocyci ic Compounds
Epoxy Compounds
Furan Derivatives
Hyd raz i nes
Hyd raz i nes
Hyd roca rbons
Aliphatic &Alicyclic
Aromatic
Hydroxyl Compounds
Aliphatic & Alicyclic,
Al iphat I C & Al icyclic,
Al iphat ic & Al icyc I ic,
Aliphatic & Alicyclic,
Aromatic
Primary
Secondary
Te rt i a ry
Pa lyo Is
no nfl r NN
** NN
nfl nfl r N
NN •nn
NN
rr
NN NN
nfl
n nn NN
NN ** NN
** NN
N
**
rr
rr
rr
n rr
**
nn
no
NN
3I
no
NN
nn
nn
NN
nn
n
nn
n
**
nn
*
fl
N
r
r
NN
**
**
**
*
NN
RR
n
rr
r
NN
NN
NN
**
NN
NN
RR
RR
rr
r
r
**
rr rr no
rr r **
** nfl
** **
rr
rr rr rr
** rr rr rr rr
r ** **
** ** ** ** rr **
rr ** rr r
**
**
** flfl ** rr r
Inorganic Acids
Inorganic Acids
** ** rr **
** ** ** **
n. ** rr **
Note: For explanation of’ recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Class recommendations only for chemicals classes in which two or more chemicals have
recommendations for a given material. Double asterisks (**) indicate awide variation in ratings.
Source: Arthur D. Little, Inc.
-1
-y
‘S
n
n
-------�
C.,
.
.
‘ ‘I
-J ‘.1
.
...I
0
c
Cj
-S -.
,
-S —
. *
a.
S _ I
C
.
a. •a.
r
r
RR
RR
**
RR
**
n
**
rr
r
‘
r
n
n
r
*4+
**
**
*4+
r
n
r
r
r
R
•
NN
n
rr
*
NN
n
NN
NN
N
**
NN
*
NN
NN
rr
NN
NN
rr
NN
rr
rr
r
NN
*4+
*4+
*4+
*4+
r
*4+
I.,
A.
Inorganic Bases
Inorganic Bases
Inorganic Gases
Inorganic Gases
Inorganic Salts
Inorganic Salts
Isocyanates
I socyanates
Ketones, Al iphatic
l(etones, Al iphatic
Nitriles, Aliphatic
Nitriles, Aliphatic
Nitro Compounds
tJnsubst i tuted
Organo—Phosphorous Compounds
Orgno-Phosphorous Compounds
Peroxides
Perox ides
Sulfur Compounds
Th 101 5
Note: For explanation of recommendation codes (e.g. RR,R,NN, etc.) see Table 8.3.
Class recommendations only for chemicals classes in which two or more chemicals have
recommendations fora givenmaterial. Doubleasterisks (*4+) indicateawidevariatiOfi in ratings.
Source: Arthur D. Little, Inc.
r
r
n
-------�
APPENDIX A
GLOSSARY
A-i
-------�
GLOSSARY
-- Polymer.of acrylonitrile, butadiene, and styrene; a strong,
rigid material used for structural components.
Acetate - - Polymer of’ cellulose acetate; a clear, relatively inexpen-
sive material used for face and eye protection.
Acrylic -- Polymer of methyl methacrylate; clear plastic used for face
and eye protection.
Baypren -- See Neoprene.
Blend -- An intimate mixture of two or more materials.
Breakthrough Time - - The time elapsed between initial contact of a
chemical with the outside surface of a protective clothing material and
the time at which the chemical can be detected at the inside surface of
the material.. Measured breakthrough times are dependent on the sensi-
tivity of the analytical methods used to detect the chemical and the
experimental procedures.
Butyl Rubber - - Copolymer of isobutylene and a small amount. of
isoprene. Material has good resistance to weathering and a wide
variety of chemicals. Both supported and unsupported forms of butyl
rubber are used as protective clothing.
Cellulose Propionate - - Polymer; clear plastic used for face and eye
protection.
Chlorinated Polyethylene - - CPE, Chloropel . A polyethylene elastomer
with a chlorine content of 36% to 45%. The material generally has
better chemical resistance and physical properties than polyethylene.
Chiorobutyl Rubber - - A chlorinated form of butyl rubber. Generally
has better heat than butyl rubber.
‘ Chioroprene Rubber - - See Neoprene.
Chiorosuiphonated Polyethylene - - See Hypalon .
Contamination - - The presence of potentially harmful chemicals on the
surface of or within the polymer of CPC.
Copolymer - A long chain molecule synthesized by reaction of more than
one monomer species with each other. Copolymérs often have cost and/or
performance advantages over polymers produced from a single monomer
species.
A- 2
-------�
CPE - - See Chlorinated Polyethylene.
CR-39 -- Polymer of allyldiglycol carbonate. A clear, impact resis-
tant plastic used for face and eye protection.
Decontamination - - The removal of potentially harmful chemicals from
the surface of and from within the polymer of CPC. Note surface
decontamination does not necessarily remove absorbed chemical.
Degradation - - The loss in physical properties of an item of protective
clothing due to exposure to chemicals, use, or ambient conditions
(e.g., sunlight).
Ethylene Vinyl Alcohol - See EVOH.
EVALN - - See EVOH.
EVOH -- Polymer of ethylene vinyl alcohol. This polymer exhibits a
high resistance to non-polar organic compounds. However since it is
susceptible to attack by acids, bases and water, it is used as an
internal layer in laminates. S
FEP -- Polymer of fluorinated ethylene propylene. Polymer with
exceptionally good chemical resistance with protective clothing appli-
•cations in both film and coating form.
Flock-lined or Flocked -- A layer Of fibers, typically cotton, adhered
to the inside of rubber gloves. The lining absorbs perspiration and
provides some insulating effect.
Gore TexN Fabric - - A proprietary fabric in which microporous PTFE is
laminated on one or both sides with a fabric. The fabric allows the
transmittance of moisture vapor which reduces heat stress. It prevents
penetration by many liquids and solids but does not provide vapor
protection.
Hypalon - - - Polymer produced by the post chlorination and sulfonation
of polyethylene, thereby producing a rubbery material suitable for CPC.
Laminated -- Joining two or more sheets or fabrics together by means of
ieat or adhesive.
Latex - - A stable dispersion of polymer or rubber particles in water.
Latex gloves and coated fabrics are prepared by coagulating and cross-
linking the particles Son a form or cloth substrate. Most natural
rubber, neoprene, and nitrile gloves are prepared from. latices. -
Latex-Dipped - - A glove prepared by dipping a glove form or a fabric
glove into a rubber latex bath. In one dip, the entire amount of
rubber that will form the glove is deposited.
A- 3
-------�
Natural Rubber -- Polyisoprene obtained from rubber plants. A highly
flexible and conforming material used principally for gloves. High
elasticity.
Neotrene - - Polychloroprene. A synthetic rubber having chemical and
wear resistance properties that are generally superior to those of
natural rubber.
NBR (Nitrile-Butadiene Rubber ) - - See Nitrile Rubber.
Nitrile Rubber -- Copolymer of acrylonitrile and butadiene. Also known
as acrylonitrile rubber, acrylonitrile-butadiene rubber, Buna-N, and
nitrile-butadiene rubber (NBR). Trademark names include Hycar ,
Kyrnac tm , and ParacrilN. Used for supported and unsupported gloves and
coated fabric. Nitrile rubbers are available in a wide range of
acrylonitrile concentrations. In general, the higher the acrylonitrile
concentration the better the chemical resistance. However, stiffness
also increases at higher acrylonitrile concentrations.
- - See Polyethylene.
Penetration -- The movement of chemical through zippers, stitched seams
or imperfections (e.g., pinholes) in a protective clothing material.
Permeation - - The process by which a chemical dissolves in and moves
through a protective clothing material on a molecular level.
Permeation Rate - - The rate at which the chemical moves through the
clothing material. This is expressed in terms of amount per unit area
per unit time.
‘ Polycarbonate -- A hard, transparent plastic used for face and: eye
protection. It has, exceptional impact resistance and good chemical
resistance, and is commonly used as the lens of safety glasses.
Polyester -- A family of polymers that finds application in fiber form
as clothing and in film form as a clear material for face and eye
protection.
Polyethylene - - A fairly chemically resistant material that is used as
a freestanding film (e.g., apron) or a fabric coating. Low density
polyethylene is the most common form used in protective clothing.
Polyurethane -- An extensive and multi-branched family’ of polymers
based on isocyanates. As used in protective clothing, polyurethanes
are rubbery polymers that are either coated onto fabrics or formed into
boots.
A- 4
-------�
• Polyvinyl Alcohol - - A water-soluble polymer that, as long as it is
dry, exhibits exceptional resistance to many organic solvents that
rapidly permeate most rubbers. The material is somewhat stiff, thus
limiting dexterity.
PU - - See Polyurethane.
- - See Polyvinyl Alcohol.
- - See Polyvinyl Chloride.
PVDC -- Polymer of polyvinylidene chloride.
Polyvinyl Chloride -- A stiff polymer that is made suitable for protec-
tive clothing applications by the addition of plasticizers. Used as a
freestanding material for gloves, aprons, etc., as well as coatings for
fabrics. Clear forms are also available as flexible face shields.
Safeguard CPF -- A proprietary non-woven fabric for limited use (i.e.,
disposable) clothing.
Saran - - See PVDC.
Saranex® - - Multi-layer laminate of polyethylene and Saran .
Solvent-DilDed - - A glove prepared by repeatedly dipping a glove form
or glove substrate into a solution of the rubber in a solvent. The
rubber is subsequently cured.
Sontara® -. Proprietary spun-laced, limited use fabric.
SBR (Styrene-Butadiene Rubber ) -- Also known as Buna-S. Trademark
names include Solprene , Plioflex tm , and Stereon . Used for fabric
coatings and boots.
SupDorted - - Materials containing a substrate such as cotton, polyester
or nylon fabric or scrim which is coated, laminated or impregnated with
a polymer or rubber.
TFE (PTFE ) - - Polytetrafluoroethylene. An example is Teflon®.
Tyvek® - - A proprietary, porous non-woven fabric limited use (e.g.,
disposable) clothing.’ Tyvek® may be coated with polyethylene or
Saranex film.
Viton® - - A proprietary fluoroelastomer. Highly chemically resistant,
but expensive synthetic elastonier.
A-S
-------�
APPENDIX B
CHEMICAL INDEX
B—i
-------�
CHEMICAL NAMES AND SYNONYMS
NAME:
Acetaldehyde
CASNO:
00075070
SYN:
•
.
CLASS:
121
NAME:
Acetainide
CASNO:
00060355
SYN:
CLASS:
132
NAME:
Acetic Acid
CASNO:
00064197
SYN:
CLASS:
102
NAME:
Acetic Acid, <30%
CASNO:
00064197
SYN:
.
CLASS:
102
NAME:
Acetic Acid, 30-70%
.
CASNO:
00064197
SYN:
.
CLASS:
102
NAME:
Acetic Acid, >70%
•
CASNO:
00064197
SYN:
CLASS:
102
NAME:
Acetic Anhydride
CASNO:
00108247
SYN:
CLASS:
161
NAME:
Acetone
.
CASNO:
00067641
SYN:
•
CLASS:
391
NAME:
Acetone Cyanohydrin
CASNO:.
SYN:
(See 2-Methylactonitrile)
CLASS:
NAME:
Acetonitrile
CASNO:
00075058
SYN:
CLASS:
431
NAME:
Acetophenone
CASNO:
00098862
SYN:
.
CLASS:
393
NAME:
Acetyl Bromide
CASNO:
0050696.7
SYN:
CLASS:
111
:
NAME:
‘Acetyl Chloride
CASNO:
00075365
SYN:
CLASS:
111
NAME:
Acetylene.
CASNO:
00074862
SYN:
CLASS:
291
B— 2
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Acrolein CASNO: 00107028
SYN: CLASS: 121
NAME: Acrylamide CASNO: 00079061
SYN: Propenearnide, 2 CLASS: 132
NAME: Acrylic Acid CASNO: 00079107
SYN: CLASS: 102
NAME: Acrylonitrile CASNO: 00107131
SYN; CLASS: 431
NAME: Adipic Acid CASNO: 00124049
SYN: Hexanedioic Acid CLASS: 104
NAME: Alkazene CASNO: 00093527
SYN: Dibromoethylbenzene CLASS: 262
NAME: Allyl Alcohol CASNO: 00107186
SYN: CLASS: 311
NAME: Allylamine CASNO: 00107119
SYN: CLASS: 141
NAME: Allyl Chloride CASNO: 00107051
SYN: CLASS: 261
NAME: Allyl Clycidyl Ether CASNO: 00106923
SYN: CLASS: 275
NAME: Aluminum Acetate CASNO: 08006131
SYN: Burow’s Solution CLASS: 222
NAME: Aluminum Chloride CASNO: 07446700
SYN: CLASS: 340
NAME: Aluminum Fluoride CASNO: 07784181
SYN: CLASS: 340
NAME: Aluminum Hydroxide CASNO: 21645512
SYN: CLASS: 340
B— 3
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Aluminum Nitrate CASNO: 13473900
SYN: CLASS: 340
NAME: Aluminum Phosphate CASNO: 07784307
SYN: CLASS: 340
NAME: Aluminum Sulfate CASNO: 10043013
SYN: CLASS: 340
NAME: Aminoethanol,2 CASNO:
SYN: (See Ethanólamine) CLASS:
NAME: Ammonia CASNO: 07664417
SYN: CLASS: 350
NAME: Ammonium Carbonate CASNO: 10361292
SYN: CLASS: 340
NAME: Ammonium Chloride CASNO: 12125029
SYN: CLASS: 340
NAME: Ammonium Fluoride CASNO: 12125018
SYN: CLASS: 340
NAME: Ammonium Fluoride, 30-70% CASNO: 12125018
SYN: CLASS: 340
NAME: Ammonium Hydroxide CASNO: 01336216
SYN: CLASS: 380
NAME: Ainmonium Hydroxide, <30% CASNO: 01336216
SYN: S CLASS: 380
NAME: Anmionium Hydroxide, 30-70% CASNO: 01336216
SYN: CLASS: 380
NAME: Animonium Hydroxide, >70% CASNO: 013362,16
SYN: CLASS: 380
NAME: Anmionium Nitrate CASNO: 06484522
SYN: CLASS: 340
B—4
-------�
CHEMICAL NAMES AND SYNONYMS
NAME:
Ammonium Nitrate, <30%
CASNO:
06484522
SYN:
CLASS:
340
NAME:.
Ammonium Persulfate
CASNO:
07727540
SYN:
CLASS:
340
NAME:
Ammonium Phosphate
•
CASNO:
07722701
SYN:
CLASS:
340
NAME:
SYN:
Animonium Phosphate, <30%
.
. .
CASNO:
CLASS:
07722701
340
NAME:
Ainrnoniurn Sulfate
CASNO:
07783202
SYN:
. CLASS:
340
NAME:
Anthionium Sulfide
CASNO:
12135761
SYN:
. .
CLASS:
340
NAME:
SYN:
Amyl Acetate .
Pentyl Acetate
CASNO:
CLASS:
00628637
222
NAME:
Amyl Alcohol
CASNO:
00071410
SYN: Pentanol
CLASS:
311
NAME:
Aniline
.
CASNO:
00062533
SYN:
Benzainine
CLASS:
145
NAME:
Aniline, >70%
CASNO:
00062533
SYN:
.
:
CLASS:
145
NAME:
Antimony Pentachioride
CASNO:
07647189
SYN:
.
.
CLASS:
370
NAME:
Aroclor .
CASNO:
SYN:
(See Polychiorinated Biphenyls
(PCBs))
CLASS:
.
NAME:
Arsenic Trichioride
.
CASNO:
07784341
SYN:
CLASS:
340
NAME:
Asphalt
CASNO:
08052424
B—5
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Aziridine CASNO:
SYN: (See Ethylenimine) CLASS:
NAME: Benzal Chloride CASNO:
SYN: (See Benzyl Dichloride) CLASS:
NAME: Benzaldehyde CASNO: 00100527
SYN: CLASS: 122
NAME: Benzainine CASNO:
SYN: (See Aniline) CLASS:
NAME: Benzendiol,l,3 CASNO:
SYN: (See Resorcinol) CLASS:
NAME: Benzene CASNO; 00071432
SYN: CLASS: 292
NAME: Benzenesulfonic Acid CASNO: 00098679
SYN: CLASS: 106
NAME: Benzene’sulfonyl Chloride CASNO: 00098099
SYN: CLASS: 505
NAME: Benzenethjo]. CASNO:.
SYN: (See Thiophenol) CLASS:
NAME: Benzethoniuni Chloride CASNO: 00121540
SYN: CLASS: 550
NAME: Benzidine CASNO: 00092875
SYN: CLASS: 147
NAME: Benzonitrjle CASNO: 00100470
SYN: CLASS: 432
NAME: p-Benzoquinone CASNO: 00106514
SYN: CLASS: 490
NAME: Benzotrichlorjde CASNO: 00098077
SYN: Trichloromethyl-benzene CLASS: 263
B—6
-------�
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
CHEMICAL NAMES AND SYNONYMS
00098884
112
00100516
316
00120514
316
00100447
263
00098873
263
01464535
275
0011191,1
241 262
00542881.
262 241
00117817
226
10043353
370.
07726956
350
Benzoyl Chloride
CASNO:
..
CLASS:
Benzyl Alcohol
CASNO:
.
CLASS:
Benzyl Benzoate
.
CASNO:
CLASS:
Benzyl Chloride
CASNO:
Chloromethyl Benzene
CLASS:
Benzyl Dichloride
CASNO:
.Benzal Chloride
CLASS:
2,2 ’-Bioxirane .
CASNO:
Erythritol Anhydride
CLASS:
Bis(2-chloroethoxy) Methane
CASNO:
.
CLASS:
Bis(chloromethyl) Ether
CASNO:
Dichloromethyl Ether,sym-
CLA$S:
Bis (2- Ethyihexyl) Phthalate
CASNO:
CLASS:
.
Boric Acid
CASNO:
CLASS:
Bromine
CASNO:.
CLASS:
Bromine Cyanide .
CASNO:
(See Cyanogen Bromide)
.
CLASS:
Bromine Trifluoride
CASNO:
07787715
.
CLASS:
340
Bromoacetonitrile
CASNO:
CLASS:
00590170
431
B— 7
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Bromobenzene CASNO: 00108861
SYN: CLASS: 263
NAME: Bromochioromethane CASNO: ‘00074975
SYN: CLASS: 263
NAME: 2-Bromoethanol CASNO: 00540512
SYN: ‘ CLASS: 262
NAME: Bromomethane CASNO:
SYN: (See Methyl Bromide) CLASS:
NAME: 4-Bromophenyl Phenyl’ Ether CASNO: 00101553
SYN: . ‘ CLASS: 242 265
NAME: l-Bromo-?-propanol CASNO: 19686738
SYN: CLASS: 262
NAME: 3-Bromo-1-.propanol CASNO: 00627189
SYN: . CLASS:, 262
NAME: Burow’s Solution ‘ CASNO:
SYN: (See Aluminum Acetate) CLASS:
NAME: Butadiene . CASNO: . 00106990
SYN: ‘ CLASS: 291
NAME: Butane CASN0 00106978
SYN: . CLASS: 291
NAME: Butanediol,l,3 . CASNO:
SYN: (See 1,3-Butylene Glycol) CLASS:
NAME: Butanethiol, 1 . CASNO:
SYN: (See n-ButylMercaptan) CLASS:.
NAME: Butanol, 1 ‘CASNÔ:
SYN: ‘ (See Butyl Alcohol) , CLASS:
NAME: tert-Butanol CASNO: 00075650
SYN: Methylpropanol, 2-,2- CLASS: 313
B—8
-------�
CHEMICAL NAMES AND SYNONYMS
00123864
222
00141322
223
00Ô71363
311
00109739
141
00078819
141
13952846
142
00075649
143
00136607
316
00085687
226
00106989
291
NAME: Butanone,2
SYN: (See Methyl Ethyl Ketone)
NAME: Butenal, trans-2
SYN:. (See Crotonaldehyde)
NAME:. .Butene
SYN:
NAME: Butoxyethanol, 2
SYN: (See Butyl Cellosolve)
NAME: .. Butoxyethylacetate, 2
SYN: (See Butyl Cellosolve Acetate)
NAME: Butyl Acetate
SYN:
NAME: Butyl ‘Acrylate
SYN:
NAME: Butyl Alcohol
SYN: Butanol, 1
NAME: Butylainine
SYN:
NAME:. iso-Butylamine
SYN: •. Methylpropylamine, 2-
NAME: sec-Butylamine
SYN:
NAME: tert-Butylamine
SYN:
NAME: n-Butyl Benzoate
SYN:
NAME: ,. Butyl Benzyl Phthalate
SYN:
CASNO:
CLASS:
CASNO:
CLASS:
•CASNO:
CLASS:
CASNO:
CLASS:
CASNO:
CLASS:
CASNO:
CLASS:
CASNO:
CLASS:
CASNO:
.CLASS:
CASNO:
CLASS:
CASNO:.
CLASS:
CASNO:
CLASS:.
CASNO:
CLASS:
CASNO:
CLASS:
CASNO:
CLASS:•
B— 9
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: n-Butyl Carbitol CASNO: 00112345
SYN: CLASS: 311
NAME: Butyl Cellosolve CASNO: 00111762
SYN: Butoxyethanol, 2 CLASS: 241 311
NAME: Butyl Cellosolve Acetate CASNO:’ 00112072
SYN: Butoxyethylacetate, 2 CLASS: ‘222 241
NAME: n-Butyl Chloride CASNO: 00109693,
SYN: Chlorobutane,1- CLASS: ‘ 261
NAME: Butylene CASNO 25167673
SYN: , . CLASS: 291
NAME: 1,3 -Butylene Glycol CASNO 00107880
SYN: Butanediol,1,3 CLASS: 314
NAME: n-Butyl Mercaptan CASNO: .00109795
SYN: Butanethiol, 1 CLASS: 501
NAME: tert-Butyl Mercaptan ‘ CASNO: 00075661
SYN: ‘ . . CLASS: 501
NAME: Buty1’ Oleate ‘ CASNO: 00142778
SYN: 0 ‘ CLASS: 223
NAME: n-Butyl Phthalate CASNO: ‘00084742
SYN: CLASS: ‘ 226
NAME: Butyl Stearate’ ‘ CASNO: 00123.955
SYN: CLASS: 223
NAME: p-tert-.Butyl•Toluene CASNO: 27130212
SYN: CLASS: 292
NAME: Butyraldehyde CASNO: 00123728
SYN: CLASS: 121
NAME: Butyric Acid’ CASNO: 00107926
SYN: CLASS: 102
NAME: Calcium Bisulfate, 30-70% CASNO: 13780035
SYN: . ‘ CLASS: 502
B— 10
-------�
CHEMICAL NAMES AND SYNONYMS
NAME:
Calcium Chloride
CASNO:
10043524
SYN:
.
CLASS:
340
NAME:
SYN:
Calcium Hydroxide
.
CASNO:
CLASS:
01305620
380
NAME: Calcium Hydroxide, <30%
CASNO:
01305620
SYN:
CLASS:
380
NAME:
Calcium Hypochiorite
CASNO:
07778543
SYN:
CLASS:
340
NAME:
Calcium Hypochlorite, <30%
CASNO:
07778543
SYN:
CLASS:
340
NAME:
Carbitol
CASNO:
00111900
SYN:
CLASS:
311
NAME:
Carbolic Acid
CASNO:
SYN:
(See Phenol)
CLASS:
NAME:
Carbon Bisulfide
CASNO:
SYN:
(See Carbon Disulfide)
CLASS:
•
NAME:
Carbon Disulfide
CASNO:
00075150
SYN:
Carbon Bisulfide
CLASS:
502
NAME:
Carbon Oxyfluoride.
CASNO:
00353504
SYN:
.
CLASS:
350
.
NAME:
Carbontetrabromide
CASNO:’
00558134
SYN:
Tetrabromomethane
CLASS:
261
‘NAME:
Carbon Tetrachloride
CASNO:
00056235
SYN:
Tetrachloromethane
CLASS:
261
NAME:
Carbonyl Chloride
CASNO:
SYN:
(See Phosgene) .
CLASS:
NAME:
Cellosolve Acetate
CASNO:
SYN:
(See 2-Ethoxyethyl Acetate)
CLASS:
B—il
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Chloral CASNO:
SYN: (See Trichloroacetaldehyde) CLASS:
NAME: Chlorine CASNO: 07782505
SYN: CLASS: 350
NAME: Chlorine Cyanide CASNO:
SYN: (See Cyanogen Chloride) CLASS:
NAME: Chloroacetaldehyde CASNO: 00107200
SYN: CLASS: 121 262
NAME: Chioroacetic Acid - CASNO: 00079118
SYN: CLASS: 103
NAME: Chioroacetone CASNO: 00078955
SYN: CLASS: 262
NAME: Chloroacetonitrile CASNO: 00107142
SYN: CLASS: 262 431
N:
NAME: p-Chloroaniline CASNO: 00106478
SYN: Chlorobenzaniine,4 CLASS: 145 264
NAME: Chlorobenzamine,4 CASNO:
SYN: (See p-Chloroaniline) CLASS:
NAME: Chlorobenzene CASNO: 00108907
SYN: CLASS: 263
NAME: 2-Chloro-1,3-butadiene CASNO: 00126998
SYN: Chloroprene CLASS: 261
NAME: Chlorobutane,l- CASNO:
SYN: (See n-Butyl Chloride) CLASS:
NAME: p-Chloro-m-cresol CASNO: 00059507
SYN: CLASS: 292 316 264
NAME: Chlorodibromomethane CASNO: 00124481
SYN: S CLASS: 261
B-i 2
-------�
CHEMICAL NAMES AND SYNONYMS
NAME:
Chlorododecane
CASNO:
00112527
SYN:
CLASS:
261
NAME:
SYN’:
Chloroethane
.
CASNO:
CLASS:
00075003
261
.
NAME:
SYN:
Chloroethanol
(See Ethylene Chiorohydrin)
.
.
CASNO:
CLASS:
•
NAME:
Chloroethene
CASNO:
SYN:
(See Vinyl Chloride)
.
CLASS:
NAME:
2-Chlóroethyl Vinyl Ether
CASNO:
00110758
SYN:
•
CLASS:
241 262
NAME:
Chloroform
.
CASNO:
00067663
SYN:
Trichloromethane
CLASS:
261
NAME:
Chloromethane
CASNO:
SYN:
(See Methyl Chloride)
S
CLASS:
•
NAME:
SYN:
Chloromethyl Bènzene
(See Benzyl Chloride)
CASNO:
CLASS:
•
NAME:
Chloromethyl Methyl Ether
CASNO:
00107302
SYN:
.
CLASS:
241 262
• NAME:
3-Chloro-2-methylpropene
CASNO:
00563473
• SYN:
.
CLASS:
262 292
NAME:
2-Chlöronaphthalene
.
S
CASNO:
00091587
SYN:
CLASS:
265
NAME:
SYN
Chloronaphthalènes (all isomers)
•
CASNO:
CLASS:
25586430
265
NAME:
2-Chloro-2-nitropropane
CASNO:
00594718
SYN:
•
CLASS:
442
NAME:
2-Chiorophenol
CASNO:
00095578
SYN:
CLASS:
316 264
B—I 3
-------�
CHEMICAL NAMES AND SYNONYMS
NAME:
4-Chlorophenyl Phenyl Ether
CASNO:
07005723
SYN:
CLASS:
265 242
NAME:
Chioroprene
CASNO:
SYN:
(See 2-Chloro-1,3-butadiene)
CLASS:
NAME:
Chloropropane
CASNO:
SYN:
(See Isopropyl Chloride)
CLASS:
NAME:
Chloropropane, 1
CASNO:
•
SYN:
(See Propyl Chloride)
CLASS:
NAME:
1-Chloro-2-propanol
CASNO:
00127004
SYN:
CLASS:
262
NAME:
3-Chloro-l-propanol
CASNO:
00627305
SYN:
.
CLASS:
262
NAME:
3-Chloropropionitrile
CASNO:
00542767
SYN:
CLASS.:
262 431
NAME:
Chlorosülfonic Acid
•
CASNO:
07790945
SYN:
CLASS:
370
NAME:
o-Chlorotoluene
CASNO:.
00095498
SYN:
.
CLASS:
263
NAME:
p-Chlorotoluene
CASNO:
00106434
SYN:
CLASS:
263
NAME:
Chromic Acid
CASNO:
11115745
SYN:
.
CLASS:
370
NAME:
Chromic Acid, <30%
CASNO:
11115745
SYN:
.
CLASS:
370
NAME:
Chromic Acid, 30-70%
CASNO:
11115745
SYN:
CLASS:
370
NAME:
SYN:
Chromic Acid, >70%
. .
CASNO:
CLASS:
11115745
370
B— 14
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Citric Acid CASNO: 00077929
SYN: CLASS: 313
NAME: Citric Acid, <30% CASNO: 00077929
SYN: CLASS: 313
NAME:: Copper Chloride CASNO: 01344678
SYN: CLASS: 340
NAME:. Copper Sulfate CASNO: 01344736
SYN: CLASS: 340
NAME: Creosote CASNO: 08001589
SYN: CLASS: 316
NAME: Creosote, Wood CASNO: 08021394
SYN: CLASS: 316
NAME: m-Cresol CASNO: 00108394
SYN: CLASS: 292 316
NAME: Cresols CASNO: 01319773
SYN: CLASS: 292 316
NAME: Crotonaldehyde CASNO: 04170303
SYN: Butenal,trans-2 CLASS: 121
NAME: Cumene CASNO: 00098828
SYN: Methylethyl Benzene CLASS: 292 312
NAME: Cupric Chloride CASNO: 07447394
SYN: CLASS: 340
NAME: Cupric Chloride, <30% CASNO: 07447394
SYN; CLASS: 340
NAME: Cupric Nitrate CASNO: 03251238
SYN: CLASS: 340
NAME: Cupric Sulfate CASNO: 07758987
SYN: CLASS: 340
B— 15
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Cupric Sulfate, <30% CASNO:. 07758987
SYN: . . CLASS: 340
NAME: Cyanogen CASNO: 00460195
SYN: . . CLASS: 350
NAME: Cyanogen Bromide CASNO: 00506683
SYN: Bromine Cyanide . CLASS: 215 350
NAME: Cyanogen Chloride . CASNO: 00506774
SYN: Chlorine Cyanide CLASS: 215 350
NAME: Cyclohexane . CASNO: 00110827
SYN: . CLASS: 291
NAME: Cyclohexanol CASNO: 00108930
SYN: . CLASS: 312
NAME: Cyclohexanone CASNO: 00108941
SYN: CLASS: 391
NAME: \Cyclohexylamine CASNO: 00108918
SYN: CLASS: 141
NAME: Cymene CASNO: 25155151
SYN: .. CLASS: 292
NAME: Decahydronaphthalene CASNO: 00091178
SYN: CLASS:. 291
NAME: Decanal (all isomsers) CASNO: 00112312
SYN: CLASS: 121
NAME: Decane . CASNO: 00124185
SYN: CLASS: 291
NAME: Diacetin CASNO: 25395317
SYN: ‘Glycerol Diacetate CLASS: 311102
NAME: Diacetone Alcohol CASNO: 00123422
SYN: CLASS: 391 313
— 16
-------�
CHEMICAL NAMES AND SYNONYMS
NAME:
Diallyamine
CASNO:
00124027
SYN:
.
CLASS:
142
NAME:
Dianiine
CASNO:
SYN:
(See Hydrazine)
CLASS:
NAME:
Diaminoethane,1,2
CASNO:
SYN:
(See Ethylenediamine)
‘CLASS:
NAME:
1,3-Diaminopropane
CASNO:
00109762
SYN:’
CLASS:
144
NAME:
Di-n-amylamine
CASNO:
02050922
SYN:
•
CLASS:
142
NAME:
Dibenzyl Ether
‘
CASNO:
00103504
SYN:
CLASS’:
241
‘
NAME’: ‘
Dibenzyl Sebacate
CASNO:
00140249
SYN:
‘
CLASS:
224
,
NAME:
1,2-Dibronio-3-chloropropane
CASNO:
00096128
SYN:
‘
‘
CLASS:
262
‘
NAME:
Dibromoethane,1,2
CASNO:
SYN:
(See ‘Ethylene Dibroniide)
,
CLASS:
‘
NAME:
Dibromoethy lbenzene
CASNO:
SYN:
(See Alkazene) ‘
CLASS:
NAME:
Dibromomethane
CASNO:
SYN: ‘
(See Methy1ene Bromide)
CLASS:
Dibutylamine
CASNO:
00111922
SYN: ,
‘
CLASS:
142
NAME:
Dibutylether
‘
CASNO:
00142961
SYN:
, , ‘
CLASS:
241
NAME:
Dibutyl Sebacate ‘
CASNO:
00109433
SYN:
CLASS:
224
B—17
-------�
CHEMICAL NAMES AND SYNONYMS
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
CASNO:
CLASS:
CASNO:
CLASS.:
CASNO:
CLASS:
CASNO:
CLASS:
CASNO:
CLASS:
CASNO:
CLASS:
CASNO:
CLASS:
CASNO:
CLASS:
CASNO:
CLASS:
CASNO:
CLASS:
CASNO:
CLASS:
CASNO:
CLASS:
CASNO:
CLASS:
CASNO:
CLASS:
00156592
261
00540590
261
00156605
261
00079367
262
25321226
263
00095501
263
00541731
263
00106467
263
00075274
261
00110576
261
01300216
261
Dichloroacetyl Chloride
Dichlorobenzene
1,2- Dichlorobenzene
1, 3-Dichlorobenzene
1, 4-Dichioroberizene
Dich lorobronioniethane
1, 4-Dichioro- 2 -butene
Dichloroe thane
Dichloroethane, 1,1
(See Ethylidene Dichloride)
Dichioroethane ,1,2
(See Ethylene .Dichloride)
cis -Dichloroethylene
Dichloroethylene, 1,1
(See Vinylidene Chloride)
‘1,2- Dichloroethylene
trans-l , 2-Dichloroethylene
B—I 8
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Dichioroethylene (all isomers) CASNO: 25323302
SYN: . . CLASS: 261
NAME: 2,2’-Dichloroethyl Ether CASNO: 00111444
SYN.: CLASS: 241 262
NAME: Dichloroisopropyl Ether CASNO: 00108601
SYN: . CLASS: 241 262
NAME: Dichioromethane CASNO:
SYN: (See Methylene Chloride) CLASS:
NAME: Dichloromethyl Ether,sym- CASNO:
SYN: (See Bis(chloromethyl) Ether) CLASS:
NAME: 2, 4-Dichlorophenol CASNO: .00120832
SYN: CLASS: 264 316
NAME: 2,6-Dichlorophenol CASNO:. 00087650
SYN: CLASS: 264 316
NAME: Dichlorophenylarsine CASNO: 00696286
SYN: Phenyl Dichioroarsine CLASS: 461
NAME: Dichloropropane 1,2 CASNO:
SYN: (See Propylene Dichloride) CLASS:
NAME: Dichloropropane (all isomers) CASNO: 26638197
SYN: CLASS: 261
NAME: Dichloropropane-Dichloropropene CASNO: 08003198
SYN: CLASS: 261
NAME: 2,3-Dichloro-1-propene CASNO: 00078886
SYN: . CLASS: 261
NAME: Dichloropropene(s) CASNO: 26952238
SYN: . CLASS: 261
NAME: 1, 3-Dichloropropene CASNO: 00542756
SYN: CLASS: 261
B— 19
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Dicyclohexylamine CASNO: 00101837
SYN: CLASS: 146
NAME: Diethanolamjne CASNO: 00111422
SYN: CLASS: 143
NAME: Diethylamine CASNO: 00109897
SYN: CLASS: 142
NAME: Diethy làmjnoethanol CASNO: 00100378
SYN: CLASS: 311 143
NAME: Diethylarsine CASNO: 00692422
SYN: CLASS: 461
NAME: Diethyl Benzene CASNO: 25340174
SYN: CLASS: 292
NAME: Diethylene Dioxide,1,4 CASNO:
SYN: (See l,4-Dioxane) CLASS:
NAME: Diethylene Clycol CASNO: 00111466
SYN: CLASS: 314
NAME: Diethylenetriamjne CASNO: 00111400
SYN: CLASS: 144
NAME: Di-( 2 -Ethylhexyl) Sebacate CASNO: 00122623
SYN: Dioctyl Sebacate CLASS: 224
NAME: l, 2 -Diethylhydrazjne CASNO: 01615801
SYN: CLASS: 280
NAME: 0,0-Diethyl S-Methyl Dithiophosphate CASNO: 03288582
SYN: CLASS: 460
NAME: .Diethyl-p-nitrophenyl Phosphate CASNO: 00311455
SYN: CLASS: 460 442
NAME: DiethylOxalate CASNO: 00095921
SYN: CLASS: 224
B— 20
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Diethyl Phthalate CASNO: 00084662
SYN: CLASS: 226
NAME: Diethyl Sebacate CASNO: 00110407
SYN: CLASS: 224
NAME: Diheptyl Phthalate CASNO: 03648213
SYN:. CLASS: 226
NAME: Dihydrosafrole CASNO: 00094586
SYN: CLASS: 278
NAME: Diisobutylainine CASNO: 00110963
SYN: CLASS: 142
NAME: Diisobutylene CASNO: 25167708
SYN: CLASS: 291
NAME: Diisobutyl Ketone CASNO: 00108838
SYN: CLASS: 391
NAME: Diisobutyl Ketone, >70% CASNO: •00108838
SYN: CLASS: 391
NAME: Diisobutyl Phthalate CASNO: 00084695
SYN: CLASS: 226
NAME: Diisoctyl Phthalate CASNO: 27554263
SYN: CLASS: 226
NAME: Diisodecyl Phthalate CASNO: 26761400
‘-SYN: CLASS: 226
NAME: Diisononyl Phthalate CASNO: 28553120
SYN: . . CLASS: 226
NAME: Diisooctyl Sebacate CASNO: 27214900
.SYN: CLASS: 224
NAME: Diisopropylamine CASNO: 00108189
SYN: . CLASS:• 142
B—2 1.
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Diisopropyl Benzene (all, isomers) CASNO: 25321099
SYN: CLASS: 292
NAME: Diisopropyl Fluorophosphate CASNO: 00055914
SYN: CLASS: 460 262
NAME: Diisopropyl Ketone CASNO:. 00565800
SYN: CLASS: 314
NAME: N, N-Dimethylacetamide CASNO: 00127195
SYN: CLASS:’ 132
NAME: Dimethylamine’ CASNO: 00124403
SYN: CLASS: 142
NAME: Dimethylaininopropylamine CASNO: 00109557
SYN: CLASS: 144
NAME: Dimethylanaline CASNO: 00121697
SYN: CLASS: 145
NAME: àlpha,alpha-Dimethylbenzyj. Hydroperoxide CASNO: 00080159
SYN: ‘ CLASS: 300
NAME: Dimethylbutylainine CASNO: 00108098
SYN: CLASS:’ 14.3
NAME: Dimethylethanolamine CASNO: 00108010
SYN: . CLASS: 142
NAME: Dimethylformamide . CASNO: 00068122
SYN: . CLASS: 132
NAME: Dimethylhydrazine,sym- CASNO:
SYN: (See 1,2-Dimethylhydrazjne) CLASS:
NAME: Dirnethylhydrazine ,unsym- . CASNO:
SYN: (See 1,1-Dimethylhydrazine) CLASS:
NAME: 1,1-Dimethyihydrazine CASNO: 00057147
SYN: Dimethylhydrazine,unsym- CLASS: 280
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: 1,2-Dimethyihydrazine CASNO: 00540738
SYN: Dimethy lhydrazine,sym- CLASS: 280
NAME: a lpha,a lpha-Dimethylphenethylamine CASNO: 00122098
SYN CLASS: 141 145
NAME: 2,4-Dimethyiphenol CASNO: 00105679
SYN: CLASS: 316
NAME: Diniethyl Phthalate CASNO: 00131113
SYN: CLASS: 226
NAME: Dimethyl Sulfate CASNO: 00077781
SYN: CLASS: 507
NAME: Dimethyl Sulfoxide CASNO: 00067685
SYN: CLASS: 503
NAME: Dimethy lvinylchloride CASNO: 00513371
SYN: CLASS: 267
NAME: Dinonyl Phthalate CASNO: 00084764
SYN: CLASS: 226
NAME: Dioctyl Sebacate CASNO:
SYN: (See Di-(2-Ethylhexyl)-Sebacate) CLASS:
NAME: Di-n-octyl Phthalate CASNO: 00117840
SYN: CLASS:. 226
NAME: 1,4-Dioxane CASNO: 00123911
SYN: Diethylene Dioxide,l,4 CLASS: 278
NAME: 1,3-Dioxolane CASNO: 00646060
SYN: CLASS: 242
NAME: Dipentene CASNO: 00138863
SYN: CLASS: 291
NAME: Dipropylamine CASNO: 00142847
SYN: CLASS: 142
B— 23
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Di-Sec-Octyl Phthalate CASNO: 00131157
SYN: CLASS: 226
NAME: Disodium Phosphate CASNO: 07558794
SYN: CLASS: 330
NAME: Disulfür Dichioride CASNO: 10025679
SYN: CLASS: 507
NAME: Dithiophosphoric Acid CASNO:
SYN: (See Tetraethyldithiopyrophosphate) CLASS:
NAME: Diundecyl Phthalate CASNO: 03648202
SYN: CLASS: 226
NAME: Divinyl Benzene CASNO: 01321740
SYN: CLASS: 292
NAME: Epichiorohydrin CASNO: 00106898
SYN: S CLASS: 275 262
NAME: 1,2-Epoxybutane CASNO:. 00106887
SYN: CLASS: 275
NAME: Erythritol Anhydride CASNO:
SYN: (See 2,2’-Bioxirane) CLASS:
NAME: Ethane CASNO: 00074840
SYN: CLASS: 291
NAME: Ethanol CASNO:
SYN: (See Ethyl Alcohol) CLASS:
NAME: Ethanol, <30% CASNO: 00064175
SYN: CLASS: 311
NAME: Ethanol, 30-70% CASNO: 00064175
SYN: CLASS: 311
NAME: Ethanol, >70% CASNO: 00064175
SYN: CLASS: 311
B- 24
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: CASNO:
SYN: CLASS:
NAME: CASNO:
SYN:’ ‘CLASS:
NAME: CASNO:
SYN: CLASS:
NAME’: CASNO:
SYN:’ CLASS:
NAME: CASNO:
SYN: CLASS:
NAME: CASNO:
SYN: CLASS:
NAME: CASNO:
SYN: CLASS:’
NAME: CASNO:
SYN: , CLASS:
NAME: ‘ CASNO:
SYN: , CLASS:
NAME: CASNO:
SYN: CLASS:
NAME: ‘ CASNO:
SYN: , CLASS:
NAME: CASNO:
SYN: CLASS:
NAME: ‘ , CASNO:
SYN: ‘ CLASS:
‘NAME: CASNO:
SYN: , CLASS:
Ethanolamine
Aminoethanol, 2
Ethoxyethanol, 2
(See Ethyl ‘Cellosolve)
2-Ethoxyethyl Acetate
Cellosolve Acetate
Ethyl Acetate
Ethyl Cellosolve
Ethoxyethanol, 2
Ethyl Acetoacetate
Ethyl Acrylate
Ethyl Alcohol
Ethanol
Ethylainine
Monoe thylamine
Ethylamine, <30%
Ethylamine, 30-70%
Ethylamine, >70%
Ethyl Benzene
Ethyl Benzoate
00141435
141 311
00111159
222 241
00141786
222
‘00110805
311 ‘241
00141979
222
00140885
223
00064175
311
00075047
141
00075047
141
00075047
• 141
00075047
141
00100414
292
00093890
316
B— 25
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Ethyl Bromide CASNO: 00074964
SYN: CLASS: 261 -
NAME: Ethyl-n-butylamine CASNO: 13360639
SYN: CLASS: 142
NAME: Ethyl Chiorocarbonate CASNO: 00541413
SYN: . . CLASS: 111
NAME: Ethyl Cyanide CASNO: 00107120
SYN: Propionitrile CLASS: 431
NAME: Ethyldimethylmethane . CASNO:
SYN: (See Isopentane) . - CLASS:
NAME: Ethylene Acetate CASNO: 00111557
SYN: - CLASS: 221
NAME: Ethylene Chlorohydrin CASNO: 00107073
SYN: . Chloroethanol CLASS: 311 262
NAME: Ethylenediamine CASNO: 00107153
SYN: Dianiinoethane,1,2 CLASS: 144
NAME: Ethylene Dibromide CASNO: . 00106934
SYN: Dibrómoethane,1,2 CLASS: .261
NAME: Ethylene Dichioride CASNO: 00107062
SYN: Dichloroethane,1,2 CLASS: 261
NAME: Ethylene Clycol . CASNO: 00107211
SYN: . . CLASS: 314
NAME: Ethylene Glycol Monoacetate CASNO: 00524596
SYN: . CLASS: 103 314 313
NAME: Ethylene Oxide . CASNO: 00075218
SYN: Oxirane CLASS: 275
NAME: Ethylenimine CASNO: 00151564
SYN: Aziridine CLASS: 274 142
B— 26
-------�
CHEMICAL NAMES AND SYNONYMS -
NAME: Ethyl Ether CASNO: 00060297
SYN: CLASS: 241
NAME: Ethyl Formate ‘ CASNO: 00109944
‘‘SYN: CLASS: 221
‘NAME: , ‘2-Ethyihexanoic Acid CASNO: 00149575
SYN: CLASS: 102
NAME: 2-Ethyl-l-Hexanol CASNO: 00104767
SYN: ‘ CLASS: 311
NAME: Ethylidene Dichioride CASNO: 00075343
SYN: - Dichloroethane,l,l CLASS: 261
NAME: Ethyl Me’rcaptan CASNO: - 00075081
SYN: , ‘ CLASS: 501
NAME: Ethyl Methacrylate CASNO: ‘ 00097632
SYN: CLASS: 223
NAME: Ethyl Methanesulfonate •CASNO: 00062500
SYN: CLASS: 232
NAME: Ethyl Silicate CASNO: 00078104
SYN: ‘ ‘ CLASS: 233 291
NAME: Ferric Chloride CASNO: 07705080
SYN: CLASS: 340
‘NAME: Ferrous Chloride CASNO: 07758943
SYN:’ , CLASS: 340
NAME: Fluorine CASNO: 07782414
SYN: ‘ ‘ ‘ CLASS: 350
NAME: Fluorobenzene CASNO: 00462066
‘SYN: ‘ CLASS: 263
NAME: Fluoroboric Acid CASNO: , 16872110
SYN: Tetrafluoroboric Acid CLASS: 370
B—27
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Fluorosilicjc Acid CASNO: 16961834
SYN: CLASS: 370
NAME: Fluorosulfonic Acid CASNO: 07789211
SYN: CLASS: 504
NAME: Formaldehyde, <37% CASNO: 00050000
SYN: Fornialjn CLASS: 121
NAME: Forma].jn CASNO:
SYN: (See Formaldehyde, <37%) CLASS:
NAME: Formamide, 30% CASNO: 00075127
SYN: CLASS: 132
NAME: Formic Acid CASNO: 00064186
SYN: Methanoic Acid CLASS: 102
NAME: Formic Acid, <30% CASNO: 00064186
SYN: CLASS: 102
NAME: Formic Acid, 30-70% CASNO: 00064186
SYN: CLASS: 102
NAME: Formic Acid, >70% CASNO: 00064186
SYN: CLASS: 102
NAME: Freon 11 CASNO: 00075694
SYN: CLASS: 261
NAME: Freon 12 CASNO: 00075718
SYN: CLASS: 261
NAME: Freon 21 CASNO: 00075434
SYN: CLASS: 261
NAME: Freon 22 CASNO: 00075456
SYN: CLASS: 261
NAME: Freon 112 CASNO: 00076120
SYN: CLASS: 261
B—28
-------�
CHEMICAL NAMES AND SYNONYMS
NAME:
Freon 114B2
CASNO:
00124732
SYN:
CLASS:
261
NAME:
Freon TF
CASNO:
00076131
SYN:
CLASS:
261
•
NAME:
Freon TMC
CASNO:
57762319
SYN:
CLASS:
261
NAME:
Furan
CASNO:
00110009
SYN:
Furfuran
CLASS:
277
NAME:
Furfural
CASNO:
00098011
SYN:
CLASS:
122
NAME:
Furfuran
CASNO:
SYN
(See Furan)
CLASS:
NAME:
2 -Furylmethanol
CASNO:
00098000
SYN:
CLASS:.
312
NAME:
Gasoline
CASNO:
08006619
S’YN:
CLASS:
291 292
NAME:
Glutaraldehyde
CASNO:
00111308
SYN:
.
CLASS:
121
NAME:
Glycerin Triacetate
.
CASNO:
00102761
SYN:
Triacetine
CLASS:
102 222
NAME:
Glycerol
CASNO:
00056815
SYN:
Propanetriol,l,2,3
CLASS:
314
NAME:
Glycerol Diacetate
CASNO:
SYN:
(See Diacetin)
.
CLASS:
NAME:
Glycidaldehyde
CASNO:
00765344
SYN:
.
•
CLASS:
275 122
NAME:
Glycols
CASNO:
68606213
SYN:
CLASS:
311
B—29
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Halothane CASNO: 00151677
SYN: CLASS: 261
NAME:. Heptane CASNO: 00142825
SYN: CLASS: 291
NAME: Hexachlorobenzene CASNO: 00118741
SYN: CLASS: 263
NAME: Hexachiorobutadjene . CASNO: 00087683
SYN: . CLASS: 261
NAME: Hexachlorocyclopentadiene . CASNO: 00077474
SYN: . . CLASS: 261
NAME: Hexachioropropene CASNd’ - 01888717
SYN: CLASS: 261
NAME: Hexaethyltetraphosphate CASNO: 00757584
SYN: CLASS: 460
NAME: Hexamethyiphosphoamide CASNO: 00680319
SYN: . . CLASS: 132
NAME: Hexana]. . CASNO: 00066251
SYN: CLASS: 121
NAME: Hexane CASNO: 00110543
SYN: . CLASS: 291
NAME: Hexanedioic Acid CASNO:
SYN: (See Adipic Acid) CLASS:
NAME: Hexanol CASNO:
SYN: - (See Hexyl Alcohol) CLASS:
NAME: Hexanone, 2 . CASNO:
SYN: (S e Methyl n-Butyl Ketone) CLASS:
NAME: 1-Hexene CASNO: - 00592416
SYN: . CLASS: 291
B—3O
-------�
CHEMICAL NAMES AND SYNONYMS
NAME:
SYN:
NAME:
SYN:.
NAME:
SYN:
NANE:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
00111273
311
00302012
280
00302012
280
00302012
280
00302012
280
10035106
370
10035106
370
07647010
370
07647010
370
07647010
370
07647010
370
00074908
215 350
00074908
370
07664393
370
Hexyl Alcohol
Hexanol
Hydraz me
Dianiine
Hydrazine, <30%
Hydrazine, 30-70%
Hydrazine, >70%
Hydrobromic Acid
Hydrobromic Acid, .30-70%
Hydrochloric Acid
Hydrochloric Acid, <30%
Hydrochloric Acjd, 30-70%
Hydrochloric Acid, >70%
Hydrocyanic Acid
1 -Lydrocyanic Acid, <30%
Hydrofluoric Acid
Hydrogen Fluoride
CASNO:
CLASS:
CASNO:
CLASS:
CASNO:
CLASS:
• CASNO:
CLASS:
CASNO:
CLASS:
CASNO:
CLASS:
CASNO:
CLASS:
CASNO:
CLASS:
CASNO:
CLASS:
CASNO :
CLASS:
CASNO:
CLASS:
• CASNO:
CLASS:•
CASNO:
CLASS:.
CASNO:
CLASS:
B— 31
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Hydrofluoric Acid, <30% CASNO: 07664393
SYN: CLASS: 370
NAME: Hydrofluoric Acid, 30-70% CASNO: 07664393
SYN: CLASS: 370
NAME: Hydrofluoric Acid, >70% CASNO: 07664393
SYN: CLASS: 370
NAME: Hydrogen Fluoride CASNO:
SYN: (See Hydrofluoric Acid) CLASS:
NAME: Hydrogen Peroxide CASNO: 07722841
SYN: CLASS: 300
NAME: Hydrogen Peroxide, <30% CASNO: 07722841
SYN: CLASS: 300
NAME: Hydrogen Peroxide, 30-70% CASNO: 07722841
SYN: CLASS: 300
NAME: Hydrogen Peroxide, >70% CASNO: 07722841
SYN: CLASS: 300
NAME: Hydrogen Phosphide CASNO: 07803512
SYN: Phosphine CLASS: 350
NAME: Hydrogen Sulfide CASNO: 07783064
SYN: CLASS: 350
NAME: Hydroquinone CASNO: 00123319
SYN: CLASS: 490
NAME: Hydroquinone, <30% CASNO: 00123319
SYN: CLASS: 490
NAME: Hylene CASNO: 00101655
SYN: CLASS: 215
NAME: Iminobispropylamine CASNO: 00056188
SYN: CLASS: 144
B- 32
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Iodine Pentafluoride
SYN:
NAME: b-Ionone
SYN:
NAME: Isoamyl Acetate
•SYN:
NAME:. Isoamylnitrile
SYN:
CASNO: 07783666
CLASS: 370
CASNO: 14901076
CLASS: 291
CASNO: 00123922
CLASS: 222
CASNO: 00110463
CLASS: 431
NAME: Isobutene
SYN: (See Isobutylene)
NAME: Isobutyl Acrylate
SYN:
NAME: Isobutyl Alcohol
SYN:
NAME: Isobutylene
SYN: Isobutene
NAME: Isobutyl Nitrite
SYN:
NAME: Isobutyraldehyde
SYN:
NAME: Isooctane
‘SYN:
NAME: Isopentane
SYN: Ethyldimethylniethane
NAME: Isophorone
SYN:
NAME: Isoprene
SYN:
CASNO:
CLASS:
CASNO: 00106638
CLASS: 223
CASNO: 00078831
CLASS: 311
CASNO: 00115117
CLASS: 291
CASNO: 00542563
CLASS: 233
CASNO: 00078842
CLASS: 121
• CASNO: 26635643
CLASS: 291
CASNO: 00078784
CLASS: 291
CASNO: 00078591
CLASS: 391
CASNO: 00078795.
CLASS: 291
B— 33
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Isopropyl Acetate CASNO: 00108214
SYN: CLASS: 222
NAME: Isopropyl Alcohol CASNO: 00067630
SYN: Propanol, 2- CLASS: 312
NAME: Isopropylainine CASNO: 00075310
SYN: CLASS: 141,
NAME: Isopropyl Chloride CASNO: 00075296
SYN: Chloropropane CLASS: 261 312
NAME: Isopropyl Ether CASNO: 00108203
SYN: CLASS: 241
NAME: ‘ Isopropylmethacrylate CASNO: ‘04655349
SYN: CLASS: 223
NAME: Isosafrole ‘ CASNO: 00120581
SYN: CLASS: 278
NAME: “JP-4, Jet Fuel CASNO: 99901291
SYN: CLASS: 291 292
NAME: Kerosene CASNO: 08008206
SYN: , CLASS: , 291 292
NAME: Lactic Acid CASNO: ‘00079334
SYN: CLASS: 103 312
NAME: Lactic Acid, <30% CASNO: 00079334
SYN: CLASS: 103 312
NAME: Lactic Acid, ‘>70% ‘ CASNO: OàO79334
SYN: ‘ CLASS: 103 312
NAME: Lauric Acid CASNO: 00143077
SYN: CLASS: 102
NAME: Laui ic Acid, 30-70% ‘ CASNO: 00143077
SYN: CLASS: 102
B—34
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Ligroine CASNO:
SYN: (See Naphtha, V.M.& P) CLASS:
NAME: d-Limonene CASNO: 05989275
SYN: Menthadiene CLASS: 292
NAME: Linoleic Acid CASNO: 00060333
SYN: CLASS’:, 102
NAME: Maleic Acid CASNO: 00110167
SYN: CLASS: 104
NAME: Maleic Acid, >70% CASNO:. 00110167
SYN: CLASS: 104
NAME: Malic Acid CASNO: 06915157
SYN: CLASS: 104 103
NAME: Malonitrile CASNO: 00109773
SYN: Propane Dinitrile CLASS: 431
NAME: Menthadiene CASNO:,
SYN: (See d-Limonene) CLASS:
NAME: Mercury CASNO: 07439976
SYN: CLASS: 560
NAME: Mesityl Oxide CASNO: 00141797
SYN: Methylpentenone, 4-,3-,2-. CLASS: 391
NAME: Methacrylonitrile CASNO: 00126987
SYN: CLASS: 431
NAME: Methane CASNO: 00074828
SYN: CLASS: 291
NAME: Methanesulfonic Acid CASNO: 00075752
SYN: CLASS: 504
NAME: Methanethiol CASNO:
SYN: (See Methylmercaptan) CLASS:
B—35
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Methanoic Acid CASNO:
SYN: (See Formic Acid) CLASS:
NAME: Methanol CASNO.: 00067561
SYN: Methyl Alcohol CLASS: 311
NAME: Methanol, <30% CASNO: 00067561
SYN: CLASS: 311
NAME: Methanol, 30-70% CASNO: 00067561
SYN: CLASS: 311
NAME: Methanol, >70% CASNO: 00067561
SYN: CLASS: 311
NAME: Methoxyethanol, 2 CASNO:
SYN: (See Methyl Cellosolve) CLASS:
NAME: 4-Methoxy-4-methyl-2-pentanone CASNO: 00107700
SYN: CLASS 391
NAME: Methyl Acetate CASNO: 00079209
SYN: CLASS: 222
NAME: Methyl Alcohol CASNO:’
SYN: (See Methanol) CLASS:
NAME: Methyl Acrylate CASNO: 00096333
SYN: CLASS: 223
NAME: Methylacrylic Acid CASNO: 00079414
SYN: CLASS: 102
NAME: 2-Methylactonitrile CASNO: 00075865
SYN: Acetone Cyanohydrin CLASS’: 431 400
NAME: Methylamine CASNO: 00074895
SYN: Monomethylamine CLASS: 141
NAME: Methylamine, 30-70% CASNO: 00074895
SYN: CLASS: 141
B- 36
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: 3-Methylaminopropylamine CASNO: 06291845
SYN: CLASS: 144
NAME: Methyl Aniline CASNO: 00100618
SYN: CLASS: 147
NAME: 2-Methylaziridine CASNO: 00075558
SYN: Propylenimine,i,2 CLASS: 274 142
NAME: Methyl Bromide CASNO: 00074839
SYN: Bromomethane CLASS: 261
NAME: Methylbutadiene,1 CASNO:
SYN: (See 1,3-Pentadiene) CLASS:
NAME: Methyl n-Butyl Ketone CASNO: 00591786
SYN: Hexanone, 2 CLASS: 391
NAME: Methyl Cellosolve CASNO: 00109864
SYN: Methoxyethanol, 2 CLASS: 311 241
NAME: Methyl Cellosolve Acetate CASNO; 00110496
SYN: CLASS: 241 222
NAME: Methyl Cellulose CASNO: 09004675
SYN: CLASS: 241
NAME: Methyl Chloride CASNO: 00074873
SYN: Chloromethane CLASS: 261
NAME: Methyl Chloroacetate CASNO: 00096344
SYN: CLASS: •222
NAME: Methyl Chloroform CASNO: 00071556
SYN: Trichloroethane,l,1,1 CLASS: 261
NAME: Methyl Chloroformate CASNO: 00079221
SYN: CLASS: 221
NAME: Methylcyclohexane CASNO: 00108872
SYN: CLASS: 291
B-3 7
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Methyl Cyclopentane CASNO: 00096377
SYN: CLASS: 291
NAME: Methylene Bromide CASNO: 00074953
SYN: Dibromomethane CLASS: 261
NAME: Methylene Chloride CASNO: 00075092
SYN: Dichioromethane CLASS: 261
NAME: 4 , 4 ’-Methylenedjanjljne CASNO: 00101779
SYN: CLASS: 147
NAME: n-Methylethanolamjne CASNO: 00109831
SYN: CLASS: 142
NAME: Methylethyl Benzene CASNO:
SYN: (See Cumene) CLASS:
NAME: Methyl Ethyl Ketone CASNO 00078933
SYN: Butanone,2 CLASS: 391
\
NAME: Methyl Ethyl Ketone Peroxide CASNO: 01338234
SYN: CLASS: 300
NAME: Methyl Formate CASNO: 00107313
SYN: CLASS: 221
NAME: Methylhydrazine CASNO: 00060344
SYN: CLASS: 280
NAME: Methyl Iodide CASNO: 00074884
SYN: CLASS: 261
NAME: Methyl Isobutyl Ketone CASNO: 00108101
SYN: Methylpentanone, 4-,2- CLASS: 391
NAME: Methyl Isocyanate. . CASNO: 00624839
SYN: CLASS: 210
NAME: l-Methyl.4-Isopropenylbenzene . CASNO: 01195320
SYN: . CLASS: 292
B—38
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Methylmercaptan CASNO: 00074931
SYN:’ Methanethiol CLASS: 7 501
NAME: Methyl Methacrylate CASNO: 00080626
SYN: CLASS: 223
NAME: Methyl Oleate CASNO: 00112629
SYN: CLASS: 223
NAME: Methyl Parathion CASNO: 00298000
SYN: CLASS: 460 442
NAME: Methylpentanone, 4-,2- CASNO:
SYN: (See Methyl Isobutyl Ketone) CLASS:
NAME: Methyipentenone, 4-,3-,2- CASNO:
SYN: (See Mesityl Oxide) CLASS:
NAME: Methyipropanol, 2-,2- CASNO:
SYN: (See tert-Butanol) CLASS:
NAME: Methylpropylamine, 2- CASNO:.
SYN: (See. iso-Butylamine) CLASS:
NAME: Methylpyridine,2 CASNO:
SYN: (See aipha-Picoline) CLASS:
NAME: Methyl Salicylate . . CASNO: 00119368
SYN: S CLASS: 226
NAME: Methyl-vinyl-ketone CASNO: 00078944
SYN: CLASS: 391
NAME: Mineral Oil CASNO: 08012951
SYN: ‘ CLASS: 560
NAME: Mineral Spirits CASNO: 08052413
SYN: . CLASS: 291
NAME: Monoethylamine CASNO:
SYN: (See Ethylamine) CLASS:
8-39
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Monoisopropanolamine . CASNO: 00078966
SYN: CLASS: 141
NAME: Monomethylamine . CASNO:
SYN: (See Methylamine) CLASS:
NAME: Morpholine CASNO: 00110918
SYN: CLASS: 142
NAME: N-Methyl-2-pyrrolidone CASNO: 00872504
SYN: CLASS: 391
NAME: Naphtha, V.M.& P CASNO: 08032324
SYN: Ligroine. CLASS: 291
NAME: Napthalene CASNO: 00091203
SYN: CLASS: 293
NAME: Natural Gas, Liquified CASNO: 64741486
SYN: CLASS.: 292
NAME: Nickel Carbonyl CASNO: 13463393
SYN: . . CLASS: 350
NAME: Nickel Chloride CASNO:. 07718549
SYN: . CLASS: 340
NAME: Nitric Acid CASNO: 07697372
SYN: CLASS: 370
NAME: Nitric Acid, <30% CASNO: 07697372
SYN: . CLASS: 370
NAME: Nitric Acid, 30-70% CASNO: 07697372
SYN: . CLASS: 370
NAME: Nitric Acid, >70% CASNO: 07697372
SYN: CLASS: 370
NAME: Nitric Acid, Fuming Red CASNO: 08007587
SYN: CLASS: 370
B—40
-------�
CHEMICAL NAMES AND SYNONYMS
NAME:
Nitric Oxide
CASNO:
10102439
SYN:
CLASS:
350
NAME:
Nitrobenzene
‘CASNO:
00098953
SYN:
CLASS:
441 292
NAME:
Nitroethane
CASNO:
00079243
SYN:
.
CLASS:
441
NAME:
Nitrogen Dioxide
•
CASNO:
10102440
SYN:
.
CLASS:
350
NAME:
Nitrogen Tetroxide
CASNO:
10544726
SYN:
CLASS:
350
NAME:
Nitroglycerine
•
CASNO:
0O055630
• SYN:
CLASS:
441
NAME:
Nitromethane
CASNO:
00075525
SYN:
CLASS:
441.
NAME:
Nitropropane
CASNO:
25322014
SYN:
CLASS:
441
•
NAME:
1 -Nitropropane
CASNO:
00108032
SYN:
CLASS:
441
NAME:
2-Nitropropane
CASNO:
00079469
SYN:
CLASS:
441
NAME:
Nitropropane, >70%
CASNO:
25322014
SYN:
CLASS:
441
-NAME:
n-Nitrosodiniethylamine
CASNO:
00055185’
SYN:
CLASS:
143 442
NAME:
Nitrotoluene •
CASNO:
SYN:
•
•
CLASS’:
441
NAME: ,
o-Nitrotoluene
CASNO:
00088722
SYN:
B—4 1
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: p-Nitrotoluene CASNO: 00099990
SYN: cLAss: 441
NAME: Nonyiphenol CASNO: 25154523
SYN: CLASS: 316
NAME: Octadecane CASNO: 00593453
SYN: CLASS: 291
NAME: n-Octane CASNO: 00111659
SYN: CLASS: 291
NAME: 1-Octanol. CASNO: 00111875
SYN: CLASS: 311
NAME: n-Octano]. CASNO: 29063283
SYN: CLASS: 311
NAME: Oleic Acid CASNO: 00112801
SYN: CLASS: 102
NAME: Oxalic Acid CASNO: 00144627
SYN: CLASS: 104
NAME: Oxirane CASNO:
SYN: (See Ethylene Oxide) CLASS:
NAME: Palmitic Acid CASNO: 00057103
SYN: CLASS: 102
NAME: Paraldehyde . CASNO: 00123637.
SYN: CLASS: 121
NAME: Pentachioroethane CASNO: 00076017
SYN:. CLASS: 261
NAME: Pentachloropheno]. CASNO: 00087865
SYN: CLASS: 264 316
NAME: l,3-Pentadiene CASNO:. 00504609
SYN: Methylbutadiene,l CLASS: 291
B—4 2
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Pentane CASNO: 00109660
SYN: CLASS: 291
NAME: Pentanol CASNO:
SYN: . (See Amyl Alcohol) CLASS:
NAME: . Pentene CASNO: 25377724
SYN: CLASS: 291
NAME: Pentyl Acetate CASNO:
SYN: (See Amyl Acetate) CLASS:
NAME: Perchioric Acid CASNO: 07601903
SYN: CLASS: 370
NAME:. Perchloric Acid, <30% CASNO: 07601903
SYN: CLASS: 370
NAME: Perchioric Acid, 30-70% CASNO: . 07601903
SYN: CLASS: 370
NAME: . Perchloroethylene CASNO:
SYN: (See Tetrachloroethylene) CLASS:
NAME: Phenetole . CASNO:
SYN: (See Phenyl Ethyl Ether) CLASS:
NAME: Phenol CASNO: 00108952
SYN: Carbolic Acid CLASS: 316
NAME: Phenol, <30% CASNO: 00108952
CLASS: 316
NAME: Phenol, 30-70% CASNO: 00108952
SYN: CLASS: 316’
.NAME: Phenol, >70% CASNO: 00108952
SYN: CLASS: 316
NAME: Phenolphthalein CASNO: 00077098
SYN: CLASS: 314
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Phenyl Dichloroarsine CASNO:
SYN: (See Dichlorophenylarsine) CLASS:
NAME: Phenylenediainine CASNO: 00108452
SYN: CLASS: 147
NAME: Pheny1 Ethyl Ether CASNO: - 00103731
SYN: Phenetole CLASS: 243
NAME: Phenyl Glycidyl Ether CASNO: 00122601
SYN: CLASS: 275
NAME: Phenyihydrazine CASNO: 00110063
SYN: CLASS: 280
NAME: Phosgene CASNO: 00075445
SYN: Carbonyl Chloride CLASS: 350
NAME: Phosphine CASNO:
SYN: (See Hydrogen Phosphide) CLASS:
NAME: Phosphoric Acid CASNO: 07664382
SYN: CLASS: 370
NAME: Phosphoric Acid, <30% CASNO: 07664382
.SYN: CLASS: 370
NAME: Phosphoric Acid, 30-70% CASNO: 07664382
SYN: CLASS: 370
NAME: Phosphoric Acid, >70% CASNO; 07664382
SYN: CLASS: 370
NAME: Phosphorus Oxychloride CASNO: 10025873
SYN: CLASS: 370
NAME: Phosphorus Trichloride CASNO: 07719122
SYN: CLASS: 370
NAME: 4-Pi coline CASNO: 00108894
SYN: CLASS: 271
B—44
-------�
CHEMICAL NAMES AND SYNONYMS
NAME:
alpha-Picoline
CASNO:
00109068
SYN:
Methylpyridine,2
CLASS:
271
NAME:
Picric Acid
CASNO:
00088891
SYN:.
Trinitrophenol,2,4,6
CLASS:
316 442
NAME:
Pic.ric Acid, <30%
CASNO:
00088891
SYN:
CLASS:
316 442
NAME:
Pinene (all isomers)
CASNO:
25766181
SYN:
CLASS:
291
•
NAME:
l-Ptperazineethanamine
CASNO:
00140318
SYN:
.
CLASS:
146.
NAME:
Piperidine
CASNO:
00110894
SYN:
.
CLASS:
274
NAME:
Polychiorinated Biphenyis (PCBs)
CASNO:
01336363
SYN:
Aroclor
CLASS:
265
NAME:
Potassium Dichromate
.
CASNO:
07778509
SYN:
CLASS:
340
NAME:
Potassium Hydroxide
CASNO:
01310583
SYN:
CLASS:
380
NAME:
Potassium Hydroxide; <30%
CASNO:
01310583
SYN:
•
CLASS:
380
NAME:
Potassium Hydroxide, 30-70%
CASNO:
01310583
SYN:
CLASS:
380
• NAME:
Potassium Bromide
CASNO:
07758023
• SYN:
CLASS:
340
NAME: •
Potassium Chloride
CASNO:
03811049
SYN:
CLASS:
340
•
• NAME:
Potassium Cyanide
CASNO:+,
00151508
SYN:
CLASS:
215 340
•
B—45
-------�
CHEMICAL NAMES AND SYNONYMS
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
00058333
00074986
291
00057578
400
00123386
121
00079094
102
00123626
161
00109604
222
Promethazinehydrochloride
CASNO:
.
CLASS:
Propane
CASNO:
CLASS:
Propane Dinitrile
CASNO:
(See Malonitrile)
CLASS:
Propane triol ,l,2, 3
CASNO:
(See Glycerol)
CLASS:
Propanol
CASNO:
•(See Propyl Alcohol)
CLASS:
Propanol, 2-
CASNO:
(See Isopropyl Alcohol)
CLASS:
Propargyl Alcohol
CASNO:
CLASS:
Propeneamide, 2
CASN0
(See Acrylamide)
CLASS:
beta-Propiolactone
.
CASNO:
•
.
CLASS:
Propionaldehyde
•
CASNO:
CLASS:
Propionic Acid
CASNO:
.
CLASS:
Propionic Anhydride
CASNO:
CLASS:
Propionitrile
CASNO:
(See Ethyl Cyanide)
CLASS:
Propyl Acetate
CASNO:
00107197
311
B—46
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Propyl Acetate, >70% CASNO: 00109604
SYN: CLASS: 222
NAME: Propyl Alcohol CASNO: 00071238
SYN: Propanol CLASS: 311
NAME: n-Propylani ine CASNO: 00107108
SYN: CLASS: 141
NAME: Propyl Chloride CASNO: 00540545
SYN:’ Chioropropane, 1 CLASS: 261
NAME: Propylenediamine CASNO: 00078900
SYN: CLASS: 144
NAME: Propylene Dichloride CASNO: 00078875
SYN: Dichlóropropane 1,2 CLASS: 261
NAME: Propylene Glycol CASNO: 00057556
SYN: CLASS: 314
NAME: Propylene Oxide CASNO: 00075569
SYN: CLASS: 275
NAME: 1,3-Propylene Oxide CASNO: 00503300
SYN: CLASS: 275
NAME: Propylenimine,1,2 CASNO:
SYN: (See 2-Methylaziridine) CLASS:
NAME: Propylmethacrylate CASNO: 02210288
SYN: CLASS: 223
-NAME: Pyrethrins CASNO: 00121299
SYN: CLASS: 223
NAME: Pyridine CASNO: 00110861
SYN: CLASS: 271
NAME: Pyrrole CASNO: 00109977
SYN: CLASS: 142
B- 47
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Quinoline CASNO: 00091225
SYN: CLASS: 272
NAME: Resorcinol CASNO: 00108463
SYN: Benzendiol,1,3 CLASS: 316
NAME: Safrole CASNO: 00094597
SYN: CLASS: 278
NAME: Silver Nitrate CASNO: 07761888
SYN: CLASS: 340
NAME: -S-odIum Chloride CASNO: 07647145
• SYN: CLASS: 340
NAME: Sodium Cyanide CASNO: 00143339
SYN: CLASS: 215
NAME: Sodium Cyanide, <30% CASNO:. 00143339
SYN: CLASS: 215
NAME: So4iuiu Cyanide, 30-70% CASNO: 00143339
SYN: CLASS: 215
NAME: Sodium Hydroxide • CASNO: 0l310732
SYN: CLASS: 380
NAME: Sodium Hydroxide, <30% CASNO: •0131Ô732
SYN: CLASS: 380
NAME: Sodium Hydroxide, 30-70% CASNO: 01310732
SYN: CLASS: 380
NAME: Sodium Hydroxide, >70% CASNO: 01310732
SYN: • CLASS: 380
NAME: Sodium Hypochlorite CASNO: 07681529
SYN: CLASS: 340
NAME: So4ium Hypochiorite, 30-70% CASNO: 07681529
SYN: CLASS: 340
B—48
-------�
CHEMICAL NAMES AND SYNONYMS
NAME’: Sodium Pentachlorophenate CASNO: 00131522
SYN: CLASS: 292
NAME: Sodiumpentachlorophenate, <30% CASNO: 00131522
SYN: , CLASS: 292
NAME: Sodium Silicate CASNO: 01344098
SYN: ‘ CLASS: 340
NAME’: Sodium Sulfate CASNO: 07681381
SYN: CLASS: 340
NAME: Sodium Sulfide CASNO: 01313822
SYN: ‘ CLASS: 340
NAME: ‘Sodium Thiosulfate CASNO: 07772987
SYN: , CLASS: 340
NAME: Stannous Chloride CASNO: 07772998
SYN: ‘ CLASS: , 340
NAME: Stearic Acid CASNO: 00057114
SYN: ‘ ‘ CLASS: 102
NAME: Styrene CASNO: 00100425
SYN’: ‘ ‘ CLASS: 292
NAME: Sulfuric Acid CASNO: 07664939
SYN: ; CLASS: 370
NAME: Sulfuric Acid, <30% CASNO: 07664939
SYN: CLASS: 370
NAME: Sulfuric Acid, 30-70% CASNO: 07664939
SYN: ‘ ‘ CLASS: 370
NAME: ‘ Sulfuric Acid, >70% CASNO: 07664939
SYN: ‘ CLASS: 370
NAME: Sulfur Monochloride CASNO: 12771083
SYN: CLASS: 370
B-4 9
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Sulfurus Acid CASNO: 07782992
SYN: CLASS: 370
NAME: TNT CASNO:
SYN: (See 2,4,6-Trinitrotoluene) CLASS:
NAME: Tannic Acid CASNO: 01401554
SYN: CLASS: 224
NAME: Tannic Acid, <30% CASNO: 01401554
SYN: CLASS: 224
NAME: Tannic Acid, 30-70% CASNO: 01401554
SYN: CLASS: 224
NAME: Tannic Acid, >70% CASNO: 01401554
SYN: CLASS: 224
NAME: Terpineol CASNO: 08000417
SYN: CLASS: 313
NAME: Tetrabromoniethane CASNO:
SYN: (See Carbontetrabromide) CLASS:
NAME: Tetrabutyl. Orthotitanate CASNO: 05593704
SYN: CLASS: 233
NAME: 1,2,4,5-Tetrachlorobenzene CASNO: 00095943
SYN: CLASS: 263
NAME: Tetrachlorodif].uoroethane CASNO: 28605745
SYN: CLASS: 261
NAME: 1,1,1,2-Tetrachioroethane CASNO: 00630206
SYN: CLASS: 261
NAME: 1, 1,2,2-Tetrachioroethane CASNO: 00079345
SYN: CLASS: 261
NAME: Tetrachioroethylene CASNO: 00127184
SYN: Perchioroethylene CLASS: 261
B-5O
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Tetrachloromethane CASNO:
SYN: (See Carbon Tetrachioride) CLASS:
NAME: Tetraethyldithiopyrophosphate CASNO: 03689245
SYN: Dithiophosphoric Acid CLASS: 460
NAME: Tetraethy lenepentamine CASNO: 00112572
• SYN: . CLASS: 144
NAME:’ Tetraethyllead CASNO: 00078002
SYN:’ CLASS: 461
• NAME: Tetrafluoroboric Acid CASNO:
SYN: •(.See Fluoroboric Acid) CLASS:
NAME: Tetraflüoroethylene CASNO: .00116.143
SYN: “ CLASS: • 261
NAME: Tetrahydrofuran • CASNO: 00109999
SYN: CLASS: 277
NAME: 1, 2,3, 4-Tetrahydronaphthalene CASNO: 00119642
SYN: • Tetralin . CLASS: 292
NAME: Tetralin • CASNO:
SYN: (See 1,2,3,4-Tetrahydronaphthalene) CLASS:
NAME: N,N,N’,N’-Tetramethylenediaxnine • CASNO: 00110189
SYN: • ‘ • CLASS: 144
NAME: Tetranitroniethane ‘ CASNO: 00509148
SYN: ‘ CLASS: 441
NAME: Thionyl Chloride CASNO: 07719097
SYN: • • CLASS: 501
NAME: Thiophene • CASNO: 00110021
•SYN: , • ‘ CLASS: 502 279
NAME: Thiophenol CASNO: 00108985
SYN: Benzenethiol CLASS: 501
3-51
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Titanium Tetrachioride CASNO: 07550450
SYN: CLASS: 461
NAME: Toluene CASNO: 00108883
SYN: . . CLASS: 292
NAME: Toluene;Diisocyanate . cASNO: 26471625
SYN: CLASS: 210
NAME: p-Toluenesulfonic Acid CASNO: . 00104154
SYN: .: CLASS: ‘504
NAME: o-Toluidine CASNO: 00095534
SYN: CLASS: 146
NAME: Triacetine CASNO:
SYN: (See Glycerin Triacetate) . CLASS:
NAME: Triallylamine CASNO: 00102705
SYN: CLASS: 143
NAME: ‘Tributyl Phosphate ‘ CASNO: 00126738
SYN: CLASS: 460
NAME: TrichIoroacetaldehyde ‘ CASNO: 00075876
SYN: Ch lora l . CLASS: . 121 262.
NAME: Trichloroacetic Acid CASNO: 00760390
SYN: CLASS: 103
NAME: Trichloroacetic Acid CASNO: 00076039
SYN: ‘ CLASS: 103
NAME: Trichioroacetonitrile . CASNO: 00545062
SYN: CLASS: 431
NAME: 1,2,4-Trichlorobenzene CASNO: . 00120821
SYN: ‘ CLASS: 263
NAME: 1,1,2-Trichioroethane CASNO: 00079005
SYN: CLASS: 261
B— 52
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Trichloroethane,1,1,1 CASNO:
SYN: (See Methyl Chloroform) CLASS:
NAME: 2,2,2-Trichioroethanol CASNO: 00115208
SYN: CLASS: 311 262
NAME: Trichioroethene .CASNO:
SYN: (See Trichloroethylene) CLASS:
NAME.: Trichioroethylene CASNO: 00079016
SYN: Trichioroethene CLASS: 261
NAME: Trichioromethane CASNO:
SYN: (See Chloroform) CLASS:
NAME: Trichioromethanethiol CASNO: 00075707
SYN: CLASS: 262 501
NAME: Trichloromethyl-benzene CASNO:
SYN: (See Benzotrichloride) CLASS:
NAME: 1,2, 3-Trichloropropane CASNO: 00096184
SYN: CLASS: 261
NAME: Tricresyl Phosphate CASNO: 01330785
SYN: Tritolyl Phosphate CLASS: 460
NAME: Triethanolamine CASNO: 00102716
SYN: CLASS: 143
NAME: Triethanolamine, >7C% CASNO: 00102716
SYN: S CLASS: 143
NAME: Triethyl Aluminum CASNO: 00097938
SYN: CLASS: 461
• NAME: Triethylamine S CASNO: 00121448
SYN: S CLASS: 143
NAME: • Trlethy lenetetraamine CASNO: 00112243
SYN • CLASS: 144
B—5 3
-------�
CHEMICAL NAMES AND SYNONYMS
NAME: Trifluoroethano]. CASNO: 00075898
SYN: CLASS: 311 262
NAME: Triisooctyl Phosphate CASNO: 25103122
SYN: CLASS: 233 460
NAME: Trimethylainine CASNO: 00075503
SYN: CLASS: 143
NAME: 2 ,2,4-Trimethylpentane CASNO: 00540841
SYN: CLASS: 291
NAME: 2 , 4 , 4 -Trimethyl-1-pentene CASNO: 00107391
SYN: CLASS: 291
NAME: Trinitrophenol,2,4,6 CASNO:
SYN: (See Picric Acid) CLASS:
NAME: 2 ,4,6-Trinitrotoluene CASNO: 00118967
SYN: TNT CLASS: 441
NAME: Trioctyl Phosphine CASNO: 04731537
SYN: CLASS: 461
NAME: Tri-n-propylamine CASNO: 00102692
SYN: CLASS: 143
NAME: Tris(2,3-dibromopropyl) Phosphate CASNO: 00126727
SYN: CLASS: 460
NAME: Tritolyl Phosphate CASNO:
SYN: (See Tricresyl Phosphate) CLASS:
NAME: Turpentine CASNO: 08006642
SYN: CLASS: 291
NAME: Urea CASNO: 00057136
SYN: CLASS: 1.32
NAME: Valeronitrile CASNO: 00110598
SYN: CLASS: 431
B—54
-------�
CHEMICAL NAMES AND SYNONYMS
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
NAME:
SYN:
Vinyl Acetate
CASNO:
00108054
.
CLASS:
222
Vinyl Chloride
CASNO:
00075014
Chioroethene
CLASS:
267
.4-Vinyl -1- cyclohexane
CASNO:
00100403
CLASS:
291
Vinylidene Chloride
CASNO:
00075354
Dichloroethylene,l,l
CLASS:
267
Vinylidene Fluoride
CASNO:
00075387
.
CLASS:
267
Water
CASNO:
07732185
.
CLASS: .
560
NAME:
Xylene
CASNO:
00133207
SYN:
CLASS:
292
NAME:
m-Xylene
CASNO:
00108383
SYN:
. .
CLASS:
292
.
NAME:
o-Xylene .
.
CASNO:
00095476
SYN:.
CLASS:
292
.
NAME:
p-Xylene
.
CASNO:
00106423
SYN:
.
CLASS:
292
B-55
-------�
APPENDIX C
PRODUCT INDEX
c—i
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
ACRYLIC(002)
Product: Acrylic, Face Shield and Lens
097 09 Leonard Safety Epuipment, Inc.(D)
097 09 Protech Safety Equipment Inc.(D)
BUTYL(003)
Product: Butyl Rubber Latex Glove, Unsupported
012 00 Direct Safety Conipany(D)
012 00 Hub Safety Equipment, Inc.(D)
012 00 Latex Glove Co., Inc(M)
012 00 Mine Safety Appliances Co.(M)
012 00 North Hand Protection(M)
012 00 Protech Safety Equipment Inc.(D)
012 00 Safeco Inc.(D)
Product: Butyl Rubber Latex Glove, Supported
013 00 Latex Glove Co., Inc(M)
013 00 Mine Safety Appliances Co.(M)
Product: Butyl Rubber Glove, Solvent Dipped, Unsupported
014 00 LRC Safety Products Co.(D)
014 00 North Hand Protection(M)
Product: Butyl Rubber, Sheet
034 03 Record Industrial Co.(M)
034 05 Andover Industries, Inc.(M)
034 07 General Scientific Safety Equipment Company(D)
034 07 Safety Engineering & Supply Co.(D)
034 07 Tingley Rubber Corp.(M)
Product: Butyl Rubber/Nylon
064 03 General Scientific Safety Equipment Company(D)
• 064 03 Steel Grip Safety Apparel Co., Inc.(M)
064 05 Major Safety Service, Inc.(D)
064 06 United States Safety Service Co.(D)
Product: Butyl Rubber, Boots
085 08 Tingley Rubbei Corp.(M)
C— 2
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Butyl/Fabric/Butyl
130 05 Fyrepel Products Inc.(M)
Product: Butyl/Nylon/Butyl
140 01 Record Industrial Co.(M)
140 04 Record Industrial Co.(M)
140 05 Coodall Rubber Company(M)
140 05 Trelleborg, Inc.(M)
BUTYL/NEOPRENE (038)
Product: Butyl/Polyester/Ch loroprene Rubber
110 05 Mine Safety Appliances Co.(M)
CELLULOSE ACETATE(001)
Product: Cellulose Acetate, Face Shield and Lens
099 09 Allied Glove & Safety Products Corp. (M)
099 09 Arbill Inc.(D)
099 09 Cesco Safety Products(M)
0.9 09 Direct Safety Company(D)
099 09 Eastco Industrial Safety Corp.(D)
099 09 Fisher Scientific Company(D)
099 09 General Scientific Safety Equipment Company(D)
099 09 Hub Safety Equipment, Inc.(D)
099 09 Inco Safety Products Co.(M)
099 09 Industrial Safety and Security Co.(D)
099 09 Latex Glove Co., Inc(M)
099 09 Leonard Safety Epuipnient, Inc.(D)
099 09 Magid Glove and Safety Mfg. Co.(M)
099 09 Masterman’s(D)
099 09 Protech Safety Equipment Inc.(D)
099 09 Pulmosan Safety Equipment Corp.(D)
099 09 Rockford Medical & Safety Co.(D)
099 09 The Sager Corporation(M)
099 09 Willson Safety Products(M)
CELLULOSE PROPIONATE(0O5)
Product: Cellulose Propionate, Face Shield and Lens
094 09 Eastco Industrial Safety Corp.(D)
094 09 Industrial Safety and Security Co.(D)
094 09 Interex Corp.(D)
094 09 Leonard Safety Epuipment, Inc.(D)
094 09 Rockford Medical & Safety Co.(D)
094 09 The Sager Corporation(M)
094 09 Wilison Safety Products(M)
C— 3
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
CFILOROBUTYL(006)
Product: Chiorobutyl Rubber/Nomex
052 05 ILC Dover(M)
Product: Chlorobutyl/Nomex/Chlorobutyl
142 05 Arrowhead Products(M)
CPE(007)
Product: Chlorinated Polyethylene
060 01 ILC Dover(M)
060 01 Jones Safety Supply, Inc.(D)
060 01 Safety Engineering & Supply Co.(D)
060 01 Safety First Industries(M)
060 03 Safety First Industries(M)
060 04 ILC Dover(M)
060 04 Jones Safety Supply, Inc.(D)
060 04 Safety Engineering & Supply Co.(D)
060 04 Safety First Industries(M)
060 05 ILC Dover(M)
060 05 •Jones Safety Supply, Inc.(D)
060 05 Safety First Industries(M)
060 06 ILC Dóver(M)
060 06 Jones Safety Supply, Inc.(D)
060 06 Safety First Industries(M)
CR 39(008)
Product: Cr 39, Lens and Face Shield
095 09 PPG Industries, Inc.(S)
095 09 SCL Homalite Industries(S)
GORE-TEX(0l8)
Product: Microporous Teflon/Polyester
092 01 Coodall Rubber Company(M)
092 02 Body-Guard(M)
092 02 Goodall Rubber Conipany(M)
092 02 Vidaro Corp.(M)
092 04 Coodall Rubber Conipany(M)
092 06 Goodall Rubber Company(M)
C— 4
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
NAT+NEOP+NBR(O19)
Product: Natural Rubber+Chloroprene+Nitrile Glove, Unsupported
023 00 Allied Glove & Safety Products Corp.(M)
023 00 Industrial Safety and Security Co. (D)
023 00 Keystone Protection Corp.(D)
023 00 Leonard Safety Epuipmeñt, Inc.(D)
023 00 Pioneer Industrial Products Co.(M)
NATURAL RUBBER(013)
Product: Natural Rubber Latex Glove, Supported
001 00 Allied Glove & Safety Products Corp.(M)
001 00 Best Manufacturing Company(M)
001 00 Boss Manufacturing Company(M)
001 00 Comasec(M)
001 00 Eastco Industrial Safety Corp.(D)
001 00 .Edmont.Div. Becton, Dickinson & Co.(M)
001 00 General Scientific Safety Equipment Company(D)
001 00 Goodyear Rubber Products Corp.(S)
001 00 Granet(M),
001 00 Holland Safety Supply Co.(D)
001 00 IPESC0., Inc.(M)
001 00 Industrial Products Co., Inc.(D)
001 00 Industrial Safety and Security Co.(D)
001 00 Interéx Corp.(D)
001 00 Intermarket Latex, Inc.(M)
001 00 Keystone Protection Corp..(D)
001 00 Latex Glove Co., Inc(M)
001 00 Magid Glove and Safety Mfg. Co.(M)
001 00 Masterman’s(D)
001 00 Miller Products Co., Inc.(D)
001 00 Mine Safety Appliances Co.(M)
001 00 Monte Glove Company(M)
001 00 Protech Safety Equipment Inc.(D)
001 00 Safeco Inc.(D)
001 00 W.H. Salisbury & Co.(M)
001 00 Standard Glove & Safety Equip. Corp.(D)
001 00 Stauffer Manufacturing Company(M)
001 .00 H. Texier Glove Company Inc.(D)
Product: Natural Rubber Clove, Solvent Dipped, Unsupported
015 00 Arbill Inc.(D)
015 00 North Hand Protection(M)
C— 5
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Natural Rubber Latex Clove, Unsupported
017 00 Allied Glove & Safety Products Corp.(M)
017 00 Ansell Industrial Products(M)
017 00 Best Manufacturing Company(M)
017 00 Boss Manufacturing Company(M)
017 00 Comasec(M)
017 00 Dayton Flexible Products(M)
017 00 Defense Apparel(M)
017 00 Eastco Industrial Safety Corp.(D)
017 00 Edniont Div. Becton, Dickinson & Co.. (M)
017 00 General Scientific Safety Equipment Company(D)
017 00 Clover Latex, Inc.(M)
017 00 Goodyear Rubber Products Corp.(S)
017 00 Cranet(M)
017 00 Holland Safety Supply Co.(D)
017 00 .IPESCo., Inc.(M)
017 00 Industrial Products Co., Inc.(D)
017 00 Industrial Safety and Security Co.(D)
017 00 Interex Corp.(D)
017 00 Intermarket Latex, Inc.(M)
017 00 Keystone Protection Corp.(D)
017 00 LRC Safety Products Co.(D)
017 00 Latex Clove Co., Inc(M)
017 00 Leonard Safety Epuipment, Inc.(D)
017 00 Magid Clove and Safety Mfg. Co.(M)
017 00 Masterman’s(D)
017 00 Memphis Clove Company(M)
017 00 Miller Products Co., Inc.(D)
017 00 Mine Safety Appliances Co.(M)
017 00 North Hand Protection(M)
017 00 Pioneer Industrial Products Co.(M) -
017 00 Protech Safety Equipment Inc.(D)
O17 00 Renco Corp(M)
017 00 Robar Protective Products(D)
017 00 Rockford Medical & Safety Co.(D)
017 00 Safeco Inc.(D)
017 00 W.H. Salisbury & Co.(M)
017 00 Standard Clove & Safety Equip. Corp.(D)
017 00 Stauffer Manufacturing Company(M)
017 00 H. Texier Clove Company Inc.(D)
Product: Natural Rubber, Sheet
045 03 Masterman’s(D)
045 06 General Scientific Safety Equipment Company(D)
045 07 Allied Clove & Safety Products Corp.(M)
045 07 Arbill Inc.(D)
045 07 Boss Manufacturing Company(M)
C— 6
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant -
Material Code Type Vendor Name
Product: Natural Rubber, Sheet (cont.)
045 07 Defense Apparel(M)
045 07 La Crosse Footwear, Inc.(M)
045 07 Latex Glove Co., Inc(M)
045 07 Lehigh Safety Shoe Co.(M)
045 07 Leonard Safety Epuipment, Inc.(D)
045 07 Magid Glove and Safety Mfg. Co.(M)
045 07 Ranger(M)
045 07 Record Industrial Co.(M)
045 07 Safety Engineering & Supply Co. (D)
045 07 Tingley Rubber Corp.(M)
Product: Natural Rubber, Boots
080 08 Allied Glove & Safety Products Corp.(M)
080 08 Arbill Inc.(D)
080 08 Boss Manufacturing Company(M)
080 08 Direct Safety Company(D)
080 08. Eastco Industrial Safety Corp.(D)
080 08 Interex Corp.(D)
080 08 Iron Age Protective Company(M)
080 08 Jordan David Safety Products(M)
080 08 LaCrosse Footwear, Inc.(M)
080 08 Latex Glove Co., Inc(M)
080 08 Lehigh Safety Shoe Co.(M)
080 08 Leonard Safety Epuipment, Inc.(D)
080 08 Masterman’s(D)
080 08 Miller Products Co., Inc.(D)
080 08 Rainfair, Inc.(M)
080 08 Record Industrial Co.(M)
080 08 Robar Protective Products(D)
080 .08 Safety Engineering & Supply Co.(D)
080 08 Tingley Rubber Corp.(M)
Product: Natural Rubber/Nylon
087 03 Frommelt Industries, Inc.(M)
Product: Natural Rubber/Cotton
089 01 Boss Manufacturing Company(M)
089 01 Record Industrial Co.(M)
089 02 Boss Manufacturing Company(M)
089 03 Boss Manufacturing Company(M)
089 03 Direct Safety Company(D)
089 03 Fisher Scientific Conipany(D)
089 03 Protech Safety Equipment Inc.(D)
089 03 Rockford Medical & Safety Co.’(D)
C— 7
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Natural Rubber/Polyester
136 01 Plastex Protective Products, Inc.(M)
136 03 Standard Glove & Safety Equip. Corp.(D)
136 04 Plastex Protective Products, Inc.(M)
136 06 Plastex Protective Products, Inc.(M)
NEOP+NAT RUBBER(015)
Product: Chloroprene+Natural Rubber Latex Glove, Unsupported
026 00 Ansell Industrial Products(M)
026 00 Arbill Inc.(D)
026 00 Clean Room Products, Inc.(M)
026 00 Eastco Industrial Safety Corp.(D)
026 00 Hub Safety Equipment, Inc.(D)
026 00 Industrial Products Co., Inc. (D)
026 00 Intermarket Latex, Inc.(M)
026 00 International Playtex, Inc.(M)
026 00 Keystone Prot ction Corp.(D)
NEOP/NAT RUBBER(039)
Product: Cloroprene/Natural Rubber Latex Glove, Unsupported
008 00 Ansell Industrial Products(M)
008 00 Industrial Products Co., Inc.(D)
NEOPRENE(016)
Product: Chloroprene Latex Clove, Supported
002 00 Allied Clove & Safety Products Corp.(M)
002 00 Arbill Inc.(D)
002 00 Best Manufacturing Company(M)
002 00 Boss Manufacturing Company(M)
002 00 Comasec(M)
002 00 Eastco Industrial Safety Corp.(D)
002 00 Edmont Div. Becton, Dickinson & Co.(M)
002 00 General Scientific Safety Equipment Company(D)
002 00 Goodyear Rubber Products Corp.(S)
002 00 Granet(M)
002 00 Holland Safety Supply Co.(D)
002 00 Hub Safety Equipment, Inc.(D)
002 00 IPESCo., Inc.(M)
002 00 Industrial Products Co., Inc.(D)
002 00 Industrial Safety and Security Co.(D)
002 00 Interex Corp.(D)
002 00 Intermarket Latex, Inc.(M)
002 00 Keystone Protection Corp.(D)
002 00 Latex Clove Co., Inc(M)
002 00 Leonard Safety Epuipment, Inc.(D)
C— 8
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Chloroprene Latex Glove, Supported (cont.)
002 00 Magid Glove and Safety Mfg. Co.(M)
002 00 Major Safety Service, Inc.(D)
002 00 Masterman’s(D)
002 00 Miller Products Co., Inc.(D)
002 00 Mine Safety Appliances Co.(M)
002 00 Monte GloveCompany(M)
002 00 OKI Supply Co.(M)
002 00 Pioneer Industrial Products Co.(M)
002 00 Protech Safety Equipment Inc.(D)
002 00 Rockford Medical & Safety Co.(D)
002 00 Safeco Inc.(D)
002 00 Standard Glove & Safety Equip. Corp.(D)
002 00 Stauffer Manufacturing Company(M)
002 00 H. Texier Glove Company Inc.(D)
002 00 Trelleborg, Inc.(M)
002 00 Wheeler Protective Apparel, Inc.(M)
Product: Chloroprene Milled/Chloroprene Latex Glove, Unsupported
010 00 AlliedGlove & Safety Products Corp.(M)
010 00 Arbill Inc. (D)
010 00 Boss Manufacturing Company(M)
010 00 Direct Safety Company(D)
010 00 Industrial Safety and Security Co.(D)
010 00 Keystone Protection Corp.(D)
010 00 Leonard Safety Epuipment, Inc.(D)
010 00 Pioneer Industrial Products Co.(M)
Product: Chioroprene Rubber Latex (Baypren) Glove, Unsupported
011 00 Allied Glove & Safety Products Corp.(M)
Oil 00 Best Manufacturing Company(M)
011 00 Direct Safety Company(D)
011 00 Eastco Industrial Safety Corp.(D)
011 00 Granet(M)
011 00 IPESCo., Inc.(M)
011 00 Interex Corp.(D)
011 00 Safeco Inc.(D)
Product: Chloroprene Rubber Latex Glove, Unsupported
018 00 Allied Clove & Safety Products Corp.(M)
018 00 Ansell Industrial Products(M)
018 00 Best Manufacturing Company(M)
018 00 Eastco Industrial Safety Corp.(D)
018 00 Edmont Div. Becton,. Dickinson & Co.(M)
018 00 General Scientific Safety Equipment Company(D)
018 00 Goodyear Rubber Products Corp.(S)
018 00 Holland Safety Supply Co.(D)
018 00 Hub Safety Equipment, Inc.(D)
C—9
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Chioroprene Rubber Latex Clove, Unsupported (cont.)
018 00 IPESCo., Inc.(M)
018 00 Industrial Products Co., Inc.(D)
018 00 Industrial Safety and Security Co.(D)
018 00 Interex Corp.(D)
018 00 Intermarket Latex, Inc.(M)
018 00 Keystone Protection Corp.(D)
018 00 LRC Safety Products Co.(D)
018 00 Latex Glove Co., Inc(M)
018 00 Leonard Safety Epuipment, Inc.(D)
018 00 Magid Glove and Safety Mfg. Co.(M)
018 00 Masterman’s(D)
018 00 Memphis Glove Company(M)
018 00 Mine Safety Appliances Co.(M)
018 00 Pioneer Industrial Products Co.(M)
018 00 Protech Safety Equipment Inc.(D)
018 00 Renco Corp(M)
018 00 Rockford Medical & Safety Co.(D)
018 00 Safeco Inc.(D)
018 00 Standard Glove & Safety Equip. Corp.(D)
018 00 Stauffer Manufacturing Company(M)
018 00 1-i. Texier Glove Company Inc.(D)
Product: Chloroprene Rubber, Sheet
031 01 Miller Products Co., Inc.(D)
031 02 Miller Products Co., Inc.(D)
031 03 Acme Mills Company(M)
031 03 Arbill Inc.(D)
031 03 Boss Manufacturing Company(M)
031 03 Magid Glove and Safety Mfg. Co.(M)
031 03 Masterman’s(D)
031 04 Miller Products Co., Inc.(D)
031 05 Andover Industries, Inc.(M)
031 06 Miller Products Co., Inc.(D)
031 07 General Scientific Safety Equipment Company(D)
031 07 Ranger(M)
031 07 Record Industrial Co.(M)
031 07 Safety Engineering & Supply Co.(D)
031 07 Tingley Rubber Corp.(M)
Product: Chloroprene Rubber/Polyester
051 02 Boss Manufacturing Company(M)
051 03 Fairway Products(M)
051 03 LRC Safety Products Co.(D)
051 03 Pulmosan Safety Equipment Corp.(D)
051 04 Boss Manufacturing .Company(M)
051 06 Boss Manufacturing Company(M)
c—lU
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Chioroprene Rubber, Boots
081 08 Allied Clove & Safety Products Corp.(M)
081 08 Boss Mañufaëturing Company(M)
081 08 Eastco Industrial Safety Corp.(D)
081 08 General Scientific Safety Equipment Company(D)
081 08 Keystone ProtectionCorp.(D)
081 08 La Crosse Footwear, Inc.(M)
081 08 Latex Glove Co., Inc(M)
081 08 Lehigh Safety Shoe Co.(M)
081 08 Magid Glove and, Safety Mfg. Co.(M)
081 08 Masterman’s(D)
081 08 Protech Safety Equipment Inc. (D)
081 08 Rainfair, Inc.(M)
081 08 Record Industrial Co.(M)
081 08 Robar’ Protective Products(D)
081 08 Safety Engineering & Supply Co.(D)
081 08 Standard Safety Equipment Co.(M)
081 08 Ting1ey,P ubber Corp.(M)
Product: Chioroprene Rubber/Nylon
093 01 Eastco Industrial Safety Corp.(D)
093 01 Encon Manufacturing Co.(M)
093 01 Keystone Protection Corp.(D)
093 01 Marathon Rubber(M)
093 01 Miller Products Co., Inc.(D)
093 01 Mine Safety Appliances ço.(M)
093 ‘ 01 National Safety Wear, Inc.(M)
093 01 . Protech Safety Equipment Inc.(D)
093 01 ‘ Protexall Company(M)
093 01 Rainfair, Inc.(M)
093 01 Record Industrial Co.(M)
093 01 Safeco Inc.(D)
093 01 Safety Engineering & Supply Co.(D)
093 01 Safety First Industries(M)
093 01 Sawyer-Tower(M)
093 01 Tingley Rubber Corp.(M)
093 02 ‘ Encon Manufacturing Co.(M)
093 02 Keystone Protection Corp.(D)
093 ‘02’ Marathon Rubber(M)
093 02 ‘ Miller Products Co., Inc.(D)
093 03 Enéon Manufacturing Co.(M)
093 03 Protexall Company(M)
093 03 Safety First Industries(M)
093 04 Eastco, Industrial Safety Corp.(D)
093 04 Encon Manufacturing Co.(M)
093 04 Keystone Protection Corp.(D)
093 04 Marathon Rubber(M)
c—il
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Chioroprene Rubber/Nylon (cont.)
093 04 Miller Products Co., Inc.(D)
093 04 Mine Safety Appliances Co.(M)
093 04 National Safety Wear, Inc.(M)
093 04 Protech Safety Equipment Inc.(D)
093 04 Rainfair, Inc.(M)
093 04 Record Industrial Co.(M)
093 04 Safeco Inc.(D)
093 04 Safety Engineering & Supply Co.(D)
093 04 Sawyer-Tower(M)
093 04 Tingley Rubber Corp.(M)
093 05 National Draeger, Inc.(M)
093 06 Eastco Industrial Safety Corp.(D)
093 06 Encon Manufacturing Co.(M)
093 06 Keystone Protection Corp.(D)
093 06 National Safety Wear, Inc.(M)
093 06 Rainfair, Inc.(M)
093 06 United States Safety Service Co.(D)
Product: Chloroprene Milled/Chioroprene Latex Glove, Supported
125 00 Direct Safety Company(D)
125 00 Miller Products Co.,, Inc.(D)
Product: Chioroprene Rubber/Fabric
138 01 Safety Engineering & Supply Co.(D)
138 01 Safety First Industries(M)
138 01 Tingley Rubber Corp.(M)
138 01 Wheeler Protective Apparel, Inc.(M)
138 03 Protech Safety Equipment Inc.(D)
138 03 Safety First Industries(M)
138 04 Safety Engineering & Supply Co.(D)
138 04 Tingley Rubber Corp.(M)
138 04 Wheeler Protective Apparel, Inc.(M)
138 06 Wheeler Protective Apparel, Inc.(M)
Product: Chloroprene/Fabric/Chloroprene
139 01 Eastco Industrial Safety Corp.(D)
139 01 Rainfair, Inc.(M)
139 01 Sawyer-Tower(M)
139 04 Eastcc Industrial Safety Corp.(D)
139 04 Rainfair, Inc.(M)
139 04 Sawyer-Tower(M)
139 06 Eastco Industrial Safety Corp.(D)
139 06 Rainfair, Inc.(M)
Product: Chloroprene Rubber/Kevlar
141 01 Safety First Industries(M)
141 03 Safety First Industries(M)
141 04 Safety First Industfles(M)
c—i 2
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
NEOPRENE+PVC (045)
NEOPRENE+SBR RUBBER(017)
01 Direct Safety Company(D)
02 Direct Safety Company(D)
04 Direct Safety Company(D)
06 Direct Safety Comp’any(D)
Product: Chioroprene (35%)+SBR(65%)/Nylon- -Tufflon
01 General Scientific Safety Equipment
01 Sawyer-Tower(M)
04 General Scientific Safety Equipment
04 Sawyer-Towe (M)
Product: Chloroprene(15%)+SBR(85%)/Cotton- -Tuffprene
066 01 General Scientific Safety Equipment
066 01 Protech Safety Equipment Inc.(D)
066 01 Safeco Inc.(D)
066 01 .Sawyer-Tower(M)
066 04 General Scientific Safety Equipment
066 ‘04 Protech Safety Equipment Inc.(D)
066’ 04 Safeco Inc.(D)
066 04 Sawyer-Tower(M)
066 06 ‘General Scientific Safety Equipment
066 06 Protech Safety Equipment Inc.(D)
066 06 Safeco Inc.(D)
066 06 , Sawyer-Tower(M)
005
005
005
005
‘005
005
005
005
005
00
00
00
00
‘OO.
00
00
00
00
Company(D)
Company(D)
Company(D)
Product: Chloroprene+PVC/Polyester
127
127
127
127
065
065
065
065
Company(D)
Company(D)
NITRILE(02l)
Product: Nitrile Rubber Latex Glove, Supported
005 00 Allied Glove & Safety Products Corp.(M)
Arbill Inc.(D)
‘Best Manufacturing Company(M)
Boss Manufacturing Company(M)
Comasec(M) ‘
Eastco Industrial Safety Corp.(D)
Edmont Div. Becton, Dickinson & Co.(M)
General’Scientific Safety Equipment Company(D)
Goodyear Rubber Products Corp.(S)
Granet(M)
C—i 3
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Nitrile Rubber Latex Clove, Supported (cont.)
005. 00 Holland Safety Supply Co.(D)
005 00 IPESCo., Inc.(M)
005 00 Industrial Products Co., Inc.(D)
005 00 Industrial Safety and Security Co.(D)
005 00 Interex Corp.(D)
005 00 Intermarket Latex, Inc.(M)
005 00 Keystone Protection Corp.(D)
005 00 LRC Safety Products Co.(D)
005 00 Latex Clove Co., Inc(M)
005 00 Leonard Safety Epuipment, Inc.(D)
005 00 Magid Glove and Safety Mfg. Co.(M)
005 00 Masterman’s(D)
005 00 Miller Products Co., Inc.(D)
005 00 Monte Glove Cornpany(M)
005 00 North Hand Protection(M)
005 00 Pioneer Industrial Products Co.(M)
005 00 Protech Safety Equipment Inc.(D)
005 00 Robar Protective Products(D)
005 00 Safeco Inc.(D)
005 00 Standard Glove & Safety Equip. Corp.(D)
005 00 Stauffer Manufacturing Company(M)
005 00 H. Texier Glove Company Inc.(D)
Product: Nitrile Rubber Latex Glove, Unsupported
019 00 Allied Glove & Safety Products Corp.(M)
019 00 Ansell Industrial Products(M)
019 00 Arbilllnc.(D)
019 00 Best Manufacturing Company(M)
019 00 Boss Manufacturing Company(M)
019 00 Clean Room Products, Inc.(M)
019 00 Direct Safety Company(D)
019 00 Eastco Industrial Safety Corp.(D)
019 00 Edmont Div. Becton, Dickinson & Co.(M)
019 00 General Scientific Safety Equipment Company(D)
019 00 Clover Latex, Inc.(M)
019 00 Goodyear Rubber Products Corp.(S)
019 00 Granet(M)
019 00 Holland Safety Supply Co.(D)
019 00 Hub Safety Equipment, Inc.(D)
019 00 IPESCo., Inc.(M)
019 00 Industrial Products Co., Inc.(D)
019 00 Industrial Safety and Security Co.(D)
019 00 Interex Corp.(D)
019 00 Intermarket Latex, Inc.(M)
019 00 Keystone Protection Corp.(D)
019 00 LRC Safety Products Ca.(D)
019 00 Latex Glove Co., Inc(M)
019 00 Leonard Safety-Epuipment, Inc.(D)
019 00 Magid Glove and Safety Mfg. Co.(M)
C—14
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Nitrile Rubber Latex Glove, Unsupported (cont.)
019 00 Masterman’s(D)
019 00 Memphis Glove Coinpany(M)
019 00 North Hand Protection(M)
019 00 Pioneer Industrial Products Co.(M)
019 00 Protech Safety Equipment Inc.(D)
019 00 Renco Corp(M)
019 00 Rockford Medical & Safety Co.(D)
019 00 SafecoInc.(D)
019 00 Standard Glove & Safety Equip. Corp.(D)
019 00 Stauffer Manufacturing Company(M)
019 00 H. Texier Glove Company Inc.(D)
Product: Nitrile Rubber Glove, Solvent Dipped, Unsupported
020 00 Ansell Industrial Products(M)
020 00 Industrial Products Co., Inc.(D)
020 00 Intermarket Latex, Inc.(M)
020 00 Keystone Protection Corp.(D)
Product: Nitrile Rubber, Sheet
033 03 Boss Manufacturing Company’(M)
033 03 Record Industrial Co.(M)
033 03 Rockford Medical & Safety Co.(D)
Product: Nitrile Rubber/Polyester
059 03 Protexall Company(M)
Product: Nitrile Rubber/Nylon
078 03 Protech Safety Equipment Inc.(D)
078 03 Safeco Inc.(D)
078 03 Sawyer-Tower(M)
Product: Nitrile Rubber, Boots
084 08 Eastco Industrial Safáty Corp.(D)
084 08 Magid Glove and Safety Mfg. Co.(M)
084 08 Rainfair, Inc.(M)
Product: Nitrile/Fabric
132 01 General Scientific Safety Equipment Company(D)
132 03 Allied Glove & Safety Products Corp.(M)
132 03 Eastco Industrial Safety Corp.(D)
132 03 Edmont Div. Becton, Dickinson & Co.(M)
132 03 Goodyear Rubber Products Corp. (S)
132 03 Holland Safety Supply Co.(D)
132 03 Industrial Products Co., Inc.(D)
C— 15
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PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code
Product:
NITRILE±PVC(O2O)
132
132
132
132
132
132
132
132
132
132
Type Vendor Name
Nitrile/Fabric (cont.)
03 Industrial Safety and Security Co.(D)
O3 Interex Corp.(D)
03 Masterman’s(D)
03 Protech Safety Equipment Inc.(D)
03 Safeco Inc.(D)
03 Standard Glove & Safety Equip. Corp.(D)
03 Stauffer Manufacturing Company(M)
03 H. Texier’ Glove Company Inc.(D)
04 General Scientific Safety Equipment Company(D)
0.5 Eastco Industrial Safety Corp.(D)
Product: Nitrile+PVC Glove, Supported
057 00 Barry Manufacturing Co. Ltd.(M)
057 00 Comasec(M)
057 00 North Hand Protection(M)
Product: Nitrile+PVC/Fabric
058
058
058
058
058
058
058
058
058
• • 058
058
.058
058
058
058
058
058
058
058
058
058
058
.058
058
• • 058
058
058’.
058
058
01
01
01
01
01
01
01
01
01
01
01
01
01
01
01
02
02
02
02
02
02
02
02
02
02
02
03
04’
.04.
Allied Glove & Safety Products Corp.(M)
Eastco Industrial Safety Corp.(D)
Edmont Div. Becton, Dickinson & Co.(M)
Goodyear Rubber Products Corp.(S)
Holland Safety Supply Co. (D)
Industrial Products Co., Inc.(D)
Industrial Safety and Security Co.(D)
Interex Corp.(D)
Masterman’ s (D)
Protech Safety Equipment Inc.(D)
Ràinfair, Inc.(M)
Safeco Inc.(D)
Standard Glove & Safety Equip. Corp.(D)
Stauffer Manufacturing Compariy(M)
H. Texier Glove Company Inc.(D)
Edmont Div. Becton, Dickinson & Co.(M)
Goodyear Rubber Products Corp.(S)
Holland Safety Supply Co.(D)
Industrial Products Co., Inc.(D)
Industrial Safety and Security Co.(D)
Interex Corp.(D)
Masterman’s(D)
Protech Safety Equipment Inc.(D)
Standard Glove & Safety Equip. Corp.(D)
Stauffer Manufacturing Company(M)
H. Téxier Glov ’Company Inc.(D)
Protexail. Coiñ any(M)
‘A1lied’ Glove & Safety Products Corp. (M)
Eastco Industrial Safety’ Corp. (D)
c—l6
-------�
PRODUCT VENDORS BY .ESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Nitrile+PVC/Fabric (cont.)
058 04 Edmont Div. Becton, Dickinson & Co.(M)
058 04 Goodyear Rubber Products Corp.(S)
058 04 Industrial Products Co., Inc.(D)
058 04 Industrial Safety and Security Co.(D)
058 04 Interex Corp. (D)
058 04 Masterman’s(D)
058 04 Protech Safety Equipment Inc.(D)
058 04 Rainfair, Inc.(M)
058 04 Safeco Inc.(D)
058 04 Standard Glove & Safety Equip. Corp.(D)
058 04 Stauffer Manufacturing Company(M)
058 04 H. Texier Glove Company Inc.(D)
058 06 Allied Glove & Safety Products Corp.(M)
058 06 Eastco Industrial Safety Corp.(D)
058 06 Edinont Div. Becton, DickInson & Co.(M)
058 06 Goodyear Rubber Products Corp.(S)
058 06 Holland Safety Supply Co.(D)
058 06 . Industrial Products Co., Inc.(D)
058 06 Industrial Safet.y and Security Co.(D)
058 06 Interex Corp.(D)
058 06 Masterman’s(D)
058 06 Protech Safety. Equipment Inc.(D)
058 06 Rainfair, Inc.(M)
058 06 Safeco Inc.(D)
058 06 Standard Glove & Safety Equip. Corp.(D)
058 06 Stauffer Manufacturing Company(M)
058 06 H. Texier Glove Company Inc.(D)
NONWOVEN FABRIC(024)
Product: Sontara
025 01 Mar-Mac Manufacturing Co., Inc.(M)
025 01 Protech Safety Equipment Inc.(D)
025 02 Mar-Mac Manufacturing Co., Inc.(M)
025 02 Protech Safety Equipment Inc.(D)
025 03 Mar-Mac Manufacturing Co., Inc.(M)
025 03 Protech Safety Equipment Inc.(D)
025 04 Mar-Mac Manufacturing Co., Inc.(M)
025. 04 Protach Safety Equipment Inc.(D)
025 .05 Mar-Mac Manufacturing Co., Inc.(M)
025 06 Mar-Mac Manufacturing Co., Inc.(M)
025 06 Protech Safety Equipment Inc.(D)
025 07 Protech Safety Equipment Inc.(D)
C— 17
-------�
PRODUCT VENDORS BY RESISTANT-MATERIAL
Resistant
Material Code Type Vendor Name
NONWOVEN PE(O3l)
Product: Tyvek
071 01 Allied Clove & Safety Products Corp.(M)
071 01 American Scientific Products(D)
071 01 Arbill Inc.(D)
071 01 Charkate(M)
071 01 Clean Room Products, Inc.(M)
071 01 Coyne Safety Equipment, Inc.(D)
071 01 Daffin Disposables, Inc.(M)
071 01 Direct Safety Company(D)
071 01 Disposables Inc.(M),
071 01 Durafab Disposables, Inc.(M)
071 01 Eastco Industrial Safety Corp.(D)
071 01 Edmont Div. Becton, Dickinson & Co.(M)
071 01 Fisher Scientific Company(D)
071 01 Goodyear Rubber Products Corp.(S)
071 01 Holland Safety Supply Co.(D)
071 01 Hub Safety Equipment, Inc.(D)
071 01 IPESCo., Inc.(M)
071 01 Industrial Products Co., Inc.(D)
071 01 Industrial Safety and Security Co.(D)
071 01 Interex Corp.(D)
071 01 Kappler Disposables, Inc.(M)
071 01 Latex Glove Co., Inc(M)
071 01 Leonard Safety Epuipment, Inc.(D)
071 01 Magid Clove and Safety Mfg. Co.(M)
071 01 Mar-Mac Manufacturing Co., Inc.(M)
071 01 Masterman’s(D)
071 01 Melco,’ Inc.(M)
071 01 Mine Safety Appliances Co.(M)
071 01 Protech Safety Equipment Inc.(D)
071 01 Rockford Medical& Safety Co.(D)
071 01 Safeco Inc.(D)
071 01 Standard Glove & Safety Equip. Corp.(D)
071 01 Stauffer Manufacturing Company(M)
071 01 Superior Surgical Mfg. Co., Inc.(M)
071 01 H. Texier Clove Company Inc.(D)
071 01 United States Plastic Corp.(D)
071 02 Allied Glove & Safety Products Corp.(M)
071 02 American Scientific Products(D)
071 02 Arbill Inc.(D)
071 02 Boss Manufacturing Company(M)
071 02 Charkate(M)
071 02 Clean Room Products, Inc.(M)
071 02 Coyne Safety Equipment, Inc.(D)
071 02 Daffin Disposables, Inc.(M)
071 02 Direct Safety Conipany(D)
071 02 Disposables Inc.(M)
071 02 Durafab Disposables, Inc.(M)
071 02 Eastco Industrial Safety Corp.(D)
071 02 Edmont Div. Recton, Dickinson & Co.(M)
071 02 Fisher Scientific Company(D)
071 02 General Scientific Safety Equipment Company(D)
c—i 8
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Tyvek(cont.)
071 02 Goodyear Rubber Products Corp.(S)
071 02 Holland Safety Supply Co.(D)
071 02 Hub Safety Equipment, Inc.(D)
071 02 IPESCo., Inc.(M)
071 02 Industrial Products Co., Inc.(D)
071 02 Industrial Safety and SecurityCo.(D)
071 02 Interex Corp.(D)
071 02 Kappler Disposables, Inc.(M)
071 02 Latex Glove Co., Inc(M)
071 02 Leonard Safety Epuipment, Inc.(D)
071 02 Magid Glove and Safety Mfg. Co.(M)
071 02 Mar-Mac Manufacturing Co., Inc.(M)
071 02 Masterman’s(D)
071 02 Melco, Inc.(M)
071 02 Mine Safety Appliances Co.(M)
071 02 Protech Safety Equipment Inc.(D)
071 02 Rockford Medical & Safety Co.(D)
071 02 Safeco Inc.(D)
071 02 Standard Clove & Safety Equip. Corp.(D)
071 02 Stauffer Manufacturing Company(M)
071 02 Superior Surgical Mfg. Co., Inc.(M)
071 02 H. Texier Clove Company Inc.(D)
071 02 United States Plastic Corp.(D)
071 03 Acme Mills Company(M)
071 03 Allied Clove & Safety Products Corp.(M)
071 03 Arbill Inc.(D)
071 03 Boss Manufacturing Company(M)
071 03 Clean Room Products, Inç.(M)
071 03 Coyne Safety Equipment, Inc.(D)
071 03 Daffin Disposables, Inc.(M)
071 03 Direct Safety Company(D)
071 03 Disposables Inc.(M)
071 03 Durafab Disposables, Inc.(M)
071 03 Latex Glove Co., Inc(M)
071 03 Leonard Safety Epuipment, Inc.(D)
071 03 Magid Clove and Safety Mfg. Co.(M)
071 03 Mar-Mac Manufacturing Co., Inc.(M)
071 03 Masterman’s(D)
071 03 Melco, Inc.(M)
071 03 Mine Safety Appliances Co.(M)
071 03 Protech Safety Equipment Inc.(D)
071 03 Rockford Medical & Safety Co.(D)
071 03 Superior Surgical Mfg. Co., Inc.(M)
071 03 United States Plastic Corp.(D)
071 04 Allied Clove & Safety Products Corp. (M)
071 04 Arbill Inc.(D)
071 04 Charkate(M)
071 04 Coyne Safety Equipment, Inc.(D)
071 04 Daffin Disposables, Inc.(M)
071 04 Direct Safety Company(D)
C— 19
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Tyvek (cont.)
071 04 Disposables Inc.(M)
071 04 Durafab Disposables, Inc.(M)
071 04 Eastco Industrial Safety Corp.(D)
071 04 Edmont Div. Becton, Dickinson &Co.(M)
071 04 Goodyear Rubber Products Corp.(S)
071 04 Holland Safety Supply Co.(D)
071 04 Hub Safety Equipment, Inc.(D)
071 04 IPESCo., Inc.(M)
071 04 Industrial Products Co., Inc.(D)
071 04 Industrial Safety and Security Co.(D)
071 04 Interex Corp.(D)
071 04 Kappler Disposables, Inc.(M)
071 04 Latex Clove Co., Inc(M)
071 04 Leonard Safety Epuipment, Inc.(D)
071 04 Magid Glove and Safety Mfg. Co.(M)
071 04 Mar-Mac Manufacturing Co., Inc.(M)
071 04 Masterman’s(D)
071 04 Melco, Inc.(M)
071 04 Mine Safety Appliances Co.(M)
071 04 Protech Safety Equipment Inc.(D)
071 04 Rockford Medical & Safety Co.(D)
071 04 Safeco Inc.(D)
071 04 Standard Glove & Safety Equip. Corp.(D)
071 04 Stauffer Manufacturing Company(M)
071 04 Superior Surgical Mfg. Co., Inc.(M)
071 04 Fl. Texier Clove Company Inc.(D)
071 04 •United States Plastic Corp.(D)
071 05 Charkate(M)
071 05 Coyne Safety Equipment, Inc.(D)
071 05 Daffin Disposables, Inc.(M)
071 05 Direct Safety Company(D)
071 05 Disposables Inc.(M)
071 05 Durafab Disposables, Inc.(M)
071 05 Flub Safety Equipment, Inc.(D)
071 05 IPESCo., Inc.(M)
071 05 Industrial Products Co., Inc.(D)
071 05 Industrial Safety and Security Co.(D)
071 05 Kappler Disposables, Inc.(M)
071 05 Mar-Mac Manufacturing Co., Inc.(M)
071 05 Mine Safety Appliances Co.(M)
071 06 American Scientific Products(D)
071 06 E.D. Bullard Company(M)
071 06 Charkate(M)
071 06 Clean Room Products, Inc.(M)
071 06 Coyne Safety Equipment, Inc.(D)
071 06 Direct Safety Company(D)
071 06 Disposables Inc.(M)
071 06 Durafab Disposables, Inc.(M)
071 06 Eastco Industrial Safety Corp.(D)
071 06 Edmont Div. Becton, Dickinson & Co.(M)
C— 20
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Tyvek (cont.)
071 06 General Scientific Safety Equipment Company(D)
071 06 Goodyear Rubber Products Corp.(S)
071 06 Holland Safety Supply Co.(D)
071 06 Industrial Products Co., Inc.(D)
071 06 Industrial Safety and Security Co.(D)
071 06 Interex Corp.(D)
071 06 Kappler Disposables, Inc.(M)
071 06 Mar-Mac Manufacturing Co., Inc.(M)
071 06 Masternian’s(D)
071 06 Melco, Inc.(M)
071 06 Mine Safety Appliances Co.(M)
071 06 Protech Safety Equipment Inc.(D)
071 06 Rockford Medical & Safety Co.(D)
071 06 Safeco Inc.(D)
071 06 Standard Glove & Safety Equip. Corp.(D)
071 06 Stauffer Manufacturing Company(M)
071 06 Superior Surgical Mfg. Co., Inc.(M)
071 06 H. Texier Glove Company Inc.(D)
071 06 United States Safety Service Co.(D)
071 07 Allied Glove & Safety Products Corp.(M)
071 07 American Scientific Products(D)
071 07 Arbill Inc.(D)
071 07 Charkate(M)
071 07 Clean Room Products, Inc.(M)
071 07 Coyne Safety Equipment, Inc.(D)
071 07 Daffin Disposables,Inc.(M)
071 07 Direct Safety Company(D)
071 07 Disposables Inc.(M)
071 07 Durafab Disposables, Inc.(M)
071 07 General Scientific Safety Equipment Company(D)
071 07 Hub Safety Equipment, Inc.(D)
071 07 Industrial Products Co., Inc.(D)
071 07 Industrial Safety and Security Co.(D)
071 07 Kappler Disposables, Inc.(M)
071 07 Leonard Safety Epuipment, Inc.(D)
071 07 Mar-Mac Manufacturing Co., Inc.(M)
071 07 Masternian’s(D)
071 07 Mine Safety Appliances Co.(M)
071 07 Rockford Medical & Safety Co.(D)
071 07 Superior Surgical Mfg. Co., Inc.(M)
NONWOVEN PP(O23)
Product: Polypropylene, Nonwoven
135 02 Kimberly-Clark Corp.(M)
C— 21
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
PE(025)
Product: Polyethylene Clove, Unsupported
006 00 Allied Clove & Safety Products Corp.(M)
006 00 Arbill Inc.(D)
006 00 Arinin Corporation(M)
006 00 Eastco Industrial Safety Corp.(D)
006 00 Edmont Div. Becton, Dickinson & Co.(M)
006 00 Ceneral Scientific Safety Equipment Company(D)
006 00 Goodyear Rubber Products Corp.(S)
006 00 Granet(M)
006 00 Holland Safety Supply Co.(D)
006 00 Industrial Products Co., Inc.(D)
006 00 Industrial Safety and Security Co.(D)
006 00 Interex Corp.(D)
006 00 Latex Glove Co., Inc(M)
006 00 Magid Glove and Safety Mfg. Co.(M)
006 00 Masterinan’s(D)
006 00 Protech Safety Equipment Inc.(D)
006 00 Protexall Company(M)
006 00 Rockford Medical & Safety Co.(D)
006 00 Safeco Inc.(D)
006 00 Standard Clove & Safety Equip. Corp.(D)
006 00 Stauffer Manufacturing Company(M)
006 00 H. Texier Clove Company Inc.(D)
006 00 United States Plastic Corp.(D)
Product: Polyethylene, High Density, Film
041 01 Miller Products Co., Inc.(D)
Product: Polyethylene, Medium Density, Film
042 03 Allied Clove & Safety Products Corp.(M)
042 03 Eastco Industrial Safety Corp.(D)
042 03 General Scientific Safety Equipment Company(D)
042 03 Keystone Protection Corp.(D)
042 03 Latex Glove Co., Inc(M)
042 03 Rockford Medical & Safety Co.(D)
042. 06 Magid Clove and Safety Mfg. Co.(M)
042 07 General Scientific Safety Equipment Company(D)
042 07 Interex Corp.(D)
042 07 Latex Clove Co., Inc(M)
042 07 Magid Glove and Safety Mfg. Co.(M)
Product: Polyethylene, Low Density, Fi lm
048 03 Masterman’s(D)
C— 22
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Polyethylene, Density Unknown, Film
056 03 American Scientific Products(D)
056 03 Armin Corporation(M)
056 03 Charkate(M)
056 03 Edmont Div. Becton, Dickinson & Co.(M)
056 03 Goodyear Rubber Products Corp.(S)
056 03 Granet(M) S
056 03 Holland Safety Supply Co.(D)
056 03 Industrial Products Co., Inc.(D)
056 03 Industrial Safety and Security Co.(D)
056 03 Interex Corp.(D)
056 03 Masterman’s(D)
056 03 Protech Safety Equipment Inc.(D)
056 03 Protexall Company(M)
056 03 Safeco Inc.(D)
056 03 Standard Glove & Safety Equip. Corp.(D)
056 03 Stauffer Manufacturing Company(M)
056 03 H. Texier Glove Company Inc.(D)
Product: Polyethylene/Tyvek
076 01 Allied Glove & Safety Products Corp.(M)
076 01 Arbill Inc.(D)
076. 01 Daffin Disposables, Inc.(M)
076 01 Durafab Disposables, Inc.(M)
076 01 Eastco Industrial Safety Corp.(D)
076 01 Edrnont Div. Becton, Dickinson & Co.(M)
076 01 Goodyear Rubber Products Corp.(S)
076 01 Holland Safety Supply Co.(D)
076 01 Industrial Products Co., Inc.(D)
076 01 Industrial Safety and Security Co.(D)
076 01 Interex Corp.(D)
076 01 Kappler Disposables, Inc.(M)
076 01 Latex Glove Co., Inc(M)
076 01 Magid Glove and Safety Mfg. Co.(M)
076 01 Mar-Mac Manufacturing Co., Inc.(M)
076 01 Masterman’s(D)
076 01 Mine Safety Appliances Co.(M)
076 01 Protech Safety Equipment Inc.(D)
076 01 Rockford Medical & Safety Co.(D)
076 01 Safeco Inc.(D)
076 01 Standard Glove & Safety Equip. Corp.(D)
076 01 Stauffer Manufacturing Company(M)
076 01 B. Texier Glove Company Inc.(D)
076 02. Arbill Inc.(D)
076 02 Daffin Disposables, Inc.(M)
076 02 Disposables Inc.(M)
076 02 Durafab Disposables, Inc.(M)
C— 23
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Polyethylene/Tyvek (cont.)
076 02 IPESCo., Inc.(M)
076 02 Industrial Products Co., Inc.(D)
076 02 Industrial Safety and Security Co.(D)
076 02 Kappler Disposabies, Inc.(M)
076 02 Latex Glove Co., Inc(M)
076 02 Magid Clove and Safety Mfg. Co.(M)
076 02 Mar-Mac Manufacturing Co., Inc.(M)
076 02 Melco, Inc.(M)
076 02 Mine Safety Appliances Co.(M)
076 02 Protech Safety Equipment Inc.(D)
076 02 Rockford Medical & Safety Co.(D)
076 03 Charkate(M)
076 03 Daffin Disposables, Inc.(M)
076 03 Durafab Disposables, Inc.(M)
076 03 Mar-Mac Manufacturing Co., Inc.(M)
076 03 Melco, .Inc.(M)
076 03 Mine Safety Appliances Co.(M)
076 03 Protech Safety Equipment Inc.(D)
076 03 Rockford Medical & Safety Co.(D)
076 04 AlliedGiove & Safety Products Corp.(M)
076 04 Arbill Inc.(D)
076 04 Durafab Disposables, Inc.(M)
076 04 Eastco Industrial Safety Corp.(D)
076 04 Edmont Div. Becton, Dickinson & Co.(M)
076 04 Goodyear Rubber Products Corp.(S)
076 04 Holland Safety Supply Co.(D)
076 04 Industrial Products Co., Inc.(D)
076 04 Industrial Safety and Security Co.(D)
076 04 Interex Corp.(D)
076 04 Kappler Disposables, Inc.(M)
076 04 Latex Glove Co., Inc(M)
076 04 Magid Clove and Safety Mfg. Co.(M)
076 04 Mar-Mac Manufacturing Co., Inc.(M)
076 04 Masterman’s(D)
076 04 Mine Safety Appliances Co.(M)
076 04 Protech Safety Equipment Inc.(D)
076 04 Rockford Medical & Safety Co.(D)
076 04 Safeco Inc.(D)
076 04 Standard Glove & Safety Equip. Corp.(D)
076 04 Stauffer Manufacturing Company(M)
076 04 H. Texier Clov Company Inc.(D)
076 05 Charkate(M)
076 05 Daffin Disposables, Inc.(M)
076 05 Disposables Inc.(M)
076 05 Durafab Disposables, Inc.(M)
076 05 Hub Safety Equipment, Inc.(D)
076 05 Industrial Products co., Inc.(D)
076 05 Industrial Safety and Security Co.(D)
076 05 Kappler Disposables, Inc.(M)
076 05 Mar-Mac Manufacturing Co., Inc.(M)
c—24
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Polyethylene/Tyvek (cont.)
076 05 Rockford Medical & Safety Co.(D)
076 06 Charkate(M)
076 06 Durafab Disposables, Inc.(M)
076 06 Industrial Products Co.., Inc.(D)
076 06 Industrial Safety and Security Co.(D)
076 06 Kappler Disposables, Inc.(M)
076 06 Mar-Mac Manufacturing Co., Inc.(M)
076 06 Melco, Inc.(M)
076 06 Protech Safety Equipment Inc.(D)
076 07 Daffin Disposables, Inc.(M)
076 07 Durafab Disposables, Inc.(M)
076 07 Industrial Products Co., Inc.(D)
076 07 Industrial Safety and Security Co.(D)
076 07 Kappler Disposables, Inc.(M)
076 07 Mar-Mac Manufacturing Co., Inc.(M)
076 07 Protech Safety Equipment Inc.(D)
Product: Polyethylene/Fabric
091 01 General Scientific Safety Equipment Company(D)
091 02 General Scientific Safety Equipment Company(D)
091 03 Fisher Scientific Company(D)
091 04 General Scientific Safety Equipment Company(D)
091 06 General Scientific Safety Equipment Company(D)
Product: Polyethylene/Polyester
137 03 Protexall Company(M)
POLYCARBONATE(026)
Product: Polycarbonate, Lens and Face Shield
098 09 Arbill Inc.(D)
.098 09 Eastco Industrial Safety Corp.(D)
098 09 Fisher Scientific Company(D)
098 09 Inco Safety Products Co.(M)
098 09 Industrial Safety and Security Co.(D)
098 09 Interex Corp.(D)
098 09 Magid Glove and Safety Mfg. Co.(M)
098 09 Rockford Medical & Safety Co.(D)
098 09 The Sager Corporation(M)
POLYESTER(027) .
Product: Polyester, Face Shield and Lens
096 09 SGL Homalite Industries(S)
C— 25
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
POLYURETHANE(028)
Product: Polyurethane Rubber, Unsupported
027 00 Colonial Glove & Garment Inc.(M)
Product: Polyurethane Rubber/Nylon
050 01 Boss Manufacturing Company(M)
050 01 Eastco Industrial Safety Corp.(D)
050 01 Jordan David Safety Products(M)
050 01 Miller Products Co., Inc.(D)
050 01 Mine Safety Appliances Co.(M)
050 01 National Safety Wear, Inc.(M)
050 01 Rainfair, Inc.(M)
050 01 Rockford Medical & Safety Co.(D)
050 02 Boss Manufacturing Company(M)
050 02 Miller Products Co., Inc.(D)
050 04 Eastco Industrial Safety Corp.(D)
050 04 Jordan David Safety Products(M)
050 04 Miller Products Co., Inc.(D)
050 04 Mine Safety Appliances Co.(M)
050 04 National Safety Wear, Inc.(M)
050 04 Rainfair, Inc.(M)
050 04 Rockfbrd Medical & Safety Co.(D)
050 06 •Eastco Industrial Safety Corp.(D)
050 06 Rainfair, Inc.(M)
Product: Polyurethane Rubber, Boots
082 08 Eastco Industrial Safety Corp.(D)
082 08 Jordan David Safety Products(M)
082 08 Rainfair, Inc.(M)
PV ALCOHOL(029)
Product: Polyvinyl Alcohol Glove, Supported
004 00 Arbill Inc.(D)
004 00 Eastco Industrial Safety Corp (D)
004 00 Edmont Div. Becton, Dickinson & Co.(M)
004 00 Goodyear Rubber Products Corp.(S)
004 00 Holland Safety Supply Co.(D)
004 00 Industrial Products Co., Inc. (D)
004 00 Industrial Safety and Security Co.(D)
004 00 Interex Corp.(D)
004 00. LRC Safety Products Co.(D)
004 00 Magid Glove and Safety Mfg. Co.(M)
• 004 00 Major Safety Service, Inc.(D)
004 00 Masterman’s(D)
004 00 Protech Safety Equipment Inc.(D)
C— 26
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Polyvinyl Alcohol Glove, Supported (cont.)
004 00 Safeco Inc.(D)
004 00 Standard Glove & Safety Equip. Corp.(D)
004 00 Stauffer Manufacturing Company(M)
004 00 H. Texier Glove Company Inc.(D)
Product: Polyvinyl Alcohol Glove, Unsupported
102 00 General Scientific Safety Equipment Company(D)
PVC ( 030)
Product: Polyvinyl Chloride Glove, Unsupported
003 00 Alliance Supply, Inc.(M)
003 00 Allied Glove & Safety Products Corp.(M)
003 00 Arbill Inc.(D)
003 00 Arniin Corporation(M)
003 00 Best Manufacturing Company(M)
003 00 Boss Manufacturing Company(M)
003 00 Clean Room Products, Inc.(M)
003 00 Dayton Flexible Products(M)
003 00 Defense Apparel(M)
003 00 Eastco Industrial Safety Corp.(D)
003 00 Edmont Div. Becton, Dickinson & Co. (M).
003 00 Goodyear Rubber Products Corp.(S)
003 00 Holland Safety Supply Co.(D)
003 00 Hub Safety Equipment, Inc.(D)
003 00 IPESCo., Inc.(M)
003 00 Industrial Products Co., Inc.(D)
003 00 Industrial Safety and Security Co(D)
003 00 Interex Corp.(D)
003 00 Intermarket Latex, Inc.(M)
003 00 Keystone Protection Corp.(D)
003 00 Latex Glove Co., Inc(M)
003 00 Leonard Safety Epuipment, Inc.(D)
003 00 Magid Glove and Safety Mfg. Co.(M)
003 00 Masterman’s(D)
003 00 Miller Products Co., Inc.(D)
003 00 Mine Safety Appliances Co.(M)
003 00 Monte Glove Company(M)
003 00 North Hand Protection(M)
003 00 OKI Supply Co.(M)
003 00 Oak Technical, Inc. (M)
003 00 Pioneer Industrial Products Co.(M)
003 00 Protech Safety Equipment Inc.(D)
003 00 Protexall Company(M)
003 00 Rockford Medical & Safety Co.(D)
003 00 Safeco Inc.(D)
003 00 Standard Glove & Safety Equip Corp.(D)
003 00 Stauffer Manufacturing Company(M)
003 00 H. Texier Glove Company Inc.(D)
C— 27
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PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Polyvinyl Chloride, Sheet
049 04 Aramsco(M)
049 04 Coyne Safety Equipment, Inc.(D)
049 04 Falcon Industries, Inc.(M)
049 04 Latex Clove Co., Inc(M)
049 04 Leonard Safety Epuipment, Inc.(D)
049 04 Miller Products Co., Inc.(D)
049 04 Protech Safety Equipment Inc.(D)
049 04 Safeco Inc.(D)
049 04 Safety Engineering & Supply Co.(D)
049 04 Sawyer-Tower(M)
049 04 Standard Safety Equipment Co.(M)
049 05 Andover Industries, Inc.(M)
049 05 Direct Safety Company(D)
049 05 Mine Safety Appliances Co.(M)
049 06 Aramsco(M)
049 06 Coyne Safety Equipment, Inc.(D)
049 06 Direct Safety Company(D)
049 06 Falcon Industries, Inc.(M)
049 06 General Scientific Safety Equipment Company(D)
049 06 Leonard Safety Epuipment, Inc.(D)
049 06 Magid Glove and Safety Mfg. Co.(M)
049 06 Miller Products Co., Inc.(D)
049 06 Mine Safety Appliances Co.(M)
049 06 Plastex Protective Products, Inc.(M)
049 06 Protexall Company(M)
049 06 Steele & Associates, Inc.(M)
049 07 Arbill Inc.(D)
049 07 Armin Corporation(M)
049 07 Direct Safety Company(D)
049 07 Interex Corp.(D)
‘049 07 La Crosse Footwear, Inc.(M)
049 07 Protexall Company(M)
049 07 Ranger(M)
049 07 Standard Safety Equipment Co.(M)
049 07 Steele & Associates, Inc;(M)
Product: Polyvinyl Chloride/Fabric
053 01 Allied Clove & Safety Products Corp.(M)
053 01 Aramsco(M)
053 01 Boss Manufacturing Company(M)
053 01 Durafab Disposables, Inc.(M)
C— 28
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Polyvinyl Chloride/Fabric (cont.)
053 01 Jomac Products Inc.(M)
053 01 Jones Safety Supply, Inc.(D)
053 01 Jordan David Safety Products(M)
053 01 Keystone Protection Corp.(D)
053 01 Major Safety Service, Inc.(D)
053 01 Masterman’s(D)
053 01 Mine Safety Appliances Co.(M)
053 01 OKI Supply Co.(M)
053 01 Plastex Protective Products, Inc.(M)
053 01 Protech Safety Equipment Inc.(D)
053 01 Record Industrial Co.(M)
053 01 Robar Protective Products(D)
053 01 Safeco Inc.(D)
053 01 Safety Engineering & Supply Co.(D)
053 01 Sawyer-Tower(M)
053 01 Standard Safety Equipment Co.(M)
053 01 Tingley Rubber Corp.(M)
053 01 Wheeler Protective Apparel, Inc.(M)
053 02 Boss Manufacturing Company(M)
053 02 Durafab Disposables, Inc.(M)
053 02 Jomac Products Inc.(M)
053 02 Jones Safety Supply, Inc.(D)
053 02 Keystone Protection Corp.(D)
053 02 Major Safety Service, Inc.(D)
053 02 Standard Safety Equipment Co.(M)
053 03 Allied Glove & Safety Products Corp.(M)
053 03 Charkate(M)
053 03 Durafab Disposables, Inc.(M)
053 03 Eastco Industrial Safety Corp.(D)
053 03 Edmont Div. Becton, Dickinson & Co. (M)
053 03 Fisher Scientific Company(D)
053 03 Goodyear Rubber Products Corp.(S)
053 03 Holland Safety Supply Co.(D)
053 03 Industrial Products Co., Inc.(D)
053 03 Industrial Safety and Security Co.(D)
053 03 Interex Corp.(D)
053 03 Jomac Products Inc.(M)
053 03 Jones Safety Supply, Inc.(D)
053 03 Keystone Protection Corp.(D)
053 .03 Major Safety Service, Inc.(D)
053 03 Masterman’s(D)
053 03 Protech Safety Equipment Inc.(D)
053 03 Safeco Inc.(D)
053 03 Standard Glove & Safety Equip. Corp.(D)
053 03 Standard Safety Equipment Co.(M)
053 03 Stauffer Manufacturing Company(M)
053 03 H. Texier Glove Company Inc.(D)
053 03 Wheeler Protective Apparel, Inc.(M)
053 04 Jomac Products Inc.(M)
053 04 Jones Safety Supply, Inc.(D)
C— 29
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Polyvinyl Chloride/Fabric (cont.)
053 . 04 Jordan David Safety Products(M)
053 04 Keystone. Protection Corp.(D)
053 04 Major Safety Service, Inc. (D)
053 04 Masterman’s(D)
053 04 Mine Safety Appliances Co.(M)
053 04 OKI Supply Co.(M)
053 04 Plastex Protective Products, Inc.(M)
053 04 Protech Safety Equipment Inc.(D)
053 04 Record Industrial Co.(M)
053 04 Robar Protective Products(D)
053 04 Safeco Inc.(D)
053 04 Safety Engineering & Supply Co.(D)
053 04 Sawyer-Tower(M)
053 04 Tingley Rubber Corp.(M)
053 04 Wheeler Protective Apparel, Inc.(M)
053 05 Major Safety Service, Inc.(.D)
053 05 Safety Engineering & Supply Co.(D)
053 05 Standard Safety Equipment Co.(M)
053 05 Wheeler Protective Apparel, Inc.(M)
053 06 Boss Manufacturing Company(M)
053 06 Jomac Products Inc.(M)
053 06 Jones Safety Supply, Inc.(D)
053 06 Major Safety Service, Inc.(D)
053 06 Plastex Protective Products, Inc.(M)
053 06 Pulmosan Safety Equipment Corp.(D)
053 06 Standard Safety Equipment Co.(M)
053 06 United States Safety Service Co.(D)
053 06 Wheeler Protective Apparel, Inc.°(M)
Product: Polyvinyl Chloride, Film
054 01 Defense Apparel(M)
054 01 Durafab Disposables, Inc.(M)
054 01 OKI Supply Co.(M)
054 01 Plastimayd Corp.(M)
054 01 Robar Protective Products(D)
054 02 Defense Apparel(M)
054 02 Durafab Disposables, Inc.(M)
054 03 Durafab Disposables, Inc.(M)
054. 03 Fairway Products(M)
054 03 LRC Safety Products Co.(D)
054 03 Melco, Inc.(M)
054 03 OKI Supply Co.(M)
054 03 Plastimayd Corp.(M)
054 03 Pulmosan Safety Equipment Corp.(D)
054 03 Ronco Textile Products, Inc.(M)
054 04 Defense Apparel(M)
054 04 OKI Supply Co.(M)
054 04 Plastimayd Corp.(M
054 04 Robar Protective Products(D)
C— 30
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Polyvinyl Chloride, Film (cont.)
054 06 General Scientific Safety Equipment Company(D)
054 06 Melco, Inc.(M)
054 06 Pulmosan Safety Equipment Corp. (D)
054 07 Allied Glove & Safety Products Corp.(M)
054 07 Defense Apparel(M)
054 07 Eastco Industrial Safety Corp.(D)
054 07 General Scientific Safety Equipment Company(D)
054 07 Interex Corp.(D)
054 07 Iron Age Protective Company(M)
054 07 Leonard Safety Epuipment, Inc.(D)
054 07 Melco, Inc.(M)
054 07 Plastex Protective Products, Inc.(M)
054 07 Pulmosan Safety Equipment Corp.(D)
054 07 United States Plastic Corp.(D)
Product: Polyvinyl Chloride/Nylon
077 01 Allied Glove & Safety Products Corp.(M)
077 01 Aramsco(M)
077 01 Boss Manufacturing Company(M)
077 01 Direct Safety.Company(D)
077 01 Eastco Industrial Safety Corp.(D)
077 01 Edmont Div. Becton, Dickinson & Co.(M)
077 01 Goodyear Rubber Products Corp.(S)
077 01 Holland Safety Supply Co.(D)
077 01 Industrial Products Co., Inc.(D)
077 01 Industrial Safety and Security Co.(D)
077 01 Interex Corp.(D)
077 01 Jomac Products Inc.(M)
077 01 Jones Safety Supply, Inc.(D)
077 01 Jordan David Safety Products(M)
077 01 Masternian’s(D)
077 01 Miller Products Co., Inc.(D)
077 01 Mine Safety Appliances Co.(M)
077 01 National Safety Wear, Inc.(M)
077 01 01 (1 Supply Co.(M)
077 01 Plastex Protective Products, Inc.(M)
077 01 Protech Safety Equipment Inca (D)
077 01 Rainfair, Inc.(M)
077 01 Robar Protective Products(D)
077 01 Rockfórd Medical & Safety Co.(D)
077 .01 Safeco Inc.(D)
077 01 Safety Engineering & Supply Co.(D)
077 01 Sawyer-Tower(M)
077 01 Standard Glove & Safety Equip. Corp (D)
077 01 Stauffer Manufacturing Company(M)
077 01 H. Texier Glove Company Inc.(D)
077 01 Tingley Rubber Corp.(M)
077 02 Boss Manufacturing Company(M)
077 02 Jomac Products Inc.(M)
C— 31
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Polyvinyl Chloride/Nylon (cont.)
077 02 Jones Safety Supply, Inc.(D)
077 02 Miller Products Co., Inc.(D)
077 02 Plastex Protective Products, Inc.(M)
077 03 Boss Manufacturing Company(M)
077 03 Frommelt Industries, Inc.(M)
077 03 Jomac Products Inc.(M)
077 03 Jones Safety Supply, Inc.(D)
077 03 01 (1 Supply Co.(M)
077 03 Plastex Protective Products, Inc.(M)
077 03 Protech Safety Equipment Inc.(D)
077 04 Allied Glove & Safety Products Corp.(M)
077 04 Direct Safety Company(D)
077 04 Eastco Industrial Safety Corp.(D)
077 04 Edmont Div. Becton, Dickinson & Co.(M)
077 04 Goodyear Rubber Products Corp.(S)
077 04 Holland Safety Supply Co.(D)
077 04 Industrial Products Co., Inc.(D)
077 04 Industrial Safety and Security Co.(D)
077 04 Interex Corp.(D)
077 04 Jomac Products Inc.(M)
077 04 Jones Safety Supply, Inc.(D)
077 04 Jordan David Safety Products(M)
077 04 Masterman’s(D)
077 04 Miller Products Co., Inc.(D)
077 04 Mine Safety Appliances Co.(M)
077 04 National Safety Wear, Inc.(M)
077 04 01(1 Supply Co.(M)
077 04 Plastex Protective Products, Inc.(M)
077 04 Protech Safety Equipment Inc.(D)
077 04 Rainfair, Inc.(M)
077 04 Robar Protective Products(D)
077 04 Rockford Medical & Safety Co.(D)
077 04 Safeco Inc.(D)
077 04 Safety Engineering & Supply Co.(D)
077 04 Sawyer-Tower(M)
077 04 Standard Glove & Safety Equip. Corp.(D)
077 04 Stauffer Manufacturing Company(M)
077 04 H. Texier Glove Company Inc.(D)
077 04 Tingley Rubber Corp.(M)
077 05 Mine Safety Appliances Co.(M)
077 06 Allied Clove & Safety Products Corp.(M)
077 06 Boss Manufacturing Company(M)
077 06 Colonial Glove & Garment Inc.(M)
077 06 Direct Safety Company(D)
077 06 Eastco Industrial Safety Corp.(D)
077 06 Edmont Div. Becton, Dickinson & Co.(M)
077 06 Falcon Industries, Inc.(M)
077 06 General Scientific Safety Equipment Company(D)
077 06 Goodyear Rubber Profucts Corp.(S)
077 06 Holland Safety Supply Co.(D)
C— 32
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Polyvinyl Chloride/Nylon (cont.)
077 06 Industrial Products Co., Inc.(D)
077 06 Industrial Safety and Security Co.(D)
077 06 Interex Corp.(D)
077 06 Jomac Products Inc.(M)
077 06 Jones Safety Supply, Inc.(D)
077 06 Masterman’s(D)
077 06 Plastex Protective Products, Inc.(M)
077 06 Protech Safety Equipment Inc.(D)
077 06 Pulmosan Safety Equipment Corp.(D)
077 06 Rainfair, Inc.(M)
077 06 Robar Protective Products(D)
077 06 Safeco Inc.(D)
077 06 Standard Glove & Safety Equip. Corp.(D)
077 06 Stauffer Manufacturing Company(M)
077 06 H. Texier Glove CompanyInc.(D)
Product: Polyvinyl Chloride, Boots
083 08 Allied Glove & Safety Products Corp.(M)
083 08 Boss Manufacturing Company(M)
083 08 Defense Apparel(M)
083 08 Direct Safety Company(D)
083 08 Eastcó Industrial Safety Corp.(D)
083 08 Interex Corp.(D)
083 08 Iron Age Protective Company(M)
083 08 Jordan David Safety Products(M)
083 08 La Crosse Footwear, Inc.(M)
083 08 Latex Glove Co., Inc(M)
083 08 Lehigh Safety Shoe Co.(M)
083 08 Masterman’s(D)
083 08 Miller Products Co., Inc..(D)
083 08 Protexall Company(M)
083 08 Rainfair, Inc.(M)
083 08 Standard Safety Equipment Co.(M)
083 08 Steele & Associates, Inc.(M)
083 08 Tingley Rubber Corp.(M)
083 08 The Tracies Co.(M)
083 08 Trelleborg, Inc.(M)
083 08 Wheeler Protective Apparel, Inc.(M)
Product: Polyvinyl Chloride/Rayon
088 01 Direct Safety Company(D)
088 01 Jomac Products Inc.(M)
088 01 Jones Safety Supply, Inc.(D)
088 01 Protech Safety Equipment Inc.(D)
088 03 Joniac Products Inc.(M)
088 03 Jones Safety Supply, Inc.(D)
088 04 Direct Safety Company(D)
088 04 Jomac Products Inc.(M)
C— 33
-------�
PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Polyvinyl Chloride/Rayon (cont.)
088 04 Jones Safety Supply, Inc.(D)
088 06 Direct Safety Company(D)
088 06 Falcon Industries, Inc.(M)
088 06 Jomac Products Inc.(M)
088 06 Jones Safety Supply, Inc.(D)
Product: Polyvinyl Chloride/Fabric/Polyvinyl Chloride
131 01 Eastco Industrial Safety Corp.(D)
131 01 Rainfair, Inc.(M)
.131 01 Sawyer-Tower(M)
131 04 Eastco Industrial Safety Corp.(D)
131 04 Rainfair, Inc.(M)
131 04 Sawyer-Tower(M)
131 05 Fyrepel Products Inc.(M)
131 06 Eastco Industrial Safety Corp.(D)
131 06 . Rainfair, Inc.(M)
Product: Polyvinyl Chloride/Nylon/Polyvinyl Chloride
133 01 Edmont Div. Becton, Dickinson & Co.(M)
133 01 Goodyear Rubber Products Corp.(S)
133 01 Holland Safety Supply Co.(D)
133 01 Industrial Products Co., Inc.(D)
133 01 Industrial Safety and Security Co.(D)
133 01 Interex Corp.(D)
133 . 01 Masterman’s(D)
133 Cl Plastex Protective Products, Inc.(M)
133 01 Protech Safety Equipment Inc.(D)
133 01 Safeco Inc.(D)
133 01 Standard Clove & Safety Equip. Corp.(D)
133 01 Stauffer Manufacturing Company(M) -
133 01 Superior Surgical Mfg. Co., Inc.(M)
133 01 H. Texier Clove Company Inc.(D)
133 02 . Superior Surgical Mfg. Co., Inc.(M)
133. 03 Edmont Div. Becton, Dickinson & Co.(M)
133 03 Goodyear Rubber Products Corp.(S)
133 03 Holland Safety Supply Co.(D)
133 03 Industrial Products Co., Inc.(D)
133 03 Industrial Safety and Security Co.(D)
133 03 Interex Corp.(D)
133 03 Masterman’s(D)
133 03 Protech Safety Equipment Inc.(D)
133 03 Standard Glove & Safety Equip. Corp.(D)
133 03 . Stauffer Manufacturing Company(M)
133 03, H. Texier Glove Company Inc.(D)
133 04 Edmont Div. Becton, Dickinson & Co.(M)
133. 04 Goodyear Rubber Products Corp. (S)
133 04 . Holland Safety Supply Co.(D)
133 04 Industrial Products Co., Inc.(D)
C—34
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PRODUCT VENDORS BY. RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: Polyvinyl Chloride/Nylon/Polyvinyl Chloride (cont.)
133 04 Industrial Safety and Security Co.(D)
133 04 Interex Corp.(D)
133 04 Masterman’s(D)
133 04 Plastex Protective Products, Inc.(M)
133 04 Protech Safety Equipment Inc.(D)
133 04 Safeco Inc.(D)
133 04 Standard Glove & Safety Equip. Corp.(D)
133 04 Stauffer Manufacturing Company(M)
133 04 H. Texier Glove Company Inc.(D)
133 . 05 Coodall Rubber Company(M)
133 05 National Draeger, Inc.(M)
133 05 Trelleborg, Inc.(M)
133 06 Edmont Div. Becton, Dickinson & Co.(M)
133 06 Goodyear Rubber Products Corp.(S)
133 06 Holland Safety Supply Co.(D)
133 06 Industrial Products Co., Inc.(D)
133 06 Industrial Safety and Security Co.(D)
133 06 Interex Corp.(D)
133 06 Masterman’s(D)
133 06 Plastex Protective Products, Inc.(M)
133 .06 Protech Safety Equipment Inc.(D)
133 06 Safeco Inc.(D)
133 06 Standard Glove & Safety Equip. Corp.(D)
133 06 Stauffer Manufacturing Company(M)
133 06 H. Texier Glove Company Inc.(D)
Product: Polyvinyl Chloride/Polyester
.144 03 Steel Grip Safety Apparel Co., Inc.(M)
SARANEX(032)
Product: PE/Polyvinylidenechloride/PE/Tyvek
061 01 Magid Glove and Safety Mfg. Co.(M)
061 01 Mar-Mac Manufacturing Co., Inc.(M)
061 01 Protech Safety Equipment Inc.(D)
061 .01 Rockford Medical & Safety Co.(D)
061 02 Charkate(M)
061 02 Daffin Disposables, Inc.(M)
061 .02 Durafab Disposables, Inc.(M)
061 02 Industrial Products Co., Inc.(D)
061 02 Industrial Safety and Security Co.(D)
061 02 Kappler Disposables, Inc.(M)
061 02 Magid Glove and Safety Mfg. Co.(M)
061 02 Mar-Mac Manufacturing Co., Inc.(M)
061 02 Melco, Inc.(M)
061 02 Protech Safety Equipment Inc.(D)
061 03 Charkate(M)
061 03 Mar-Mac Manufacturing Co., Inc.(M)
C— 35
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PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
Product: PE/Polyvinylidenechloride/PE/Tyvek (cont.)
061 03 Protech Safety Equipment Inc.(D)
061 04 Magid Glove and Safety Mfg. Co.(M)
061 04 Mar-Mac Manufacturing Co., Inc.(M)
061 04 Protech Safety Equipment Inc.(D)
061 04 Rockford Medical & Safety Co.(D)
061 05 Charkate(M)
061 05 Daffin Disposables, Inc.(M)
061 05 Durafab Disposables, Inc.(M)
061 05 Hub Safety Equipment, Inc.(D)
061 05 Leonard Safety Epuipment, Inc.(D)
061 05 Mar-Mac Manufacturing Co., Inc.(M)
061 05 Mar-Mac Manufacturing Co., Inc.(M)
061 05 Mine Safety Appliances Co.(M)
061 05 Rockford Medical & Safety Co.(D)
061 06 Industrial Products Co., Inc.(D)
061 06 Industrial Safety and Security Co.(D)
061 06 Kappler Disposables, Inc.(M)
061 06 Protech Safety Equipment Inc.(D)
061 07 Daffin Disposables, Inc.(M)
061 07 Industrial Products Co., Inc.(D)
061 07 Industrial Safety and Security Co.(D)
061 07 Kappler Disposables, Inc.(M)
061 07 Mar-Mac Manufacturing Co., Inc.(M)
SBR (033)
Product: Styrenebutadiene Rubber/Fabric
063 01 Eastco Industrial Safety Corp.(D)
063 01 Rainfair, Inc.(M)
063 01 Safety Engineering & Supply Co.(D)
063 01 Tingley Rubber Corp.(M)
063 03 Protexall Company(M)
063 04 Eastco Industrial Safety Corp.(D)
063 04 Rainfair, Inc.(M)
063 04 Safety Engineering & Supply Co.(D)
063 04 Tingley Rubber Corp.(M)
063 06 Eastco Industrial Safety Corp.(D)
063 06 Rainfair, Inc.(M)
SBR/NEOPRENE (047)
Product: Styrenebutadiene/Cotton/Chloroprene
149 03 Steel Grip Safety Apparel Co., Inc.(M)
SILVER SHIELD(042)
Product: Silver Shield (North Product), Glove
122 00 Arbill Inc.(D
122 00 North Hand Protection(M)
C—36
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PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
TEFLON(014)
Product: FEP Glove
036 00 Clean Room Products, Inc.(M)
Product: TFE/Nomex/TFE
069 05 Chemical Fabrics Corporation(M)
Product: TFE/Fibergiass/TFE
146 05 Chemical Fabrics Corporation(M)
VITON(034)
Product: Fluoroelastomer Clove, Solvent Dipped, Unsupported
009 00 Direct Safety Company(D)
009 00 Hub Safety Equipment, Inc.(D)
009 00 Latex Clove Co., Inc(M)
009 00 Mine Safety Appliances Co.(M)
009 00 North Hand Protection(M)
009 00 Protech Safety Equipment Inc.(D)
009 00 Safeco Inc.(D)
Product: Fluoroelastomer, Sheet
032 01 Mine Safety Appliances Co.(M)
032 04 Mine Safety Appliances Co.(M)
032 05 Andover Industries, Inc.(M)
Product: Fluoroelastomer/Fabric/Fluoroelastomer
129 05 Fyrepel Products Inc.(M)
Product: Fluoroelastomer/Polyester/Fluoroelastomer
143 03 Steel Grip Safety Apparel Co., Inc.(M)
143 04 Superior Surgical Mfg. Co., Inc.(M)
VITON/BUTYL(035)
Product: Fluoroelastomer/Butyl/Nylon/Butyl
100 02 Trelleborg, Inc.(M)
100 05 Coodall Rubber Company(M)
100 05 Trelleborg, Inc.(M)
C— 37
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PRODUCT VENDORS BY RESISTANT MATERIAL
Resistant
Material Code Type Vendor Name
VITON/CHLOROBUTYL(036)
Product: Fluoroelastomer/Noniex/Chlorobutyl
152 05 Andover Industries, Inc.(M)
VITON/NEOPRENE (011)
Product: F luoroe lastomer/Nylon/Ch loroprene
111 05 Mine Safety Appliances Co.(M)
lii 05 National Draeger, Inc.(M)
C—38
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APPENDIX D
VENDOR DIRECTORY
D- 1
-------�
VENDOR DIRECTORY
Ackwell
Address not available.
Acme Mills Company
5151 Loraine
Detroit, MI 48208
313/894-7110
Alliance Supply, Inc.
3 Bridge Street
Newton, MA 02158
617/244-2900
Allied Glove & Safety Products Corp.
325 E. Chicago Street
Milwaukee, WI 53202
414/272-0302
American Scientific Products
Division of American Hospital Suppl
1430 Waukegan Road
McGaw Park, IL 60085
800/842-1208
Andover Industries, Inc.
15 Union Street
Lawrence, MA 01840
617/794-1793
Angelica Uniform Group
700 Rosedale Avenue
St. Louis, MO 63112
800/325-8032
D—2
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VENDOR. DIRECTORY
Ansell Industrial Products
Industrial Road
P.O. Box 1252
Dothan, AL 36302
800/633-0909
Aramsco
Thorofare, NJ 08086
800/257-8146
Arbill Inc.
2207 W. Glenwood Avenue
Philadelphia, PA 19132
215/228-4011
Arniin Corporation
One Penn Plaza
New York, NY 10119
212/736-2201
Arrowhead Products
4411 Katella Avenue
Los Alamitos, CA 90720
714/828-7770
Bard Parker
Address not available.
Barry Manufacturing Co. Ltd.
920 Lakeshore Road East
Mississauga, ON CAN
416/274- 3691
D—3.
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VENDOR DIRECTORY
Bel-Art Products
Industrial Road
Pequannock, NJ 07440
201/694-0500
Best Manufacturing Company
Edison Street
Menlo, GA 30731
800/241-0323
Body-Guard
Division of Lion Uniform Inc.
P.O. Box 14343
Dayton, OH 45414
714/540-8010
Boss Manufacturing Company
221 W. First Street
• Kewanee, IL 61443
309/852-2131
•Broner Glove Co.
359 Robbins Drive
Troy, MI 48084
800/521-1318
•E.D. Bullard Company
2680 Bridgeway
Sausalito, CA 94965
415/332-0410
California Safety
Address not available.
D—4
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VENDOR DIRECTORY
Cesco Safety Products
1535 Walnut Steet
Kansas City, MO 64108
816-842-8500
Charkate
130 West 10th Street
Huntington Station, NY 11746
516/427-1802
Chemical Fabrics Corporation
Daniel Webster Highway
P.O. Box 1137
Merrimack, NH 03054
603/424-9000
Clean Room Products, Inc.
1800 Ocean Avenue
Ronkonkoma, NY 11779
516/588-7000
Cofish International, Inc.
P.O. Box 13
East Haddam, CT 06423
203/873-9500
Colonial Glove & Garment Inc.
1800 Ocean Avenue
Ronkonkoma, NY 11779
516/588-6900
Comasec
Drawer 10
Niblick Road
Erifield, CT 06082
203/741-2207
D—5
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VENDOR DIRECTORY
Converse Inc.
55 Fordham Road
Wilmington, MA 01887
617/657-5500
Coyne Safety Equipment, Inc.
725 Route 113
P.O. Box 390
.Sellersvifle, PA 18960
215/723-0926
i affin Disposables, Inc.
One Daff in Square
Secretary, MD 21664
301/943-8777
Dayton Flexible Products
Division of Baxter Travéno].
2210 Arbor Boulevard
Dayton, OH 45439
513/298-7511
Defense Apparel
247 Addison Road
Windsor, CT 06095
800/243-3847
Direct Safety Company
7815 South 46th Street
Phoenix, AZ 85044
800/528 - 7405
Disposablés Inc.
14 Locust Street
Manhasset, NY 11030
516/627-4554
D—6
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VENDOR DIRECTORY
Dorsey Safety Products Co.
P.O. Box 23465
Chattanooga, TN 37422
615/894-7233
Dow Chemical Company
2020-T Dow Center
Midland, MI 48640
517/636-1000
E.I. du Pont de Nemours & Co., Inc.
Spunbonded Products Division
Centre Road Building
Wilmington, DE 19898
302/999-3095
E.I. du Pont de Nemours & Company
Business and Marketing Service
Elastomers
Wilmington, DE 19898
800/441-7111
Durafab Disposables, Inc.
Box 658
Cleburne, TX 76031
817/645-8851
Eastco Industrial Safety Corp.
130 West 10th Street
Huntington Station, NY 11746
516 64427-1802
Edniont Div. Becton, Dickinson & Co.
1300 Walnut Street
Coshocton, OH 43812
614/622-4201
D—7
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VENDOR DIRECTORY
Elliott Glove Company, Inc.
504 Pecor Street
Oconto, WI 54153
414/834-5622
Encon Manufacturing Co.
13333 Northwest Freeway
P.O. Box 3826
Houston, TX 77253
713/462-4723
Erista
Rex Gummiwarenfabrjc Gnibh
D- 6102
Pfungstadt, FRG
Exxon Chemical Company
Polymers Group
A Division of Exxon Corporation
P.O. Box 3272
Houston, TX 77253
713/870-6546
Fairway Products
303 Arch Street
Hilisdale, MI. 49242
517/439-9376
Falcon Industries, Inc.
401 Isom Road
San Antonio,. TX 78216
512-344-3469
Fisher Scientific Company
711 Forbes Avenue
Pittsburg, PA 15219
41.2/562-8300
D—8
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VENDOR, DIRECTORY
Frommelt Industries, Inc.
Safety Products Division
4343 Chavenelle Drive
P .O. Box 658
Dubuque, IA 52004
800/553-5560
Fyrepel Products Inc.
Box 518
Newark, OH 43055
614/344-0391
General Scientific Safety Equipment Company
1821 John F. Kennedy Boulevard
Philadelphia, PA 19103
215/564-6366
Clover Latex, Inc.
514 S. Rose Street
P.O. Box 167
Anaheim, CA 92805
714/535-8920
Coodall Rubber Company
P.O. Box 8237
Trenton, NJ 08650
609/587-4000
Goodyear Rubber Products Corp.
329 McCarter Highway
Newark, NJ 07114.
201/242-5550
Granet
25 Loring Drive
P.O. Box 588
Framingham, MA 01701
617/875-3521
D-9
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VENDOR DIRECTORY
Greene Rubber Co., Inc.
160 Second Street
Cambridge, MA 02142
617/547-7655
Halprin Supply Co.
3804 S. Broadway P1.
Los Angeles, CA 90037
213/232-3131
Handgards Inc.
901 Hawkins
P.O. Box 27018
El Paso, TX 79926
915/779-6606
Holcomb Safety Garment Co.
4925 W. Grand Avenue
Chicago, IL 60639
312/648- 1778
Holland Safety Supply Co.
P.O. Box 645
208 Market Street
Lexington, NC 27292
800/222-8133
Hub Safety Equipment, Inc.
121 Liberty Street
P.O. Box 454
South Quincy, MA 02269
617-773-2487
Hy-Test Safety Shoes
Div. International Shoe Company
P.O. Box 14485
St. Louis, MO 63178
314/426- 1675
D—10
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VENDOR DIRECTORY
ILC Dover
P.O. Box 266
Frederica, DE 19946
302/335-3911
IPESCo.,; Inc.
1903 Sharon Forest Drive
Charlotte, NC 28212
704/535-5550
Inco Safety Products Co.
Box 1733
Reading, PA 19603
215/376-6161
Industrial. Products Co., Inc.
21 Cabot Blvd..
Langhorne, PA 19047
800/523-3944
Industrial Safety and Security Co.
1390 Newbrecht Road
Lima, OH 45801
800/537-9721
Interex Corp.
3 Strathmore Rd.
Natick, MA 01760
800/225-5910
Interniarket Latex, Inc.
213 Hanna Building
Cleveland, OH 44115
800/824- 7419
D—11
-------�
VENDOR. DIRECTORY,
International Playtex, Inc.
Glove Division
700 Fairfield Ave.
Stamford, CT 06902
203/356-8000
Iron Age Protective Company
2406 Woodmere Drive
Pittsburgh, PA 15205
412/922-7000
Jomac Products Inc.
863 Easton Road
Warrington, PA 18976
215/343-0800
Jones Safety Supply, Inc.
719 Gainsboro Road, NW
P.O. Box 111
Roanoke, VA 24002
703/982-8444
Jordan David Safety Products
P.O. Box 400
Warrington, PA 18976
215/343-6470
KID AB
S- 71100
Lindesberg, Sweden
Kappler Disposables, Inc.
P.O. Box 218
Guntersville, AL 35976
800/633-2410
D—12
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VENDOR. DIRECTORY
Keller Clove Mfg. Co.
Route 611
Plumsteadville, PA 18949
215/343-1135
Keystone Protection Corp.
520 E. Luzerne Street
Philadelphia, PA 19124
215/426-3600
Kimberly-Clark Corp.
Industrial Garments Fabrics
1400 Holcomb Bridge Road
Roswell, GA 30076
404/587-8000
LRC Safety Products Co.
Rt. 46 West
Little Falls, NJ 07424
201/256-4100
La Crosse Footwear, Inc.
P.O. Box 1328
La Crosse, WI 54602
608/782-3020
Lab Safety Supply Company
Div. Science Related Materials, Inc.
3430 North Palmer Drive
Janesville, WA 53547
608/754-2345
Latex Glove Co., Inc
318 Huehi Road
Northbrook, IL 60062
800/323-8393
D—13
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VENDOR DIRECTORY
Lehigh Safety Shoe Co.
Division of Endicott Johnson
1100 E. Main Street
Endicott, NY 13760
607/754-7980
Leonard Safety Epuipment, Inc.
253 Waterman Ave.
P.O. Box 4344
E. Providence, RI 02914
800/556-7170
Lion Uniform, Inc.
2735 Kearns Avenue
Dayton, OH 45414
513/278-6531
Magid Glove and Safety Mfg. Co.
2060 N. Kolmar Ave.
• Chicago, IL 60639
312/384-2070
Major Safety Service, Inc.
4500 Patent Rd.
Norfolk, VA 23502
800/446 - 8274,
Mar-Mac Manufacturing Co., Inc.
• P.O. Box 278
McBee, SC 29101
803/335-8211
Marathon Rubber
510 Sherman Street
Wausau, WI 54401
715/845-6255
-------�
VENDOR ’ DIRECTORY
Masterman’s
Auburn Industrial Park
P.O. Box 224
Auburn, MA 01501
617/755-7861
Melco, Inc.
6603 Governor Printz Blvd.
Wilmington, DE 19809
800/441-9749
Memphis Glove Company
Division of Shelby Group, Inc.
P.O. Box 171814
Memphis, TN 38187
‘901/795-0672
Miller Products. Co., Inc.
29 Warren Street
New York, NY 10007
212-267-5334
Mine Safety Appliances Co.
608 Penn Center Blvd.
Pittsburgh, PA 15235
800/672-2222
Monte Glove Company
Monte Lane
Maben, MI 39750
601/263-5353
National Draeger, Inc.
101 Technology Drive
P.O. Box 120
Pittsburgh,. PA 15230
412/787-8383
D- 15
-------�
VENDOR; DIRECTORY
National Safety Wear, Inc.
18 East Main St.
Malone, NY 12953
518/483-7246
Neese Industries Inc.
P.O. Box 628
Gonzales, LA 70737
.800/535-8042
Nolato
Address not available.
‘North Hand Protection
A Division of Siebe North,’ Inc.
4090 Azalea Drive
P.O. Box 70729
Charleston, SC 29405
803/554-0660
OKI Supply Co.
7584 Reinhold Drive
Cincinnati, OH 45237
513/761-9811
Oak Medical Supply Co.
Subsidiary of The Oak Rubber Company
219 S. Sycamore Street
Ravenna, OH 44266
216-296-3416
Oak Technical, Inc.
218 Sycamore Street
Ravenna, OH 44266.
‘216/296-3416
D- 16
-------�
VENDOR DIRECTORY
PPG Industries, Inc.
Optical Products, Chemical
One PPG Place
Pittsburgh, PA 15272
412/434-3751
Panelgraphic Corporation
10 Henderson Drive
W. Caidwell, NJ 07006
800/222-0618
Pendergast Safety Equipment Co.
6900 Tulip St.
Philadelphia, PA 19135
215/332- 1663
Pharmaseal Laboratories Inc.
1015 Grandview Avenue
Glendale, CA 91201
213/240-8900
Pioneer Industrial Products Co.
512 East Tiffin Street
Willard, OH 44890
419/933-2211
Plastex Protective Products, Inc.
9 Grand Street
P.O. Box 57
Garfield, NJ 0702.6
201/779-4946
Plastimáyd Corp. .
2204 S.E. Seventh Avenue
P.O. Box 14217
Portland, OR 97214
503/232- 5101
D—17
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VENDOR DIRECTORY
Protech Safety Equipment Inc.
P.O. Box 455
Linden, NJ 07036
201/862-1550
Protexall Company
P.O. Box 307
Green Lake, WI 54941
414/294-6511
Pulmosan Safety Equipment Corp.
30-48 Linden Place
Flushing, NY 11354
212/939-3200
Rainfair, Inc.
P.O. Box 1647
Racine, WI 53401
800/558-5990
Ranger
Division of Endicott Johnson
1100 E. Main St.
Endicott, NY 13760
607/757-4260
Record Industrial Co.
1020 Eighth Avenue
P.O. Box 407
King of Prussia, PA 19406
215/337-2500
Renco Corp
2060 Fairfax Avenue
Cherry Hill, NJ 08003
609/424-5755
D-18
-------�
VENDOR. DIRECTORY
Rich Industries
‘Address not available.
Robar Protective Products
2213 W. Glenwood Avenue
Philadelphia, PA 19132
800/523-5367
Rockford Medical & Safety Co.
4620 Hydraulic Rd.
P.O. Box 5166
Rockford, IL 61125
815/874-7891
Ronco Textile Products, Inc.
1405 East Lake Avenue
Peoria Heights, IL 61614
309/685-7266
SGL Honialite Industries
P.0 :. 3049
Wilmington, DL 19804
302/652-3686
Safeco Inc.
337 E. Center Street
P.O. Box 28
Kingsport, TN 37660
615/246-3552 -
Safety Engineering & Supply Co.
P.O. Box 147
Deer Park, TX 77536
713/476-9118
D- 19
-------�
VENDOR:. DIRECTORY
Safety First Industries
4900 Campbell Road
• Willoughby, OH 44094
216/946-1880
The Sager Corporation
65 E. Palatine Road
‘Prospect Heights, IL 60070
312/541-1361
W.H. Salisbury & Co.
Box 1060
• 7520 N. Long Avenue
Skokie, IL 60077
312/679-6700
Sawyer-Tower
Division of Lion Uniform
2735 Kerns Avenue
- Dayton, OH 45414
Seiberling
Address not available.
Shelby-Wolverine Glove Coi pany
P.O. Box 8735
Grand Rapids, MI 49518
616/698-7220
Singer Safety Co.
3800 N. Milwaukee Ave.
Chicago, IL 60641
312/286-1000
D-2O
-------�
VENDOR DIRECTORY
Standard Glove & Safety Equip. Corp.
34300 Lakeland Boulevard
Eastlake, OH 44094
216-951-7440
Standard Safety Equipment Co.
P.O. Box 188
Palatine, IL 60078
312/359-1400
Stauffer Manufacturing Company
P.O.. Box 45
6th Street
Red Hill, PA 18076
215/679 -4446
Steel Grip Safety Apparel Co., Inc.
700 Garfield Street
Danville, IL 61832
217/442-6240
Steele & Associates, Inc.
P.O. Box 20368
Seattle, WA 98102
206/3 24- 9445
Superior Surgical Mfg. Co., Inc..
Superior Surgical Park
Seminole Boulevard at 100th Terrace
Seminole, FL 33542
813/397-9611
Surety-Sure Seal
Address not available.
D—21
-------�
VENDOR DIRECTORY
H. Texier Clove Company Inc.
Highway 22 at Mountain Avenue
North Plainfield, NJ 07061
201/757-0616
3M Company
3M Center
Bldg. 220-7W
St. Paul, MN 55144
612/733-6234
Tingley Rubber Corp.
P.O. Box 100
South Plainfield, NJ 07080
201/757-7474
The Tracies Co.
102 Cabot St.
Holyoke, MA 01040
413/533-7141
Trelleborg, Inc.
30700 Solon Industrial Parkway
Solon, OH. 44139
216/248-8600
United States Plastic Corp.
1390 Neubrecht Road
Lima, OH 45801
419/228-2242
United States Safety Service Co.
1535 Walnut St.
P.O. Box 1237
Kansas City, MO 64141
816/842-8500
D—22
-------�
VENDOR. DIRECTORY.
Vidaro Corp.
333-T Martinel. Drive
P.O. Box 535-T
Kent, OH 44240
216/673-7413
Viny lprodukter
S -261
23 Landskrôna, Sweden
Wheeler Protective Apparel, Inc.
4330 W. Belmont Ave.
Chicago, IL 60641
312/685- 5551
Wilison Safety Products
P.O. Box 622
Reading, PA 19603
215/376- -6161
D—23
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APPENDIX E
PRODUCT DESCRIPTION CODE
E— 1
-------�
PRODUCT DESCRIPTION CODES AND RESISTANT MATERIALS
INDICATES A LAYERED (EITHER COATED OR LAMINATED) MATERIAL STRUCTURE.
LAYERS ARE DESCRIBED BEGINING WITH THE EXTERIOR SURFACE.
hI÷tt INDICATES A POLYMER BLEND.
SUPPORTED: BARRIER MATERIAL IS COATED ONTO A CLOTH GLOVE.
UNSUPPORTED: BARRIER MATERIAL IS PRESENT AS A FREE-STANDING OR FLOCKED MEMBRANE.
NOTE: FABRICS SUCH AS DISPOSAGUARD, DURACUARD, GOR-TEX, SAFE-GUARD, SONTARA,
AND TYVEK ARE NOT COATED AND, THEREFORE, ARE PERMEABLE TO AIR AND MORE
COMFORTABLE TO WEAR. THEY ARE PRIMARILY RECOMMENDED AS BARRIERS TO
PARTICULATES. CAUTION IS RECOMMENDED WHEN USING THESE FABRICS AS
SPLASH PROTECTION SINCE THEY ARE RAPIDLY PENETRATED BY GASES AND
MANY ORGANIC LIQUIDS.
E- 2
-------�
Product Description Codes and Resistant Materials
(in numerical order - - alphabetical listing follows)
Product Resistant
Code Material Product Description
001 NATURAL RUBBER Natural Rubber Latex Glove, Supported
002 NEQPRENE Chloroprene Latex Glove, Supported
003. PVC Polyvinyl Chloride Glove, Unsupported
004 PV ALCOHOL Polyvinyl Alcohol Glove, Supported
005 NITRILE Nitrile Rubber Latex Glove, Supported
006 PE Polyethylene Glove, Unsupported
007 PVC Polyvinyl Chloride Glove, Supported
008 NEOP/NAT RUBBER Cloroprene/Natural Rubber Latex Glove, Unsupported
009 VITON Fluoroelastomer Glove, Solvent Dipped, Unsupported
.010 NEOPRENE Chloroprene Milled/Chloroprene Latex Glove, Unsupported
011 NEOPRENE . Chloroprene Rubber Latex (Baypren) Glove, Unsupported
012 BUTYL Butyl Rubber Latex Glove, Unsupported
013 BUTYL Butyl Rubber Latex Glove, Supported
014 BUTYL Butyl Rubber Glove, Solvent Dipped, Unsupported
015 NATURAL RUBBER Natural Rubber Glove, Solvent Dipped, Unsupported
016 BUTYL/NAT RUBBER Butyl/Natural Rubber Latex Glove, Supported
017 NATURAL RUBBER Natural Rubber Latex Glove, Unsupported
018 NEOPRENE . Chioroprene Rubber Latex Glove, -Unsupported
019 NITRILE Nitrile Rubber Latex Glove, Unsupported
020 NITRILE Nitrile Rubber Glove, Solvent Dipped, Unsuppor.ted
022 VITON/NEOPRENE Fluoroelastomer/Chloroprene Glove, Solv Dipped, Unsupp
023 NAT+NEOP+NBR Natural Rubber+Chloroprene+Nitrile Glove, Unsupported
025 NONWOVEN FABRIC Sontara
026 NEOP+NAT RUBBER Chloroprene+Natural Rubber Latex Glove, Unsupported
027 POLYURETHANE Polyurethane Rubber, Unsupported
028 PVC . Polyvinyl Chioride/Tyvek
029 PTX Polymethylpentane, Face Shield
030 PVC Polyvinyl Chloride, Face Shield
031 NEOPRENE Chloroprene Rubber, Sheet
032 VITON Fluoroelastomer, Sheet
033 NI.TRILE Nitrile Rubber, Sheet
034 BUTYL Butyl Rubber, Sheet
035 PVALCOHOL Polyvinyl Alcohol, Sheet
036 TEFLON FEP Glove
040 . POLYURETHANE Polyurethane Rubber/Polyester
041 PE Polyethylene, High Density, Film
042 FE Polyethylene, Medium Density, Film
044 TEFLON FEP Glove (Crumpled)
045 NATURAL RUBBER Natural Rubber, Sheet
046 BUTYL/NEOPRENE Butyl/Chloroprene Rubber, Boots
047 SBR . Styrenebutadiene Rubber Latex Glove
.048 PE Polyethylene, Low Density, Film
049 PVC Polyvinyl Chloride, Sheet
050 POLYURETHANE Polyurethane Rubber/Nylon
051 NEOPRENE Chlor.oprene Rubber/Polyester
052 CHLOROBUTYL Chlorobutyl Rubber/Nomex
.053 PVC Polyvinyl Chloride/Fabric
054 PVC Polyvinyl Chloride, Film
055 TEFLON FEP/Fiberglass
056 PE . Polyethylene, Density Unknown, Film
057 NITRILE+PVC Nitrile+PVC Glove, Supported
E- 3
-------�
058 NITRILE+PVC
059 NITRILE
060 CPE
061 SARANEX
062 TEFLON
063 SBR
064 BUTYL
065 NEOPRENE+SBR RUBBER
0 6 NEOPRENE+SBR RUBBER
067 TEFLON
068 TEFLON
069 TEFLON
070 CPE
071 NONWOVEN PE
072 TEFLON
073 TEFLON
074 EVA
075 FE.
076 .PE
077 PVC
078 NITRILE
079 GORE -TEX
080 NATURAL RUBBER
081 NEOPRENE
082 POLYURETHANE
083 PVC
084 NITRILE
085 BUTYL
086 NONWOVEN PP
087 NATURAL RUBBER
088 PVC
089 NATURAL RUBBER
090 VITON.
091. FE
092 ‘GORE-TEX
093 NEOPRENE
094 CE’LLULOSE
095 CR 39
096 POLYESTER
097 ACRYLIC
098 POLYCARBONATE
099 CELLULOSE ACETATE
100 VITON/BUTYL
101 VITON/NITRILE
102 PV ALCOHOL
103 EPDM/BUTYL
104 HYPALON/NEOPRENE
105 FE
106 PVC
107 BUTYL
108 HYPALON
Product Resistant
Code Material
Product Description Codes and Resistant Materials
(in numerical order - - alphabetical listing follows)
Product Description
Nitrile+FVC/Fabrjc
Nitrile Rubber/Polyester
Chlorinated Polyethylene
FE/Polyvinyl idenechlor ide/PE/Tyvek
FEP/Nylon
Styrenebutadiene Rubber/Fabric
Butyl Rubber/Nylon
Chloroprene (35%)+SBR(65%)/Nylon- -Tufflon
Chloroprene(15%)+SBR(85%)/Cotton- -Tuffprene
TFE/Nomex
FEP/Noniex
TFE/Nomex/TFE
Chlorinated Polyethylene/Nylon
• Tyvek
TFE/Nomex/TFE Glove
FEP, Face Shield and Lens
Ethylene(86%) Vinyl Acetate(14%)/Polyester
• Polyethylene/Sontara
P0 lye thylene/Tyvek
Polyvinyl Chloride/Nylon
Nitrile Rubber/Nylon
Microporous Teflon/Noniex
Natural Rubber, Boots
Chlóroprene Rubber, Boots
Polyurethane Rubber, Boots
Polyvinyl Chloride, Boots
Nitrile Rubber, Boots
Butyl Rubber, Boots
Safeguard, Duraguard, Corovin
Natural Rubber/Nylon
Polyvinyl Chloride/Rayon
Natural Rubber/Cotton
Fluoroelastomer/Fiberglass
Polyethylene/Fabric
Microporous Teflon/Polyester
Chloroprene Rubber/Nylon
Cellulose Propionate, Face Shield and Lens
Cr 39, Lens and Face Shield
Polyester, Face Shield and Lens
Acrylic, Face Shield and Lens
Polycarbonate, Lens and Face Shield
Cellulose Acetate, Face Shield and Lens
Fluoroelas torner/Butyl/Nylon/Butyl
Fluoroelastomer/Nitrile Rubber Glove, Unsupported
Polyvinyl Alcohol Glove, Unsupported
Ethylenepropylene/Butyl Rubber Glove, Unsupported
Chlorosulfonated Polyethylene/Chloroprene Cloy, Unsupp
Polyethylene/Polypropylene Nonwoven •
Polyvinyl Chloride Glove, Kid 490, Supported
Butyl Rubber/Nomex
Chiorosulfonated Polyethylene Rubber Glove, Unsupp
PROPIONATE
E-4
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10 9
110
111
112
113
114
115
116
117
118
119
122
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
152
153
Product Description Codes and Resistant Materials
(in numerical order - - alphabetical listing follows)
Product Resistant
Code Material
PE/EVOH/PE
• BIJTYL/NEOPRENE
• VITON/NEOPRENE
VITON/CHLOROBUTYL
ECO/BUTYL
VITON/BUTYL
BIJTYL/NEOPRENE
BUTYL/NEOPRENE
HYPALON ,
•BUTYL
HYPALON/NEOPRENE
SILVER SHIELD
PV ACETATE
NEOPRENE
NEOP+NAT RUBBER
NEOPRENE+PVC
ETHYLENE-METHYL ACRL
VITON
BUTYL
PVC
NITRILE
PVC
PE
NONWOVEN PP
NATURAL RUBBER
PE
NEOPRENE
NEOPRENE
BUTYL
NEOPRENE
CHLOROBUTYL
VITON
PVC
VITON
TEFLON
NITRILE
NEOPRENE
SBR/NEOPRENE
NITRILE+PVC
NITRILE+PVC
VITON/CHLOROBUTYL
Product Description
PE/Ethylene Vinyl Alcohol/PE Glove, Unsupported
Butyl/Polyes ter/Chioroprene Rubber
Fluoroelas tomer/Nylon/Chloroprene
Fluoroelas tomer/Polyester/Chlorobutyl
Epichiorohydrin/Butyl Rub Glove, Solv Dipped, Unsupp
Fluoroelastomer/Butyl Glove, Solvent Dipped, Unsupported
Butyl/Chloroprene Rubber Glove, Supported
Butyl/Chloroprene Rubber Glove, Unsupported
Hypalon/Po lyes ter/Hypalon
Butyl/Polyester/Butyl Rubber
Hypalon/Polyes ter/Chloroprene
Silver Shield (North Product), Glove
Polyvinyl Acetate, Sheet
Chioroprene Milled/Chloroprene Latex Glove, Supported
Chloroprene+Nat Rub/Chloroprene+Nat Rub, Unsupported
Chloroprene+PVC/Pblyester
Ethylene-methyl Acrylate Glove
Fluoroelastomer/Fabric/Fluoroelas tomer
Butyl/Fabric/Butyl
Polyvinyl Chloride/Fabric/Polyvinyl Chloride
Nitrile/Fabric
Polyvinyl Chloride/Nylon/Polyvinyl Chloride
Polyethylene/Nylon
Polypropylene, Nonwoven
Natural Rubber/Polyester
Polyethylene/Polyester
Chloroprene Rubber/Fabric
Chloroprene/Fabr ic/Chloroprene
Butyl/Nylon/Butyl
Chloroprene Rubber/Keviar
Chlorobutyl/Nomex/Chlorobutyl
Fluoroelastomer/Polyester/Fluoroelas tomer
Polyvinyl Chloride/Polyester
Fluoroelastomer/Dacron
TFE/Fiberglass/TFE
Nitrile/Fabric/Nitrile
Chloroprene/Cotton/Chloroprene
S tyrenebutadiene/Cotton/Chloroprene
Nitrile+PVC Boot
Nitrile+PVC/Fabric/Nitrile+PVC
Fluoroelas tomer/Nomex/Chlorobutyl
E—5
-------�
Product Description Codes and Resistant Materials
(in alphabetical order of resistant material)
Product Resistant
Code Material Product Description
097 ACRYLIC Acrylic, Face Shield and Lens
012 BUTYL Butyl Rubber Latex Clove, Unsupported
013 BUTYL Butyl Rubber Latex Clove, Supported
014 BUTYL Butyl Rubber Clove, Solvent Dipped, Unsupported
034 BUTYL Butyl Rubber, Sheet
‘064 BUTYL Butyl Rubber/Nylon
085 BUTYL Butyl Rubber, Boots
107 BUTYL Butyl Rubber/Nomex
118 BUTYL Butyl/Polyester/Butyl Rubber
130 BUTYL Butyl/Fabric/Butyl
140 BIJTYL Butyl/Nylon/Butyl.
016 BUTYL/NAT RUBBER Butyl/Natural Rubber Latex Glove, Supported
046 BUTYL/NEOPRENE Butyl/Chloroprene Rubber, Boots
110 BUTYL/NEOPRENE Butyl/Polyester/Chloroprene Rubber
115 BUTYL/NEOPRENE Butyl/Chloroprene Rubber Clove, Supported
116 BUTYL/NEOPRENE Butyl/Chioroprene Rubber Glove, Unsupported
099 CELLULOSE ACETATE Cellulose Acetate, Face Shield and Lens
094, CELLULOSE PROPIONATE Cellulose Propionate, Face Shield and Lens
052’ .CHLOROBUTYL Chlorobutyl Rubber/Nomex
142 CHLOROBUTYL Chlorobutyl/Nomex/Chlorobutyl
060 CPE Chlorinated Polyethylene
070 ‘CPE Chlorinated Polyethylene/Nylon
095 CR 39 Cr 39, Lens and Face Shield
113 ECO/BUTYL Epichlorohydrin/Butyl R xb Glove, Solv Dipped, Unsupp
103 EPDM/BUTYL Ethylenepropylene/Butyl Rubber Clove, Unsupported
128 ETHYLENE-METHYL ACRL Ethylene-methyl Acrylate Glove
074 EVA Ethylene(86%) Vinyl Acetate(l4%)/Polyester
079 CORE-TEX Microporous Teflon/Nomex
092 CORE-TEX Microporous Teflon/Polyester
108 HYPALON Chlorosulfonated Polyethylene Rubber Glove, Unsupp
117 HYPALON Hypa lon/Polyester/Hypalon
104 HYPALON/NEOPRENE Chlorosulfonated Polyethylene/Chloroprene Cloy, Unsupp
119 HYPALON/NEOPRENE Hypalon/Po lyes ter/Chioroprene
023 •NAT+NEOP+NBR Natural Rubber+Chloroprene+Nitrile Glove, Unsupported
001 ‘NATURAL RUBBER Natural Rubber Latex Glove, Supported
015 NATURAL RUBBER Natural Rubber Glove, Solvent Dipped, Unsupported
017 NATURAL RUBBER Natural Rubber Latex Glove, Unsupported
045 NATURAL RUBBER Natural Rubber, Sheet
080 NATURAL RUBBER Natural Rubber, Boots
087 NATURAL RUBBER Natural Rubber/Nylon
089 NATURAL RUBBER Natural Rubber/Cotton
136 NATURAL RUBBER Natural Rubber/Polyester
026 NEOP+NAT RUBBER Chloroprene+Natural Rubber Latex Glove, Unsupported
126 NEOP+NAT RUBBER Chloroprene+Nat Rub/Chloroprene+Nat Rub, Unsupported
008 NEOP/NAT RUBBER Cloroprene/Natural Rubber Latex Glove, Unsupported
002 NEOPRENE Chloroprene ‘Latex Glove, Supported
010 NEOPRENE , Chloroprene Milled/Chloroprene Latex Glove, Unsupported
011 NEOPRENE Chloroprene Rubber Latex (Baypren) Glove, Unsupported
018 NEOPRENE Chioroprene Rubber Latex Glove,Unsupported
031 NEOPRENE Chloroprene Rubber, Sheet
051 NEOPRENE ‘ Chloroprene Rubber/Polyester
E— 6
-------�
Product Description Codes and Resistant Materials
(in alphabetical order of resistant material)
Product Description
Unsupported
Product Resistant
Code Material
081
NEOPRENE
Chloroprene Rubber, Boots
• 093
NEOPRENE
Chloroprene Rubber/Nylon
125
NEOPRENE
Chloroprene Milled/Chloroprene Latex Glove, Support ..4
138
NEOPRENE
Chloroprene Rubber/Fabric
139
NEOPRENE
Chloroprene/Fabric/Chloroprene
141
NEOPRENE
Chloroprene Rubber/Keviar
,
148
NEOPRENE
Chloroprene/Cotton/Chloroprene
127
NEOPRENE+PVC
Chloroprene+PVC/Po lyester
065
NEOPRENE+SBR RUBBER
Chioroprene (35%)±SBR(65%)/Nylon- -Tufflon
066
-NEOPRENE+SBR RUBBER
Chloroprene(15%)+SBR(85%)/Cotton- -Tuffprene
•
005
NITRILE
Nitrile Rubber Latex Glove, Supported
•
019
NITRILE
Nitrile Rubber Latex Glove, Unsupported
020
NITRILE
Nitrile Rubber Glove, Solvent Dipped, Unsupported
033
NITRILE
Nitrile Rubber, Sheet
Nitrile Rubber/Polyester
059
NITRILE
078
NITRILE
Nitrile Rubber/Nylon
084
NITRILE
Nitrile Rubber, Boots
132
NITRILE
Nitrile/Fabric
147
NITRILE
Nitrile/Fabric/Nitrile
•
057
NITRILE+PVC
Nitrile+PVC Glove, Su ported
058
NITRILE+PVC
Nitrile+PVC/Fabric
150
NITRILE+PVC
Nitrile+PVC Boot
152
NITRILE+PVC
Nitrile+PVC/Fabric/Nitrile+PVC
025
NONWOVEN FABRIC
Sontara
071
NONWOVEN PE
Tyvek
086
NONWOVEN PP
Safeguard, Duraguard, Corovin
135
NONWQVEN PP
Polypropylene, Nonwoven
006
PE
Polyethylene Glove, Unsupported
041
PE
Polyethylene, High Density, Film
042
FE
Polyethylene, Medium Density, Film
048
FE
Polyethylene, Low Density, Film
056
PE .
Polyethylene, Density Unknown, Film
.075
FE
Folyethylene/Sontara
076
FE’
Polyethylene/Tyvek
091
FE
Polyethylene/Fabric
105
FE
Polyethylene/Polypropylene Nonwoven
•
134
PE
Polyethylene/Nylon
137
PE
Polyethylene/Polyester
109
PE/EVOH/PE
FE/Ethylene Vinyl Alcohol/PE Glove,
098
POLYCARBONATE
Polycarbonate, Lens and Face Shield
096
POLYESTER .
Polyester, Face Shield and Lens
027
POLYURETHANE
Polyurethane Rubber, Unsupported
040
POLYURETHANE
Polyurethane Rubber/Polyester
050
POLYURETHANE
Polyurethane Rubber/Nylon
082
POLYURETHANE
Polyurethane Rubber, Boots
029
PTX
Polymethylpentane, Face Shiel’d
•
124
PV ACETATE .
Polyvinyl Acetate, Sheet
004
FV ALCOHOL
Polyvinyl Alcohol Glove, Supported
035
PV ALCOHOL
Polyvinyl Alcohol, Sheet
102
PV ALCOHOL
Polyvinyl Alcohol Glove, Unsupported
003
PVC
Polyvinyl Chloride Glove, Unsupported
F:- 7
-------�
Product Description Codes and Resistant Materials
(in alphabetical order of resistant material)
Product Resistant
Code Material Product Description
007 PVC Polyvinyl Chloride Glove, Supported
028 PVC Polyvinyl Chloride/Tyvek
030 PVC Polyvinyl Chloride, Face Shield
049 PVC Polyvinyl Chloride, Sheet
053 PVC Polyvinyl Chloride/Fabric
054 PVC Polyvinyl Chloride, Film
077 PVC Polyvinyl Chloride/Nylon
083 PVC Polyvinyl Chloride, Boots
088 PVC Polyvinyl Chloride/Rayon
106 PVC Polyvinyl Chloride Glove, Kid 490, Supported
131 PVC Polyvinyl Chloride/Fabric/Polyvinyl Chloride
133 PVC Polyvinyl Chloride/Nylon/Polyvinyl Chloride
144 PVC Polyvinyl Chloride/Polyester
061 SARANEX PE/Polyvinylidenechloride/PE/Tyvek
047 SBR Styrenebutadiene Rubber Latex Clove
063 SBR Styrenebutadiene Rubber/Fabric
149 SBR/NEOPRENE S tyrenebutadiene/Cotton/Chloroprene
122. SILVER SHIELD Silver Shield (North Product), Clove
036 TEFLON FEP Clove
044 TEFLON FEP Clove (Crumpled)
055 TEFLON FEP/Fiberglass
062 TEFLON FEP/Nylon
067 TEFLON TFE/Nomex
068 TEFLON FEP/Nomex
069 TEFLON TFE/Nomex/TFE
072 TEFLON TFE/Nomex/TFE Clove
073 TEFLON FEP, Face Shield and Lens
146 TEFLON ‘TFE/Fiberglass/TFE
009 VITON Fluoroelastomer Glove, Solvent Dipped, Unsupported
032 VITON Fluoroelastomer, Sheet
090 VITON Fluoroelastomer/Fiberglas S
129 VITON Fluoroelastomer/Fabric/Fluoroelastomer
143 .VITON Fluoroelastomer/Polyester/Fluoroelastomer
145 VITON Fluoroelastomer/Dacron
100 VITON/BUTYL Fluoroelas tomer/Butyl/Nylon/Butyl
114 VITON/BUTYL Fluoroelastomer/Butyl Clove, Solvent Dipped, Unsupported
112 VITON/CHLOROBUTYL Fluoroelastomer/Polyester/Chlorobutyl
153 VITON/CHLOROBUTYL Fluoroelas tomer/Nomex/Chiorobutyl
022 VITON/NEOPRENE Fluoroelastomer/Chloroprene Glove, Solv Dipped, Unsupp
111 VITON/NEOPRENE Fluoroelas tomer/Nylon/Chloroprene
101 VITON/NITRILE Fluoroelastomer/Nitrile Rubber Glove, Unsupported
E—8
-------�
APPENDIX F
CLOTHING CLASSIFICATION CODE
F-i
-------�
CLOTHING TYPE CODE
( Number corresponds to type shown in Appendix C. )
Coat, Jacket 01
Coveralls 02
‘Apron 03
Pants, ib Overall 04
Full-body Encapsulating Suit 05
Hood 06
Shoe Cover 07
Boot 08.
Face Shield . 09
Glove . 00
F—2
-------�
APPENDIX G
DATA SHEETS FOR ENCAPSULATING ENSEMBLES
(For definitions of terms used in
this appendix, ‘see Chapter 5 and
Appendix A)
G— 1
-------�
MATERIAL
Butyl / Nylon / Butyl
PROTECTION LEVEL
EPA: A (with emergency egress unit.)
GARMENT SEAM
Stitched, strapped with butyl.
CLOSURE
Pressure sealing zipper (Talon, Inc.). Teeth and
slider: 67% copper, 12% nickel, 11% zinc.
LOCATION: Front. LENGTH: 48 inches.
CLOSURE/SUIT SEAM: Same as garment.
SPLASH COVER: Yes.
GLOVES
TYPE: Integral gloves (optional).
MATERIAL: Butyl.
INTERFACE: Same as garment seam.
TYPE: Detachable gloves (optional).
MATERIAL: Butyl.
INTERFACE: Inserts in glove and sleeve create
compression seal or support ring in sleeve with
glove clamp.
BOOTS
TYPE: Integral booties or overboots.
MATERIAL: Butyl/nylon/butyl.
INTERFACE: Same as garment seam.
TYPE: Detachable boots.
MATERIAL: User specified and supplied.
INTERFACE: Splash guards.
VISOR
TYPE: Integral (optional).
MATERIAL: Polycarbonate with 2.5 mil FEP or
30 mil PVC splash visor.
INTERFACE: No data.
TYPE: Detachable (optional).
MATERIAL: Polycarbonate/triacetate.
INTERFACE: Chloroprene gasket.
EXHAUST VALVES
NUMBER: 4. TYPE: Flapper valve.
MATERIALS: No data.
LOCATION: Shoulder and leg areas.
CRACKING PRESSURE: 1/2-inch water.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Umbilical feed. Hood accommodates face mask,
suit accommodates internal, emergency egress
unit.
COOLING
Air distribution system (optional).
FITTINGS
AIRLINE: No data.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE VENDOR
LL-100 — Toxicological Butyl Andover Industries Inc.
THICKNESS: 14 mils 15 Union Street
MATERIAL WGT: 12 oz/sq yd Lawrence, MA 01840
ENSEMBLE WGT: No data (617) 794-1792
SIZES: No data
G- .2
-------�
MATERIAL
Butyl/Nylon/Butyl
PROTECTION LEVEL
EPA: A (with emergency egress unit.)
GARMENT SEAM
Stitched, strapped with butyl.
CLOSURE’. -
Pressure sealing zipper (Talon, Inc.). Teeth and
slider:’67% copper, 12% nickel, 11% zinc.
LOCATION: Front. LENGTH: 48 inches.
CLOSURE/SUIT SEAM: Same as garment.
SPLASH COVER: Yes.
GLOVES’
TYPE: Integral gloves (optional).
MATERIAL: Butyl.
INTERFACE: Same as garment seam.
TYPE: Detachable gloves (optional).
MATERIAL: Butyl.
INTERFACE: Inserts in glove and sleeve create
compression seal or support ring in sleeve with
glove clamp.
BOOTS
TYPE: Integral booties or overboots.
MATERIAL: Butyl/nylon/butyl.
INTERFACE: Same as garment seam.
TYPE: Detachable boots.
MATERIAL: User specified and supplied.
INTERFACE: Splash guards.
VISOR
TYPE: Integral (optional).
MATERIAL: Polycarbonate with 2.5 mil FEP or
30 mil PVC splash visor.
INTERFACE: No data.
TYPE: Detachable (optional).
MATERIAL: Polycarbonate/triacetate.
INTERFACE: Chloroprene gasket.
EXHAUST VALVES
‘NUMBER: 4. TYPE: Flapper valve.
MATERIALS: No data.
LOCATION: Shoulder and leg areas.
CRACKING PRESSURE: No data.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Umbilical feed. Hood accommodates face mask,
suit accommodates internal, emergency egress
unit.
COOLING
Air distribution system (optional).
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE - ‘ VENDOR
LL-100 — Chemical Butyl Andover Industries Inc.
THICKNESS: 15 mils 15 Union Street
MATERIAL WGT: 11.5 oz/sq yd Lawrence, MA 01840
ENSEMBLE WGT: No data (617) 794-1792
S!ZES: No data
FITTINGS
AIRLINE: No data.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
G- 3
-------�
MATERIAL
Butyl / Nylon / Butyl
PROTECTION LEVEL
EPA: A
GARMENT SEAM
Stitched, strapped with butyl.
CLOSURE
Pressure sealing zipper.
LOCATION: Back. LENGTH: 48 inches.
CLOSURE/SUIT SEAM: No data.
SPLASH COVER: Yes.
GLOVES
TYPE: Detachable gloves.
MATERIAL: User specified and supplied.
INTERFACE: Inserts in glove and sleeve create.
compression seal.
BOOTS
TYPE: Integral booties or boots.
MATERIAL: Butyl/nylon/butyl.
‘INTERFACE: Same as garment seam.
TYPE: Detachable boots.
MA1:ERIAL: User specified and supplied.
INTERFACE: Splash guards.
VISOR
TYPE: Detachable.
MATERIAL: Poly(methyl methacrylate).
INTERFACE: No data.
EXHAUST VALVES
NUMBER: 4. TYPE: Flapper valve (Glendale, Inc.)
MATERIALS: No data.
LOCATION: Back of legs.
CRACKING PRESSURE: 0.4 psi.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus or umbilical feed. Hood
accommodates face mask.
COOLING
Air distribution system or ice vest/jacket.
FITTINGS
AIRLINE: 1/4-inch brass.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE VENDOR,
305 B/BA , Fyrepel Products Inc.
THICKNESS: 14 mils Box 518
MATERIAL WGT: 14 oz/sq yd Newark, OH 43055
ENSEMBLE WGT: 12 lbs (614) 344-0391
SIZES: S, M, L, XL
(for heights 5’4” — 65”) , ‘ , -
G —4
-------�
MATERIAL
PROTECTION LEVEL
GARMENT SEAM
Stitched, strapped with butyl.
CLOSURE
Pressure sealing zipper.
LOCATION:. Front. LENGTH: No data.
CLOSURE/SUIT SEAM: No data.
SPLASH COVER: Yes.
GLOVES
TYPE: Detachable gloves.
MATERIAL: User specified and supplied.
INTERFACE: Inserts in glove and sleeve create
compression seal.
BOOTS
TYPE: Integral booties or boots.
MATERIAL: Butyl/nylon/butyl.
INTERFACE: Same as garment seam.
TYPE: Detachable boots.
MATERIAL: User specified ‘and supplied.
INTERFACE: Splash guards.
VISOR
TYPE: Detachable.
MATERIAL: Poly(methyl methacrylate).
INTERFACE: No data.
EXHAUST VALVES
NUMBER: 4. TYPE: Flapper valve (Glendale, Inc.)
MATERIALS: No data.
LOCATION: Back of legs.
CRACKING PRESSURE: 0.4 psi.
MAX FLOW RATE: No data.,
SPLASH COVER: Yes.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance:’ No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
Butyl/Nylon/Butyl EPA: A
STYLE 0 VENDOR
306 B/BA Fyrepel Products Inc.
THICKNESS: 14 mils Box 518
MATERIAL WGT: 14 oz/sq yd Newark, OH 43055
ENSEMBLE WGT: 12 lbs (614) 344-0391
SIZES: 5, M, L, XL
(for heights 5’4” — 6’5”)
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus or umbilical feed. Hood
accommodates face mask.
COOLING
Air distribution system or ice vest/jacket.
FITTINGS
AIRLINE: 1/4-inch brass.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
C- 5
-------�
MATERIAL
PROTECTION LEVEL
GARMENT SEAM
Double lapped, stitched, cemented, interior
strapped with chloroprene, exterior strapped with
butyl.
CLOSURE
Pressure sealing zipper.
LOCATION: Front. LENGTH: 53 inches.
CLOSURE/SUIT SEAM: Same as garment seam.
SPLASH COVER: Yes.
GLOVES
TYPE: Detachable gloves.
MATERIAL: Chloroprene or butyl.
INTERFACE: Support ring in sleeve, elastic band.
EXHAUST VALVES
NUMBER: 1. TYPE: No data.
MATERIALS: Polyethylene! polystryrene, rubber
diaphragm.
LOCATION: Hood area.
CRACKING PRESSURE: 0.3-inch water.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus. Hood accommodates face
mask.
COOLING
Air distribution system.
FITTINGS
BOOTS
TYPE: Integral boots or booties.
MATERIAL: Polyvinyl chloride.
INTERFACE: Same as garment.
TYPE: Detachable boots.
MATERIAL: User specified and supplied.
INTERFACE: Splash guard.
VISOR
TYPE: Integral.
MATERIAL: 80 mil PVC visor.
INTERFACE: Adhesive bonded, interior strapped
with butyl.
AIRLINE: No data.
COMMUNICATION: None.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: (ASTM D-751), 110 lbs/inch.
Tear Strength: (ASTM D-751), 10 lbs.
Seam Strength: (ASTM D-1682), 110 lbs.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
Butyl/Nylon/Butyl EPA: A
STYLE VENDOR
Trellchem, Butyl Extra Trelleborg, Inc.
THICKNESS: 15-18 mils 30700 Solon Industrial Parkway
MATERIAL WGT: 15 oz/sq yd Solon, OH 44139
ENSEMBLE WGT: 15 lbs (216) 248-8600
SIZES: S, M, L, XL
G— 6
-------�
MATERIAL
Butyl /Nylon / Butyl
PROTECTION LEVEL
EPA:B
GARMENT SEAM
Double lapped, stitched, cemented, interior
strapped with chloroprene, exterior strapped with
butyl.
CLOSURE
-Pressure sealing zipper.
LOCATION: Front. LENGTH: 41 inches.
CLOSURE/SUIT SEAM: Same as garment seam.
SPLASH COVER: Yes.
GLOVES -
TYPE: Detachable gloves.
MATERIAL: Chloroprene or butyl.
INTERFACE: Support ring in sleeve, elastic band.
BOOTS
TYPE: Integral boots or booties.
MATERIAL: Polyvinyl chloride.
INTERFACE: Same as garment seam.
TYPE: Detachable boots.
MATERIAL: User specified and supplied.
INTERFACE: Splash guard.
VISOR
TYPE: Detachable.
MATERIAL: No data.
INTERFACE: No data.
EXHAUST VALVES
NUMBER: 1. TYPE: No data.
MATERIALS: Polyethylene/polystyrene, rubber
diaphragm.
LOCATION: Chest area.
CRACKING PRESSURE: 0.3-inch water.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
PHYSICAL PROPERTIES
(PRIMARY MATERiAL)
Tensile Strength: (ASTM D-751), 110 lbs/in.
Tear Strength: (ASTM D-751), 10 lbs.
Seam Strength: (ASTM 0-1682), 110 lbs.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE VENDOR
Trellchem, Butyl Trelleborg, Inc.
THICKNESS: . 15-18 mils 30700 Solon Industrial Parkway
MATERIAL WGT: 15 oz/sq yd Solon, OH 44139
ENSEMBLE WGT: 13 lbs (216) 248 8600
SIZES: S, M, L, XL
AIR SUPPLY
External back pack or umbilical feed.
COOLING
Air distribution system.
FITTINGS
AIRLINE: No data.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: Yes.
G—7
-------�
MATERIAL
Butyl! Polyester! Chioroprene
PROTECTION LEVEL
EPA: A
GARMENT SEAM
Double stitched, interior strapped with
chloroprene, exterior sealed with liquid butyl.
CLOSURE
Pressure sealing zipper (Dynat, Inc.), stainless
steel teeth, brass slider, chloroprene backing.
LOCATION: Front. LENGTH: 72 inches.
CLOSURE/SUIT SEAM: Same as garment.
SPLASH COVER: None.
GLOVES
TYPE: Detachable gloves.
MATERIAL: Chloroprene or butyl.
INTERFACE: Brass support ring in sleeve,
stainless steel glove clamp, natural rubber glove
ring sleeve.
TYPE: Detachable overgloves.
MATERIAL: Viton or butyl.
INTERFACE: None.
BOOTS
EXHAUST VALVES
NUMBER: 3. TYPE: Flapper valve.
MATERIALS: Chioroprene valve cover,
chloroprene and natural rubber valve disk, nylon
valve seat, stainless steel slide ring, nylon
threaded ring.
LOCATION: Hood area.
CRACKING PRESSURE: No data.
MAX FLOW RATE: No data.
SPLASH COVER: None.
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus. Hood accommodates face
mask.
COOLING
Air distribution system (optional).
FITTINGS
AIRLINE: No data.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE VENDOR.
Chempruf II, Betex/SCBA Mine Safety Appliances Co.
THICKNESS: 19 mils P.O. Box 426
MATERIAL WGT: 15.9 oz/sq yd Pittsburgh, PA 15230
ENSEMBLE WGT: No data (412) 273-5000
SIZES: One size
TYPE: Detachable booties.
MATERIAL: Butyl/polyester/chloroprene.
INTERFACE: None.
TYPE: Detachable boots.
MATERIAL: NBR + SBR + natural rubber.
INTERFACE: Aluminum support ring in garment
leg,’stainless steel boot clamp.
VISOR
TYPE: Detachable. .
MATERIAL: 5/32-inch poly(methyl methacrylate)
or 1/8-inch glass.
INTERFACE: Natural rubber gasket.
G—8
-------�
MATERIAL
Butyl/ Polyestert Chioroprene
PROTECTION LEVEL
EPA: A
GARMENT SEAM
Double stitched, interior strapped with
chloropréne, exterior sealed with liquid butyl.
CLOSU RE
Pressure sealing zipper (Dynat, Inc.), stainless
steel teeth, brass slider, chloroprene backing.
LOCATION: Front. LENGTH: 72 inches.
CLOSURE/SUIT SEAM: Same as garment.
SPLASH COVER: None.
GLOVES
TYPE: Detachable gloves.
MATERIAL: Chloroprene or butyl.
INTERFACE: Brass support ring in sleeve,
stainless steel glove clamp, natural rubber glove
ring sleeve.
TYPE: Detachable overgloves.
MATERIAL: Butyl or Viton.
INTERFACE: None.
BOOTS
TYPE: Detachable booties.
MATERIAL: Butyl / polyester! chloroprene
INTERFACE: None.
TYPE: Detachable boots.
MATERIAL: NBR + SBR + natural rubber.
INTERFACE: Aluminum support ring in garment
leg, stainless steel boot clamp.
VISOR
TYPE: Detachable.
MATERIAL: 5/32-inch poly(methyl methacrylate)
or 1/8-inch glass.
INTERFACE: Natural rubber gasket.
EXHAUST VALVES
NUMBER: 3. TYPE: Flapper valve.
MATERIALS: Chloroprene valve cover,
chloroprene and natural rubber valve disk, nylon
valve seat, stainless steel slide ring, nylon
threaded ring.
LOCATION: Hood area.
CRACKING PRESSURE: No data.
MAX FLOW RATE: No data.
SPLASH COVER: None.
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus or umbilical feed. Hood
accommodates face mask.
COOLING
Air distribution system (optional).
FITTINGS
AIRLINE: Aluminum and vinyl washers, brass
fittings, quick disconnect.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE VENDOR
Chempruf II, Betex/DPBA Mine Safety Appliances Co.
THICKNESS: 19 mils P.O. Box 426
MATERIAL WGT: 15.9 oz/sq yd Pittsburgh, PA 15230
•ENSEMBLE WGT: No data (412) 273-5000
SIZES: One size
C— 9
-------�
• MATERIAL
Chlorinated Polyethylene
PROTECTION LEVEL
EPA: No Rating (See Section 5.B.8.)
GARMENT SEAM
Thermally welded.
CLOSURE
Inner restraint zipper with extruded chlorinated
polyethylene sealing lips.
LOCATION: Front. LENGTH: No data.
CLOSURE/SUIT SEAM: Same as garment.
SPLASH COVER: None.
GLOVES
TYPE: Detachable gloves.
MATERIAL: User specified and supplied.
INTERFACE: Molded ABS connect ring in sleeve,
rubber connect ring in glove.
BOOTS
TYPE: Integral ‘booties.
MATERIAL: Chlorinated polyethylene.
INTERFACE: Same as garment seam.
TYPE: Detachable boots.
MATERIAL: User specified and supplied.
INTERFACE: Splash guards.
VISOR
TYPE: Integral.
MATERIAL: Press-polished optical ‘grade 40 mil
vinyl with polyester splash visors.
INTERFACE: No data.
EXHAUST VALVES
NUMBER: 2. TYPE: Flapper valve.
MATERIALS: No data.
LOCATION: Shoulder area.
CRACKING PRESSURE: No data.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE VENDOR
Chemturion, Model 12 .‘ ILC Dover, Inc.
THICKNESS: 20 mils ‘ P.O. Box 266
MATERIAL WGT: 19.7 oz/sq yd Frederica, DE 19946
ENSEMBLE WGT: 4 lbs (302) 335-3911
SIZES: L, XL
(for heights 5’4” — 6’8”)
AIR SUPPLY
Umbilical feed.
COOLING
Air distribution system or liquid body cooling.
FITTINGS
AIRLINE: 1/4-inch NPT brass.
COMMUNICATION: No data:
COOLING: No data.
INFLATION VALVE: No data.
G- 10
-------�
MATERIAL
PROTECTION LEVEL
GARMENT SEAM
Thermally welded.
CLOSURE
Inner reétraint zipper with extruded chlorinated
polyethylene sealing lips.
LOCATION: Front. LENGTH: No data.
CLOSU.REISUIT SEAM: Same as garment.
SPLASH COVER: None.
VISOR
TYPE: Integral.
MATERIAL: Press-polished optical grade 40 mil
vinyl with polyester splash visors.
INTERFACE: No data.
EXHAUST VALVES
NUMBER: 2. TYPE: Flapper valve.
MATERIALS: No data.
LOCATION: Shoulder area.
CRACKING PRESSURE: No data.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus. Hood accommodates face
mask.
COOLING
Liquid body cooling (optional).
FITTINGS
AIRLINE: No data.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
Chlorinated Polyethylene EPA: A
STYLE VENDOR
Chemturion, Model 13 ILC Dover, Inc.
THICKNESS: . 20 mils P.O. Box 266
MATERIAL WGT: 19.7 oz/sq yd Frederica, DE 19946
ENSEMBLE WGT: 4 lbs (302) 335-3911
SIZES: One size
(for heights 5’4” — 6’4”)
GLOVES
TYPE: Detachable gloves.
MATERIAL: User specified and supplied.
INTERFACE: Molded ABS connect ring in sleeve,
rubber connect ring in glove.
BOOTS
TYPE: Integral booties.
MATERIAL: Chlorinated polyethylene.
INTERFACE: Same as garment seam.
TYPE: Detachable boots.
MATERIAL: User specified and supplied..
INTERFACE: Splash guards.
c—il
-------�
• MATERIAL
Chlorinated Polyethylene
PROTECTION LEVEL
EPA: A
GARMENT SEAM
Thermally welded.
CLOSURE
Inner restraint zipper with extruded chlorinated
polyethylene sealing lips.
LOCATION: Rear. LENGTH: No data.
CLOSURE/SUIT SEAM: Same as garment.
SPLASH COVER: None.
GLOVES
TYPE: Integral gloves.
MATERIAL: Polyvinyl chloride.
INTERFACE: Same as garment seam.
BOOTS
TYPE: Integral booties.
MATERIAL: Chlorinated polyethylene.
INTERFACE: Same as garment seam.
TYPE: Detachable boots.
MATERIAL: User specified and supplied.
INTERFACE: Splash guards.
VISOR
TYPE: Integral.
MATERIAL: Polycarbonate with antifog coating
and splash visors.
INTERFACE: No data.
EXHAUST VALVES
NUMBER: 4: TYPE: Spring operated.
MATERIALS: No data.
LOCATION: Legs and shoulder areas.
CRACKING PRESSURE: No data.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus (Bio-Marine Bio-Pak 60P’
rebreather). Hood accommodates face mask.
COOLING
Liquid body cooling.
FITTINGS
AIRLINE: No data.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: Standard tire valve.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE VENDOR
Chemturion, Model 51 • ILC Dover, Inc.
THICKNESS: 20 mils P.O. Box 266
MATERIAL WGT: 19.7 oz/sq yd Frederica, DE 19946 •
ENSEMBLE WGT: 4 lbs (302) 335-3911
SIZES: S, M, L •
(for heights 5’4” - 6’4”)
G—12
-------�
MATERIAL
PROTECTION LEVEL
Chiorobutyl / Nomex / Chiorobutyl
EPA: No Rating (See Section 5.B.8.)
GARMENT SEAM
Cemented, strapped with butyl.
CLOSURE
Pressure sealing zipper (B.F. Goodrich), brass
teeth and slider, chioroprene coated nylon filled
cotton fabric.
LOCATiON: Front. LENGTH: 45 or 50 in.
CLOSURE/SUIT SEAM: Sewn in and overlaid
with cement bonded suit material strapping.
SPLASH COVER: Yes.
GLOVES
TYPE: Detachable gloves.
MATERIAL: Butyl.
INTERFACE: Molded butyl connect ring in sleeve
and glove with butyl roildown covers.
BOOTS
TYPE: Detachable boots.
MATERIAL: PVC.
INTERFACE: Molded butyl connect rings in
garment leg and boot with butyl roildown covers.
VISOR
TYPE: Detachable
MATERIAL: 25 mu modified acrylic.
INTERFACE: Butyl rubber gasket.
EXHAUST VALVES
NUMBER: 3. TYPE: Flapper valve - Sierra Eng 50.
MATERIALS: Aluminum housing and plate, butyl
rubber antibackstreaming valve.
LOCATION: Hip and hood areas.
CRACKING PRESSURE: 0.5-inch water.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AiR SUPPLY
Expanded back accommodates self-contained,
2-hour back pack, liquid air charged, 7.0 liters, or
umbilical feed.
COOLING
Liquid air evaporation, air distribution system.
Vortex cooling (optional).
FITTINGS
AIRLINE: Stainless steel quick disconnect for
vortex cooling system.
COMMUNICATION: Various types (optional).
COOLING: See AIRLINE.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE VENDOR
SCAPE RFHCO Arrowhead Products
THICKNESS: 19 mils 4411 Katella Avenue
MATERIAL WGT: 17 oz/sq yd . Los Alamitos, CA 90720
ENSEMBLE WGT: No data (714) 828-7770
SIZES: Nine sizes
G— 13
-------�
MATERIAL
Ch orobutyI/Nomex/Chlorobu l
PROTECTION LEVEL
EPA: No Rating (See Section 5,B.8.)
GARMENT SEAM
Nylon stitched, strapped with chlorobutyl
(chloroprerie adhesive).
CLOSURE
Inner restraint zipper with extruded chlorinated
polyethylene sealing lips.
LOCATION: No data. LENGTH: No data.
CLOSURE/SUIT SEAM: Same as garment.
SPLASH COVER: None.
GLOVES
TYPE: Detachable gloves.
MATERIAL: User specified and supplied.
INTERFACE: Metal connect.rings in sleeve and
glove.
VISOR
TYPE: Detachable.
MATERIAL: Polycarbonate,
INTERFACE No data.
EXHAUST VALVES
NUMBER: 4. TYPE: Flapper valve.
MATERIALS: No data.
LOCATION: Legs and shoulder areas.
CRACKING PRESSURE: No data.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE . VENDOR
Propellant Handlers Ensemble . ILC Dover, Inc.
THICKNESS: 20 mils P.O. Box 266
MATERIAL WGT: No data Frederica, DE 19946
ENSEMBLE WGT: No data (302) 335-3911
SIZES: No data
AIR SUPPLY
External back pack or umbilical feed.
COOLING
No data.
FITTINGS
AIRLINE: No data.
COMMUNICATION: No data.
COOLiNG: No data.
INFLATION VALVE: No data.
BOOTS
TYPE: Detachable boots.
MATERIAL: User specified and supplied.
INTERFACE: Metal cbnnect rings in garment leg
and boot.
G—14
-------�
MATERIAL
Chloroprene/ Nylon
PROTECTION LEVEL
EPA: B
VISOR
TYPE: Detachable.
MATERIAL:’No data.
INTERFACE: No data.
EXHAUST VALVES
NUMBER: None. TYPE: Not available.
MATERIALS: Not available.
LOCATION: Not available.
CRACKING PRESSURE: Not available.
MAX FLOW RATE: Not available.
SPLASH COVER: Not available.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE VENDOR
Type 500 CK National Draeger, Inc.
THICKNESS: No data 101 Technology Drive
MATERIAL WGT: No data Pittsburgh, PA 15230
ENSEMBLE WGT: No data (412) 787-8383
SIZES: Above 5’l 1
• . ‘ Below 5’l 1”
GARMENT SEAM
Double stitched, exterior strapped with
ch loroprene.
CLOSURE
Pressure sealing zipper.
LOCATION: Front. LENGTH: No data.
CLOSURE/SUIT SEAM: No data.
SPLASH COVER: Yes.
GLOVES
TYPE: Detachable gloves.
MATERIAL:’ Viton.
INTERFACE: Support ring in sleeve, steel glove
clamp.
AIR SUPPLY
External back pack. Face mask incorporated in
suit.
COOLING
None.
FITTI NGS
AfRLINE: No data.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
BOOTS T
TYPE: Detachable boots. ‘
MATERIAL: Chloroprene.
INTERFACE: Support ring in garment leg, steel
boot clamp.
I-
C— 15
-------�
MATERIAL
Ch loroprene/ Nylon
PROTECTION LEVEL
EPA: No.Rating (See Section 5.B.8.)
GARMENT SEAM
Double stitched, exterior strapped with
chloroprene.
CLOSURE
Pressure sealing zipper.
LOCATION: Front. LENGTH: No data.
CLOSURE/SUIT SEAM: No data.
SPLASH COVER: None.
GLOVES
TYPE: Detachable gloves.
MATERIAL: Viton.
INTERFACE: Support ring in sleeve, steel glove
clamp.
BOOTS
TYPE: Detachable boots.
MATERIAL: Chloroprene.
INTERFACE: Support ring in garment leg, steel
‘boot clamp.
VISOR
TYPE: Integral.
MATERIAL: No data.
INTERFACE: No data.
EXHAUST VALVES
NUMBER: 1. TYPE: No data.
MATERIALS: No data.
LOCATION: Chest area.
CRACKING PRESSURE: No data.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus. Face mask incorporated in
suit.
COOLING
None.
FITTINGS
AIRLiNE: No data.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiftness: No data.
Flex Fatigue: No data.
STYLE VENDOR
Type 600 CK National Draeger, Inc.
THICKNESS: No data ioi Technology Drive
MATERIAL WGT: No data Pittsburgh, PA 15230
ENSEMBLE WGT: No data . (412) 787-8383
SIZES: One size
G- 16
-------�
MATERIAL
PROTECTION LEVEL
Polyvinyl Chloride/Nylon
EPA: A (with emergency egress unit.)
GARMENT SEAM
Stitched, strapped with PVC.
CLOSURE
Pressure sealing zipper (Talon, Inc.). Teeth and
slider: 67% copper, 12% nickel, 11% zinc.
LOCATION: Front. LENGTH: 48 inches.
CLOSURE/SUIT SEAM: No data.
SPLASH COVER: Yes.
VISOR
TYPE: Integral (optional).
MATERIAL: Polycarbonate with 2.5 mil FEP or
30 mil PVC splash visor.
INTERFACE: No data.
TYPE: Detachable (optional).
MATERIAL: Polycarbonate/triacetate.
INTERFACE: Chloroprene gasket.
EXHAUST VALVES
NUMBER: 4. TYPE: Flapper valve.
MATERIALS: No data.
LOCATION: Shoulder and leg areas.
CRACKING PRESSURE: No data.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Umbilical feed. Hood accommodates face mask,’
suit accommodates internal, emergency egress
unit.
COOLING
Air distribution system (optional).
FITTINGS
AIRLINE: No data.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE VENDOR
LL-100 — Polyvinyl Chloride Andover Industries Inc.
THICKNESS: 15 mils 15 Union Street
MATERIAL WGT: 10 oz/sq yd . Lawrence, MA 01840
ENSEMBLE WGT: No data (617) 794-1792
SIZES: No data
GLOVES
TYPE: Integral gloves (optional).
MATERIAL: Polyvinyl chloride.
INTERFACE: Same as garment seam.
TYPE: Detachable gloves (optional).
MATERIAL: Polyvinyl chloride.
INTERFACE: Support ring in sleeve, stainless
steel glove clamp.
BOOTS
TYPE: Integral booties.
MATERIAL: PVC/nylon.
INTERFACE: Same as garment seam.
TYPE: Detachable boots.
MATERIAL: User specified and supplied.
INTERFACE: Splash guards.
C—17
-------�
MATERIAL
Polyvinyl Chloride/Polyester
PROTECTION LEVEL
EPA: No Rating (See Section 5.B.8.)
GARMENT SEAM
Stitched, strapped with PVC (welded).
CLOSURE
Pressure sealing zipper.
LOCATION: Rear. LENGTH: No data.
CLOSURE/SUIT SEAM: No data.
SPLASH COVER: None.
GLOVES
TYPE: Detachable gloves.
MATERIAL: Polyvinyl chloride.
INTERFACE: Inserts in glove and sleeve create
compression seal.
BOOTS
TYPE: Integral overboots (optional).
MATERIAL: Polyvinyl chloride.
INTERFACE: Same as garment seam.
TYPE: Detachable boots (optional).
MATERIAL: Chloroprene.
INTERFACE: Inserts in boot and garment leg
create compression seal.
VISOR
TYPE: Integral.
MATERIAL: 40 mil flexible vinyl;
INTERFACE: No data.
EXHAUST VALVES
NUMBER: 4. TYPE: Flapper valve.
MATERIALS: ABS housing, natural rubber
flapper.
LOCATION: Back and leg areas.
CRACKING PRESSURE: No data.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
External back pack or umbilical feed. Face mask
incorporated in suit.
COOLING
Air distribution system or vortex cooling.
FITTINGS
AIRLINE: No data.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE VENDOR
Stasafe, Accordion Standard Safety Equipment Co.
THICKNESS: 28-30 mils P.O. Box 188
MATERIAL WGT: 27 oz/sq yd Palatine, IL 60078-01 88
ENSEMBLE WGT: No data (312) 359-1400
SIZES: No data
c—i 8
-------�
MATERIAL
Polyvinyl Chloride/Polyester
PROTECTION LEVEL
EPA: A
GARMENT SEAM
Stitched, strapped with PVC (welded).
CLOSURE
Pressure sealing zipper.
LOCATION: Rear. LENGTH: No data.
CLOSURE/SUIT SEAM: No data.
SPLASH COVER: None.
BOOTS
TYPE: Integral booties or overboots.
MATERIAL: Polyvinyl chloride.
INTERFACE: Same as garment seam.
TYPE: Detachable boots.
MATERIAL: Polyvinyl chloride.
INTERFACE: PVC inserts in boot and garment leg
create compression seal.
VISOR
TYPE: Integral.
MATERIAL: 40 mil flexible PVC.
INTERFACE: No data.
EXHAUST VALVES
NUMBER: 4. TYPE: Flapper valve.
MATERIALS: ABS housing, natural rubber
flapper.
LOCATION: Back and leg areas.
CRACKING PRESSURE: No data.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus. Hood accommodates face
mask.
COOLING
Air distribution system or vortex cooling.
FITTINGS
AIRLINE: No data.
COMMUNICATJON No data.
COOLING: No data,
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE VENDOR
Stasafe, .Acidmaster Standard Safety Equipment Co.
THICKNESS: 28-30 mils P.O. Box 188
MATERIAL WGT: 27 oz/sq yd Palatine, IL 60078-01 88
ENSEMBLE WGT: No data (312) 359-1400
SIZES: M, L, XL
(for heights 5’8” — 6’5”)
GLOVES
•TYPE: Detachable gloves.
MATERIAL: Polyvinyl chloride.
INTERFACE: PVC inserts in glove and sleeve
create compression seal.
C— 19
-------�
MATERIAL
PROTECTION LEVEL
Polyvinyl Chloride/Polyester
EPA: A (with emergency egress unit.)
GARMENT SEAM
Stitched, strapped with PVC (welded).
CLOSURE
Standard zipper. Pressure sealing zipper optional.
LOCATION: Rear. LENGTH: No data.
CLOSURE/SUIT SEAM: No data.
SPLASH COVER: Yes.
BOOTS
TYPE: Integral overboots (optional).
MATERIAL: Polyvinyl chloride.
INTERFACE: Same as garment seam.
TYPE: Detachable boots (optional).
MATERIAL: Chioroprene.
INTERFACE: PVC inserts in boot and garment leg
create compression seal.
VISOR
TYPE: Integral.
MATERIAL: 40 mil flexible PVC.
INTERFACE: No data.
EXHAUST VALVES
NUMBER: 4. TYPE: Flapper valve.
MATERIALS: ABS housing, natural rubber
flapper.
LOCATION: Back and leg areas.
CRACKING PRESSURE: No data.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Umbilical feed. Hood accommodates face mask.
Egress bottle (optional).
COOLING
Air distribution system or vortex cooling.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE VENDOR
‘Stasafe, Compressed Air ‘. Standard Safety Equipment Co.
THICKNESS: 28-30 mils P.O. Box 188
MATERIAL WGT: 27 oz/sq yd Palatine, IL 60078-0188
ENSEMBLE WGT: No data (312) 359-1400
SIZES: One size
GLOVES
TYPE: Detachable gloves.
MATERIAL: Polyvinyl chloride.
INTERFACE: PVC inserts in glove and sleeve
create compression seal.
FITTINGS
AIRLINE: No data.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
C— 20
-------�
MATERIAL
Polyvinyl Chloride (PVC)/Nylon/PVC
PROTECTION LEVEL
EPA: A
GARMENT SEAM
Stitched, strapped with PVC.
CLOSURE
Pressuresealing zipper.
LOCATION: Back. LENGTH: 48 inches.
CLOSURE/SUIT SEAM: No data.
SPLASH COVER: Yes.
BOOTS
TYPE: Integral booties or boots.
MATERIAL: PVC/nylon/PVC.
INTERFACE: Same as garment seam.
TYPE: Detachable boots.
MATERIAL: User specified and supplied.
INTERFACE: Splash guards.
VISOR
TYPE: Detachable.
MATERIAL: Poly(methyl inethacrylate).
INTERFACE: No data.
EXHAUST VALVES
NUMBER: 4. TYPE: Flapper valve (Glendale, Inc.)
MATERIALS: No data.
LOCATION: Back of legs.
CRACKING PRESSURE: 0.4 psi.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus or umbilical feed. Hood
accommodates tace mask.
COOLING
Air distribution system or ice vest/jacket.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE VENDOR
305 PVC/BA - Fyrepel Products Inc.
THICKNESS: No data Box 518
MATERIAL WGT: 10 oz/sq yd Newark, OH 43055
ENSEMBLE WGT: No data (614) 344-0391
SIZES: S, M, L, XL
(for heights 5’4” — 6’5”)
GLOVES
TYPE: Detachable gloves.
MATERIAL: User specified and supplied.
INTERFACE: Inserts in glove and sleeve create
compression seal.
FITTINGS
AIRLINE: 1/4-inch brass.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
G—21
-------�
MATERIAL
Polyvinyl Chloride (PVC)/Nylon/PVC
PROTECTION LEVEL
EPA: A
GARMENT SEAM
Stitched, strapped with PVC
CLOSURE
Pressure sealing zipper.
LOCATION: Front. LENGTH: No data.
CLOSURE/SUIT SEAM: No data.
SPLASH COVER: Yes.
GLOVES
TYPE: Detachable gloves.
MATERIAL: User specified and supplied.
INTERFACE: Inserts in sleeve and glove create
compression seal.
BOOTS
TYPE: Integral booties or boots.
MATERIAL: PVC/nylon/PVC.
INTERFACE: Same as garment seam.
TYPE: Detachable boots.
MATERIAL: User specified and supplied.
INTERFACE: Splash guards.
VISOR
TYPE: Detachable.
MATERIAL: Poly(methyl methacrylate).
INTERFACE: No data.
NUMBER: 4. TYPE: .Flapper valve (Glendale, Inc.)
MATERIALS: No data.
LOCATION: Back of legs.
CRACKING PRESSURE: 0.4 psi.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus or umbilical feed. Hood
accommodates face mask.
COOLING
Air distribution system or ice vest/jacket.
FITTINGS
AIRLINE: 1/4-inch brass.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resisténce: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE VENDOR
306 PVC/BA Fyrepel Products Inc.
THICKNESS: No data Box 518
MATERIAL WGT: 10 oz/sq yd Newark, OH 43055
ENSEMBLE WGT: No data (614) 344-0391
SIZES: 5, M, L, XL
(for heights 5’4” — 6’5”)
EXHAUST VALVES
G—22
-------�
MATERIAL
Polyvinyl Chloride (PVC)/Nylon/PVC
PROTECTION LEVEL
EPA: B
GARMENT SEAM
Double stitched, exterior strapped with PVC.
CLOSURE
Pressure sealing zipper.
LOCATION: Front. LENGTH: No data.
CLOSURE/SUIT SEAM: No data.
SPLASH COVER: Yes.
GLOVES
TYPE: Detachable gloves.
MATERIAL: Viton.
INTERFACE: Support ring in sleeve, steel glove
clamp.
BOOTS
TYPE: Detachable boots.
MATERIAL: Chloroprene.
INTERFACE: Support ring in garment leg, steel
boot clamp.
VISOR
TYPE: Detachable.
MATERIAL: No data.
INTERFACE: No data.
EXHAUST VALVES
NUMBER: None. TYPE: Not available.
MATERIALS: Not available.
LOCATION: Not available.
CRACKING PRESSURE: Not available.
MAX FLOW RATE: Not available.
SPLASH COVER: Not available.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data..
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE S , VENDOR
Type 500 PVC National Draeger, Inc.
THICKNESS: No data 101 Technology Drive
MATERIAL WGT: No data Pittsburgh, PA 15230
ENSEMBLE WGT: 13.2 lbs (412) 787-8383
SIZES: Above 5’ll”
Below 5’ll”
AIR SUPPLY
External back pack. Face mask incorporated in
suit.
COOLING’
None.
FITTINGS
AIRLINE: No data.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
G— 23
-------�
MATERIAL
PROTECTION LEVEL
Polyvinyl Chloride (PVC)! Nylon / PVC
EPA: No Rating (See Section 5.B.8.)
CLOSURE
Pressure sealing zipper.
LOCATION: Front. LENGTH: No data.
CLOSURE/SUIT SEAM: No data.
SPLASH COVER: None.
GLOVES
TYPE: Detachable gloves.
MATERIAL: Viton.
INTERFACE: Support ring in sleeve, steel glove
clamp.
VISOR
TYPE: Integral.
MATERIAL: N.o data.
INTERFACE: No data.
EXHAUST VALVES
NUMBER: 1. TYPE: No data.
MATERIALS: No data.
LOCATION: Chest area.
CRACKING PRESSURE: No data.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus. Face mask incorporated in
suit.
COOLING
None.
FITTINGS
AIRLINE: No data.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE . VENDOR
Type 600 PVC National Draeger, Inc.
THICKNESS: No data. 101 Technology Drive
MATERIAL WGT: No data. Pittsburgh, PA 15230
ENSEMBLE. WGT: 14.3 lbs (412) 787-8383
SIZES: One size
GARMENT SEAM
Double stitched, exterior strapped with PVC.
BOOTS
TYPE: Detachable boots.
MATERIAL: Chloroprene.
INTERFACE: Support ring in garment leg, steel
boot clamp.
G— 24
-------�
MATERIAL
Polyvinyl Chloride (PVC)/Nylon/PVC
PROTECTION LEVEL
EPA:A
GARMENT SEAM
Double stitched, exterior strapped with PVC.
CLOSURE
Pressure sealing zipper.
LOCATION: Front. LENGTH: No data.
CLOSURE/SUIT SEAM: No data.
SPLASH COVER: None.
GLOVES
TYPE: Detachable gloves.
MATERIAL: Viton.
INTERFACE: Support ring in sleeve, steel glove
clamp.
BOOTS
TYPE: Detachable boots.
MATERIAL: Chioroprerie.
INTERFACE: Support ring in garment leg, steel
boot clamp.
VISOR
TYPE: Detachable.
MATERIAL: Polyvinyl chloride.
INTERFACE: No data.
EXHAUST VALVES
NUMBER: 2. TYPE: No data.
MATERIALS: No data.
LOCATION: Hood area.
CRACKING PRESSURE: No data.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus. Hood accommodates face
mask.
COOLING
None.
FITTINGS
AIRLINE: No data.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE VENDOR
Type 700 PVC . National Draeger, Inc.
THICKNESS: No data ioi Technology Drive
MATERIAL WGT: No data . Pittsburgh, PA 15230
ENSEMBLE WGT: 12.1 lbs (412) 787-8383
SIZES: One size
G- 25
-------�
MATERIAL
PROTECTION LEVEL
CLOSURE
Pressure sealing zipper.
LOCATION: Front. LENGTH: 41 inches.
CLOSURE/SUIT SEAM: Stitched, cemented,
interior and exterior strapped with PVC.
SPLASH COVER: Yes.
GLOVES
TYPE: Detachable gloves.
MATERIAL: Chloroprene.
INTERFACE: Support ring in sleeve, elastic band.
EXHAUST VALVES
NUMBER: 1. TYPE: No data.
MATERIALS: Polyethylene/polystyrene, rubber
diaphragm:
LOCATION: Chest area.
CRACKING PRESSURE: 0.3-inch water.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
BOOTS
TYPE: Integral boots or booties.
MATERIAL: Polyvinyl chloride.
INTERFACE: Adhesive bonded.
TYPE: Detachable boots.
MATERIAL: User specified and supplied.
INTERFACE: Splash guard.
VISOR
TYPE: Detachable.
MATERIAL: No data.
INTERFACE: No data.
AIRLINE: No data.
COMMUNICATION: None.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: (ASTM 0-751), 110 bs/in.
Tear Strength: (ASTM D-751), 10 lbs.
Seam Strength: (ASTM D-1682), 110 lbs.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
Polyvinyl Chloride (PVC)/Nylon/PVC ‘EPA: B
STYLE VENDOR
Trellchem, Light Trelleborg, Inc.
THICKNESS: 15-18 mils 30700 Solon Industrial Parkway
MATERIAL WGT: 14.5 oz/sq yd Solon, OH 44139
ENSEMBLE WGT: 12.5 lbs (216) 248-8600
SIZES: S, M, L, XL
GARMENT SEAM ‘ - ____________________________
Double lapped, stitched, exterior welded.
AIR SUPPLY
External back pack or umbilical feed.
COOLING
Air distribution system.
‘FITTINGS
G- 26
-------�
GARMENT SEAM
Double lapped, stitched, exterior weided
CLOSURE
Pressure sealing zipper.
LOCATION: Front. LENGTH: 53 inches.
CLOSURE/SUIT SEAM: Stitched, cemented,
interior and exterior strapped with PVC.
SPLASH COVER: Yes.
GLOVES
TYPE: Detachable gloves.
MATERIAL: Chloroprene.
INTERFACE: Support ring in sleeve, elastic band.
BOOTS
TYPE: Integral boots or booties.
MATERIAL: Polyvinyl chloride.
INTERFACE: Adhesive bonded.
TYPE: Detachable boots.
MATERIAL: User specified and supplied.
INTERFACE: Splash guard.
VISOR
TYPE: Integral.
MATERIAL: 80 mil PVC visor.
INTERFACE: Adhesive bonded, interior strapped
with PVC.
EXHAUST VALVES
NUMBER: 1. TYPE: No data.
MATERIALS: Polyethylene/polystyrene, rubber
diaphragm.
LOCATION: Hood area.
CRACKING PRESSURE: 0.3-inch water.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus. Hood accommodates face
mask.
COOLING
Air distribution system.
FITTINGS
AIRLINE: No data.
COMMUNICATION: None,
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: (ASTM D-751), 110 lbs/in.
Tear Strength: (ASTM D-751), 10 lbs.
Seam Strength: (ASTM D-1682), 110 lbs/in.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
‘Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
MATERIAL
Polyvinyl Chloride (PVC)/Nylon/PVC
PROTECTION LEVEL
EPA: A
STYLE VENDOR
Tréllchem, Light Extra Trelleborg, Inc.
THICKNESS: 15-18 mils 30700 Solon Industrial Parkway
MATERIAL WGT: 14.5 oz/sq yd Solon, OH 44139
ENSEMBLE WGT: 12.5 lbs (216) 248-8600
SIZES: S, M, L, XL
C— 27
-------�
MATERIAL
Polyvinyl Chloride (PVC)/Nylon/PVC
PROTECTION LEVEL
EPA: A
GARMENT SEAM
Stitched, thermally welded.
CLOSURE
Pressure sealing zipper.
LOCATION: Rear. LENGTH: 44 inches.
CLOSURE/SUtT SEAM: Stitched, thermally
welded.
SPLASH COVER: None.
GLOVES
TYPE: Detachable gloves.
MATERIAL: PVC.
INTERFACE: Support ring in sleeve, steel glove
clamp.’
EXHAUST VALVES
NUMBER: 2. TYPE: Flapper valve.
MATERIALS: No data.
LOCATION: Shoulder and leg areas.
CRACKING PRESSURE: No data.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Expanded back accommodates self-contained
back pack or umbilical feed. Hood
accommodates face mask.
COOLING
Air distribution system (optional).
FITTINGS
BOOTS
TYPE: Detachable boots.
MATERIAL: PVC.
INTERFACE: Support ring in garment leg, steel
boot clamp.
VISOR
TYPE: Integral (optional).
MATERIAL: 40 mil PVC.
INTERFACE: No data.
TYPE: Detachable (optional).
MATERIAL: 125 mil poly(methyl methacrylate).
INTERFACE: No data.
AIRLINE: 1/4-inch NPT.
COMMUNICATION: No data.
COOLING: 1/4-inch NPT or 3/4-inch GH thread.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: (FTM 191A, 5100), 94.1 lbs (W),
100 lbs (F).
Tear Strength: (ASTM 0-1117), 33.9 lbs (W),
24.4 lbs (F).
Seam Strength: (ASTM 1683), 63 lbs.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: (FTM 191A, 5120), 21.2 lbs.
Abrasion Resistance: (FTM 191A, 5306), 3,000 cyc,
no wear.
Flammability: (FTM 191A, 5903.2), pass.
Stiffness: No data.
Flex Fatigue: (U.S.T. Method), 1,000 cyc,
no cracking.
STYLE VENDOR
Acid King Wheeler Protective Apparel, Inc. -
THICKNESS: 20 mils 4330 West Belmont Avenue
MATERIAL WGT: 14 oz/sq yd Chicago, IL 60641
ENSEMBLE WGT: No data (312) 685-5551
SIZES: Short, Regular, Long
(for heights 5’4” — 6’6”)
G—28
-------�
MATERIAL
Teflon/Fiberglass/Teflon
PROTECTION LEVEL
EPA:A
GARMENT SEAM
Welded half-inch lap seam, exterior strapped with
Teflon tape.
CLOSURE
Pressure. sealing zipper (YKK, Inc.).
Chloroprene tape, brass teeth and slider.
LOCATION: Back. LENGTh: 36 inches.
CLOSURE/SUIT SEAM: Fiberglass heat sealed to
garment, zipper chloroprene tape bonded to
fiberglass with toluene base adhesive.
SPLASH COVER: Yes.
GLOVES
TYPE: Detachable gloves.
MATERIAL: 10 mU Teflon.
INTERFACE: Support ring in sleeve, stainless
steel glove cIamp splash guard.
TYPE: Detachable gloves.
MATERIAL: 10 mil, solvent-dipped butyl.
INTERFACE: Elastic butyl rubber band.
BOOTS
TYPE: Integral booties.
MATERIAL: Teflon/fiberglass/Teflon.
INTERFACE: Same as garment seam.
TYPE: Detachable boots.
MATERIAL: User specified and supplied.
INTERFACE: Splash guards.
VISOR
TYPE: Integral.
MATERIAL: 10 mu FEP.
INTERFACE: 5-6 mil Teflon tape heat sealed on
both sides.
EXHAUST VALVES
NUMBER: 4. TYPE: Halkey Roberts 780-RPA.1.
MATERIALS: Nylon housing, silicon rubber
diaphragm, 304 stainless steel spring.
LOCATION: Upper back.
CRACKING PRESSURE: 2-inch water.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus. Hood accommodates face
mask.
COOLING
None.
FITTINGS
AIRLINE: No data.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: (FTM 191, 5102.2), 221 lbs/in
(W), 192 lbs/in (F).
Tear Strength: (FTM 191, 5134), 13.7 lbs (W),
9.0 lbs (F).
Seam Strength: (ASTM 3786), 50 psi.
Zipper Strength: (FTM 191, 5100.1), 70 ph.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: (FTM 191, 5302), 0.064
grams lost.
Flammability: (ASTM D-568), non-burning.
Stiffness: (FTM 191, 5200.1), 4.0 cm.
Flex Fatigue: No data.
STYLE VENDOR
Challenge 5200 Chemical Fabrics Corporation
THICKNESS: 10 mils P.O. Box 1137
MATERIAL WGT: 14.6 oz/sq yd Merrimack, NH 03054
ENSEMBLE WGT: 10 lbs (603) 424-9000
SIZES: No data
G- 29
-------�
MATERIAL
Teflon / Nomex /Teflon
PROTECTION LEVEL
EPA: A
GARMENT SEAM
Stitched, interior and exterior strapped with Teflon
tape (welded).
CLOSURE
Pressure sealing zipper (YKK, Inc.).
Chloroprene tape, brass teeth and slider.
LOCATION: Back. LENGTH: 36 inches.
CLOSURE/SUIT SEAM: Fiberglass heat sealed to
garment, zipper chloroprene tape bonded to
fiberglass with toluene base adhesive.
SPLASH COVER: Yes.
GLOVES•
TYPE: Integral gloves.
MATERIAL: 4 mu Teflon.
INTERFACE: Bonded at glove ring with toluene-
based adhesive.
TYPE: Detachable gloves.
MATERIAL: 10 mU, solvent-dipped butyl.
INTERFACE: Elastic butyl rubber band.
BOOTS
TYPE: Integral booties.
MATERIAL: Teflon/Nomex/Teflon.
INTERFACE: Same as garment seam.
TYPE: Detachable boots.
MATERIAL: User specified and supplied.
INTERFACE: Splash guards.
VISOR
TYPE: Integral.
MATERIAL: 10 mil FEP.
INTERFACE: 5-6 mil Teflon tape heat sealed on
both sides.
EXHAUST VALVES
NUMBER: 2. TYPE: Stratotech,
Part No. 739-1.5.
MATERIALS: Aluminum housing, silicon rubber
diaphragm, 304 stainless steel spring.
LOCATION: Upper back.
CRACKING PRESSURE: 1-to 1.5-inch water.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus. Hood accommodates face
mask.
COOLING
External cooling ice pouch/heat exchanger
interfaces with full body cooling garment and
pouch which circulates water through garment.
FITTINGS
AIRLINE: None.
COMMUNICATION: None.
COOLING: No data.
INFLATION VALVE: None.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: (ASTM D-751), 113.7 lbs/in (W),
95.8 lbs/in (F).
Tear Strength: (ASTM D-751), 21.0 lbs (W),
19.6 lbs (F).
Seam Strength: (ASTM 3786), 50 psi.
Zipper Strength: (FTM 191, 5100.1), 70 ph.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: (FTM 191, 5302), 0.656
grams lost.
Flammability: (ASTM D-568), non-burning.
Stiffness: (FTM 191, 5200.1), 4.5 cm.
Flex Fatigue: No data.
STYLE VENDOR
Challenge 5100 Chemical Fabrics Corporation
THICKNESS: 18 mils P.O. Box 1137
MATERIAL WGT: 13.9 oz/sq yd Merrimack, NH 03054
ENSEMBLE WGT: 14 lbs (603) 424-9000
SIZES: One (large)
C—3D
-------�
MATERIAL
Viton / Nomex/ Chiorobutyl
PROTECTION LEVEL
EPA: A
GARMENT SEAM
Double stitched, interior strapped with butyl,
exterior strapped with Viton.
CLOSURE
Pressure sealing zipper.
LOCATION: Front. LENGTH: 60 inches.
CLOSURE/SUIT SEAM: No data.
SPLASH COVER: Yes.
GLOVES
TYPE: Detachable gloves.
MATERIAL: Viton.
INTERFACE: Inserts in glove and sleeve create
compression seal.
BOOTS-
TYPE: Integral booties.
MATERIAL: Viton/Nomex/chlorobutyl.
INTERFACE: Same as garment seam.
TYPE: Detachable boots.
MATERIAL: User specified and supplied.
INTERFACE: Splash guards.
VISOR
TYPE: Detachable (optional).
MATERIAL: Polycarbonate with FEP splash
cover.
INTERFACE: Chloroprene gasket.
TYPE: Detachable (optional).
MATERIAL: User specified.
INTERFACE: Chloroprene gasket.
EXHAUST VALVES
NUMBER: 2. TYPE: Flapper valve.
MATERIALS: No data.
LOCATION: Chest and sleeve areas.
CRACKING PRESSURE: 1/2-inch water.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus. Hood accommodates face
mask.
COOLING
Air distribution system (optional).
FITTINGS
AIRLINE: No data.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE VENDOR
Metro S.S. Andover Industries Inc.
THICKNESS: 20 mils 15 Union Street
MATERIAL WGT: 29 oz/sq yd Lawrence, MA 01840
ENSEMBLE WGT: No data (617) 794-1792
SIZES: S. M, L, XL, XXL
(for heights 5’6” — 6’7”)
C— 31
-------�
MATERIAL
Viton / Nylon / Chioroprene
PROTECTION LEVEL
EPA: A
GARMENT SEAM
Double stitched, interior strapped with
chloroprene, exterior sealed with liquid Viton.
CLOSURE
Pressure sealing zipper (Dynat, Inc.), stainless
steel teeth, brass slider, chloroprene backing.
LOCATION: Front. LENGTH: 72 inches.
CLOSURE/SUIT SEAM: Same as garment.
SPLASH COVER: None.
GLOVES
TYPE: Detachable gloves.
MATERIAL: Chloroprene or Viton.
INTERFACE: Brass support ring in glove,
stainless steel glove clamp, natural rubber glove
ring sleeve.
TYPE: Detachable overgloves.
MATERIAL: Butyl or Viton.
INTERFACE: None.
BOOTS
TYPE: Detachable booties.
MATERIAL:Viton / nylon /chloroprene.
INTERFACE: None.
‘TYPE: Detachable boots.
MATERIAL: NBA + SBR + natural rubber.
INTERFACE: Aluminum support ring in garment
leg, stainless steel boot clamp.
VISOR
TYPE: Detachable.
MATERIAL: 5/32-inch poly(methyl methacrylate)
or 1/8-inch glass.
INTERFACE: Natural rubber gasket.
EXHAUST VALVES
NUMBER:.3. TYPE: Flapper valve.
MATERIALS: Chloroprene valve cover,
chioroprene and natural rubber valve disk, nylon
valve seat, stainless steel slide ring, nylon
threaded ring.
LOCATION: Hood area.
CRACKING PRESSURE: No data.
MAX FLOW RATE: No data.
SPLASH COVER: None.
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus. Hood accommodates face
mask.
COOLING
Air distribution system (optional).
FITTINGS
AIRLINE: No data.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE VENDOR
Chempruf II, Vautex/SCBA Mine Safety Appliances Co.
THICKNESS: 23 mils P.O. Box 426
MATERIAL WGT: 19.1 oz/sq yd Pittsburgh, PA 15230
ENSEMBLE WGT: No data (412) 273-5000
SIZES: One size
G— 32
-------�
MATERIAL
Viton / Nylon /Chloroprene
PROTECTION LEVEL
EPA: A
GARMENT SEAM
Double stitched, interior strapped with
chioroprene, exterior sealed with liquid Viton.
CLOSURE
Pressure sealing zipper (Dynat, Inc.), stainless
steel teeth, brass slider, chioroprene backing.
LOCATION: Front. LENGTH: 72 inches.
CLOSURE/SUIT SEAM: Same as garment.
SPLASH COVER: None.
GLOVES
TYPE: Detachable gloves.
MATERIAL: Chloroprene or Viton.
INTERFACE: Brass support ring in sleeve,
stainless steel glove ring, natural rubber glove
ring sleeve.
TYPE: Detachable overgioves.
MATERIAL: Butyl or Viton.
INTERFACE: None.
BOOTS
TYPE: Detachable booties.
MATERIAL: Viton/nylon/chioroprene.
INTERFACE: None.
TYPE: Detachable boots.
MATERIAL: NBA + SBR + natural rubber.
INTERFACE: Aluminum support ring in garment
leg, stainless steel boot clamp.
VISOR
TYPE: Detachable.
MATERIAL: 5/32-inch poly(methyl methacrylate)
or 1/8-inch glass.
INTERFACE: Natural rubber gasket.
EXHAUST VALVES
NUMBER: 3. TYPE: Flapper valve..
MATERIALS: Chloroprene valve cover,
chloroprene and natural rubber valve disk, nylon
valve seat, stainless steel slide ring, nylon
threaded ring.
LOCATION: Hood area.
CRACKING PRESSURE: No data.
MAX FLOW RATE: No data.
SPLASH COVER: None.
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus or umbilical feed. Hood
accommodates face mask.
COOLING
Air distribution system (optional).
FITTINGS
AIRLINE: Aluminum and vinyl washers, brass
fittings, quick disconnect.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE . VENDOR
Chempruf II, Vautex/DPBA Mine Safety Appliances Co.
THICKNESS: 23 mils P.O. Box 426
MATERIAL WGT: 19.1 oz/sq yd Pittsburgh, PA 15230
ENSEMBLE WGT: No data (412) 273-5000
SIZES: One size
C— 33
-------�
MATERIAL
Viton / Nylon/Chioroprene
PROTECTION LEVEL
EPA: B
GARMENT SEAM
Double stitched, interior strapped with
chioroprene, exterior sealed with Viton sealing
compound.
CLOSURE
Pressure sealing zipper.
LOCATION: Front. LENGTH: No data.
CLOSURE/SUIT SEAM: No data.
SPLASH COVER: Yes.
GLOVES
TYPE: Detachable gloves.
MATERIAL: Viton.
INTERFACE: Support ring in sleeve, steel glove
clamp.
BOOTS,
TYPE: Detachable boots.
MATERIAL: Chloroprene.
INTERFACE: Support ring in garment leg, steel
boot clamp.
VISOR
TYPE: Detachable.
MATERIAL: No data.
INTERFACE: No data.
EXHAUST VALVES
NUMBER: None. TYPE: Not available.
MATERIALS: Not available.
LOCATION: Not available.
CRACKING PRESSURE: Not available.
MAX FLOW RATE: Not available.
SPLASH COVER: Not available.
AIR SUPPLY
External back pack. Face mask incorporated in
suit.
COOLING
None.
FITTINGS
AIRLINE: No data.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE , VENDOR
Type 500 PF National Draeger, Inc.
THICKNESS: No data 101 Technology Drive
MATERiAL WGT: No data Pittsburgh, PA 15230
ENSEMBLE WGT: No data (412) 787-8383
SIZES: ‘ ‘Above 5’ll”
Below 5’ll” ‘
0-34
-------�
THIS PAGE LEFT INTENTIONALLY BLANK
G-35
-------�
MATERIAL
Viton I Nylon / Chioroprene
PROTECTION LEVEL
EPA: A
GARMENT SEAM
Double stitched, interior strapped with
chloroprene, exterior sealed with Viton sealing
compound.
CLOSURE
Pressure sealing zipper.
LOCATION: Front. LENGTH: No data.
CLOSURE/SUIT SEAM: No data.
SPLASH COVER: None.
GLOVES
TYPE: Detachable gloves.
MATERIAL: Viton.
INTERFACE: Support ring in sleeve, steel glove
clamp.
BOOTS
TYPE: Detachable boots.
MATERIAL: Chioroprene.
INTERFACE: Support ring in garment leg, steel
boot clamp.
VISOR
TYPE: Detachable.
MATERIAL: Polyvinyl chloride.
INTERFACE: No data.
EXHAUST VALVES
NUMBER: 2: TYPE: No data.
MATERIALS: No data.
LOCATION: Hood area.
CRACKING PRESSURE: No data.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus. Hood accommodates face
mask.
COOLING
None.
FITTINGS
AIRLINE: No data.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE VENDOR
Type 700 PF National Draeger, Inc.
THICKNESS: No data 101 Technology Drive
MATERIAL WGT: No data Pittsburgh, PA 15230
ENSEMBLE WGT: No data (412) 787-8383
SIZES: One size
C— 36
-------�
MATERIAL
PROTECTION LEVEL
STYLE VENDOR
305 V/BA Fyrepel Products Inc.
THICKNESS: 8 mils Box 518
MATERIAL WGT: 2.5 oz/sq yd Newark, OH 43055
ENSEMBLE WGT: No data (614) 344-0391
SIZES: S, M, L, XL
(for heights 5’4” — 6’5”)
GLOVES
TYPE: Detachable gloves.
MATERIAL: User specified and supplied.
INTERFACE: Inserts in glove and sleeve create
compression seal.
NUMBER: 4. TYPE: Flapper valve (Glendale, Inc.)
MATERIALS: No data.
LOCATION: Back of legs.
CRACKING PRESSURE: 0.4 psi.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus or umbilical feed Hood
accommodates face mask.
BOOTS
TYPE: Integral booties or boots.
MATERIAL: Viton/polyester/Viton.
INTERFACE: Same as garment seam.
TYPE: Detachable boots.
MATERIAL: User specified and supplied.
INTERFACE: Splash guards.
VISOR
TYPE: Detachable.
MATERIAL: Poly(methyl methacrylate).
INTERFACE: No data.
AIRLINE: 1/4-inch brass.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data..
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
Viton/Polyester/Viton EPA: A
GARMENT SEAM
Stitched, strapped with Viton.
EXHAUST VALVES
CLOSURE.
Pressure sealing zipper.
LOCATION: Back. LENGTH: 48 inches.
CLOSURE/SUIT SEAM: No data.
SPLASH COVER: Yes.
COOLING
Air distribution system or ice vest/jacket.
FITTINGS
G— 37
-------�
MATERIAL
Viton / Polyester! Viton
PROTECTION LEVEL
EPA: A
CLOSURE
Pressure sealing zipper.
LOCATION: Front. LENGTH: No data.
CLOSURE/SUIT SEAM: No data.
SPLASH COVER: Yes.
GLOVES
TYPE: Detachable gloves.
MATERIAL: User specified and supplied.
INTERFACE: Inserts in glove and sleeve create
compression seal.
BOOTS
TYPE: Integral boots or booties.
MATERIAL: Viton/polyester/Viton.
iNTERFACE: Same as garment seam.
TYPE: Detachable boots.
MATERIAL: User specified and supplied.
INTERFACE: Splash guards.
VISOR
TYPE: Detachable.
MATERIAL: Poly(methyl methacrylate).
INTERFACE: No ‘data.
EXHAUST VALVES
NUMBER: 4. TYPE: Flapper valve (Glendale, Inc.)
MATERIALS: No data.
LOCATION: Back of legs.
CRACKING PRESSURE: 0.4 psi.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus or umbilical feed. Hood
accommodates face mask.
COOLING
Air distribution system or ice vest/jacket.
FITTINGS
AIRLINE: 1 /4-inch brass.
COMMUNICATION: No data.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: No data.
Tear Strength: No data.
Seam Strength: No data.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE VENDOR
306 V/BA . Fyrepel Products Inc.
THICKNESS: 8 mils Box 518
MATERIAL WGT: 2.5 oz/sq yd Newark, OH 43055
ENSEMBLE WGT: No data (614) 344-0391
SIZES: S, M, L XL
(for heights 5’4” - 6 ’5”)
GARMENT SEAM
Stitched, strapped with Viton.
C—38
-------�
MATERIAL
PROTECTION LEVEL
STYLE VENDOR
Trellchem, Super Trelleborg, Inc.
THICKNESS: 15-18 mils 30700 Solon Industrial Parkway
MATERIAL WGT: 16 oz/sq yd Solon, OH 44139
ENSEMBLE WGT: 13 lbs (216) 248-8600
SIZES: S, M, L, XL
NUMBER: 1. TYPE: No data.
MATERIALS: Polyethylene/polystyrene, rubber
diaphragm.
LOCATION: Chest area.
CRACKING PRESSURE: 0.3-inch water.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
External back pack or umbilical feed.
.G LOVES
TYPE: Detachable gloves.
MATERIAL: Chloroprene or Viton/butyl.
INTERFACE: Support ring in sleeve, elastic band.
COOLING
Air distribution system.
FITTINGS
BOOTS
TYPE: Integral boots or booties.
MATERIAL: Polyvinyl chloride.
INTERFACE: Same as garmèht seam.
TYPE: Detachable boots.
MATERIAL: User specified and supplied.
INTERFACE: Splash guard.
VISOR
TYPE: Detachable.
MATERIAL: No data.
INTERFACE: No data.
AIRLINE: No data.
COMMUNICATION: None.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: (ASTM D-751), 110 lbs/in.
Tear Strength: (ASTM D-751), 10 lbs.
St m Strength: (ASTM D-1682),110 lbs.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
Viton/Butyl/Nylon/Butyl EPA: B
GARMENT SEAM
Double lapped, stitched, cemented, interior
strapped with chloroprene, exterior strapped with
Viton.
EXHAUST VALVES
CLOSURE
Pressure sealing zipper.
LOCATION: Front. LENGTH: 41 inches.
CLOSURE/SUIT SEAM: Same as garment seam.
SPLASH COVER: Yes.
C— 39
-------�
MATERIAL
Viton / Butyl/ Nylon / Butyl
PROTECTION LEVEL
EPA:A
GARMENT SEAM
Double lapped, stitched, cemented, interior
strapped with chioroprene, exterior strapped with
Viton.
CLOSURE
Pressure sealing zipper.
LOCATION: Front. LENGTH: 53 inches.
CLOSURE/SUIT SEAM: Same as garment seam.
SPLASH COVER: Yes.
GLOVES
TYPE: Detachable gloves.
MATERIAL: Chloroprene or Viton/butyl.
INTERFACE: Support ring in sleeve, elastic band.
EXHAUST VALVES
NUMBER: 1. TYPE: No data.
MATERIALS: Polyethylene/polystyrene, rubber
diaphragm. -
LOCATION: Hood area.
CRACKING PRESSURE: 0.3-inch water.
MAX FLOW RATE: No data.
SPLASH COVER: Yes.
AIR SUPPLY
Expanded back accommodates self-contained
breathing apparatus. Hood accommodates face
mask.
COOLING
Air distribution system.
BOOTS
TYPE: Integral boots or booties.
MATERIAL: Polyvinyl chloride.
INTERFACE: Same as garment seam.
-TYPE: Detachable boots.
MATERIAL: User specified and supplied.
INTERFACE: Splash guard.
VISOR
TYPE: Integral.
MATERIAL: 80 mil PVC.
INTERFACE: Adhesive bonded, interior strapped
with Viton/butyl.
AIRLINE: No data.
COMMUNICATION: None.
COOLING: No data.
INFLATION VALVE: No data.
PHYSICAL PROPERTIES
(PRIMARY MATERIAL)
Tensile Strength: (ASTM D-751), 110 lbs/in.
Tear Strength: (ASTM D-751), 10 lbs.
Seam Strength: (ASTM D-1682), 110 lbs.
Zipper Strength: No data.
Cut Resistance: No data.
Puncture Resistance: No data.
Abrasion Resistance: No data.
Flammability: No data.
Stiffness: No data.
Flex Fatigue: No data.
STYLE VENDOR
Trellchem, Super Extra Trelleborg, Inc.
THICKNESS: 15-18 mils - 30700 Solon Industrial Parkway
MATERIAL WGT: 16 oz/sq yd Solon, OH 44139
ENSEMBLE WGT: 15 lbs (216) 248-8600
SIZES: S, M, L, XL
FITTINGS
G— 40
-------�
APPENDIX H
PRODUCT DESCRIPTIONS FOR SPLASH SUITS
H-i
-------�
SPLASH SUITS
VENDOR!
STYLE PRIMARY MATERIAL DESCRIPTION
BOSS MFG. CO.
3PC PVC/COTTON TYPES: JACKET, HOOD, PANTS, BIB OVERALL.
3PN PVC/NYLON
3PN PVC/NYLON/PVC FEATURES: PVC SEAMS SEWN AND THERMALY WELDED;
3NN CHLOROPRENE/NYLON CHLOROPRENE AND SBR SEAMS CEMENTED;
3RC SBR/COTTON BATWING OR RAGLAN SLEEVES;
3RC SBR/COTTON/SBR STORM FLY FRONT; NICKLE PLATED
3NP POLYURETHANE/NYLON SNAPS OR NON-CORROSIVE, NON-CONDUCTIVE
3PR PVC/POLYESTER PLASTIC SNAPS.
3PF UNSUPPORTED PVC
DAFFIN DISPOSABLES
PCT POLYETHYLENE/TYVEK TYPES: JACKET, PANTS, COVERALLS,
SARANEX. SARANEX/TYVEK ENCAPSULATING SUIT.
FEATURES: STORM FLY FRONT; ZIPPER CLOSURE;
ELASTIC CUFFS ON SLEEVES AND LEGS; INTEGRAL
OVERBOOTS ON SUITS; FOUND SEAMS;EXPANDED BACK
ACCOMMODATES SELF CONTAINED AIR SUPPLY OR
SUIT IS UMBILICALLY FED.
DEFENSE APPAREL
UNSUPPORTED PVC TYPES: JACKET, PANTS, BIB OVERALL, COVERALL.
FEATURES: ZIPPER CLOSURES.
DIRECT SAFETY COMPANY
RAINMASTER SUPPORTED PVC TYPES: JACKET, PANTS, BIB OVERALLS.
RAINMASTER UNSUPPORTED PVC
PVC/NYLON/PVC FEATURES: NON-CONDUCTIVE SNAPS.
DISPOSABLES INC.
P.E. POLYETHYLENE/TYVEK TYPES: COVERALLS, ENCAPSULATING SUIT.
FEATURES: STORM FLY FRONT; ELASTIC CUFFS ON SLEEVES;
INTEGRAL OVERBOOTS ON SUITS; ZIPPER CLOSURE;
MYLAR FACE SHIELD IN ENCAPSULATING SUIT;
UMBILICALLY FED SUIT.
H- 2
-------�
VENDOR/
STYLE PRIMARY MATERIAL DESCRIPTION
DURAFAB DISPOSABLES
POLYLAMINATED TYVEK POLYETHYLENE/TYVEK TYPES: JACKET, HOOD, PANTS, COVERALL,
SARANEX STYLE SARANEX/TYVEK ENCAPSULATING SUIT.
FEATURES: STITCHED, BOUND, OR BOUND AND SEALED SEAMS;
RAGLAN SLEEVES; SNAPS OR ZIPPER CLOSURE;
ZIPPER CLOSURE ON SUIT;
ELASTIC CUFFS ON SLEEVES AND LEGS;
EXPANDED BACK ON ENCAPSULATING SUITS WILL
ACCOMMODATE SELF CONTAINED AIR SUPPLY OR
SUIT IS UMBILLICALLY FED.
EDMONT
• WET WEAR 500 PVC/NYLON/PVC TYPES: JACKET, HOOD, PANTS, BIB OVERALLS.
• WET WEAR 550 SUPPORTED PVC
WET WEAR 600 PVC/NYLON/PVC FEATURES: THERMALLY WELDED SEAMS; BATWING
WET WEAR 700 NITRILE+PVC/NYLON • SLEEVES; NON-CORROSIVE, NON-CONDUCTING
SNAPS.
ENCON
CHLOROPRENE/NYLON TYPES: JACKET, HOOD, PANTS, BIB OVERALLS.
FALCON
PREMIUM GRADE - RAYON SUPPORTED PVC TYPES: JACKET, HOOD, PANTS, BIB OVERALLS.
• CONTRACT GRADE PVC-RAYON-PVC
NYGRID PVC-NYLON-PVC FEATURES: LAPPED, DOUBLE-STITCHED, WELDED SEAMS;
UNSUPPORTED PVC RAGLAN SLEEVES; NON-CONDUCTIVE SNAPS;
SPLIT SNAPS TO PREVENT “FREEZING”; WAIST,
WRIST, AND ANKLE TAKE UPS; DRAW-STRING
COAT HEM; WELDED REINFORCEMENT IN CROTCH
AND ARMPIT.
KAPPLER
P.E. POLYETHYLENE/TYVEK • TYPES: JACKET, PANTS, COVERALL, HOOD,
SARANEX SARANEX/TYVEK ENCAPSULATING SUIT.
FEATURES: BOUND OR WELDED SEAMS; ZIPPER CLOSURE;
STORM FLY FRONT; ELASITIC CUFFS ON SLEEVES
AND LEGS; INTEGRAL OVERBOOTS; EXPANDED BACK
ACCOMMODATES SELF CONTAINED AIR SUPPLY
OR SUIT IS UMBILLICALLY FED.
MAG ID
-STANDARD DUTY • SUPPORTED PVC TYPES: JACKET, HOOD, PANTS, BIB OVERALLS.
FEATURES: WELDED SEAMS; NON-METALIC SNAPS; STORM
FLY FRONT.
H-3
-------�
VENDOR/
STYLE PRIMARY MATERIAL DESCRIPTION
RAINFAIR
POLYLON POLYURETHANE/NYLON TYPES: JACKET, HOOD, PANTS, BIB OVERALLS.
SUPER NYLO-GARD CHLOROPRENE/NYLON/CHLOROPRENE
NYLO-GARD CHLOROPRENE/NYLON •FEATURES: STITCHED AND STRAPPED OR CEMENTED
DOLPHIN POLYURETHANE/NYLON SEAMS; STORM FLY FRONT; BATWING
ACID SUIT PVC/POLYESTER/PVC SLEEVES; REFLECTIVE TRIM.
SUPER NEOTEX CHLOROPRENE/COTTON/CHLOROPRENE 0
SUPER NYLO-SEAL CHLOROPRENE/NYLON
VULTEX . SBR/COTTON/CHLOROPRENE .
CHEM-KING PVC/NYLON
SBR YANKEE SBR/COTTON
RECORD INDUSTRIAL CO.
COATED CLOTHING BUTYL/NYLON/BUTYL TYPES: JACKET, HOOD, PANTS, BIB OVERALLS.
CHLOROPRENE/COTTON
SUPPORTED PVC FEATURES: STORM FLY FRONT; RAGLAN SLEEVES; METAL OR
PLASTIC SNAPS; WAIST ADJUSTERS.
SIEBE NORTON.
F .1OO CHLQROPRENE/NYLON/CHLOROPRENE TYPES: JACKET, HOOD, PANTS, BIB OVERALLS, COVERALL.
TUFFLON CHLOROPRENE+SBR/NYLON
SUPER TUFFPRENE CHLOROPRENE/COTTON/CHLOROPRENE FEATURES: LAP FRONT OR. STORM FLY FRONT; DOUBLE
TUFFPRENE . CHLOROPRENE+SBR/COTTON . STITCHED SEAM W/SEALANT OR THERMALLY WELDED.
NSPN CHLOROPRENE+SSR/COTTON BATWING OR RAGLAN SLEEVES; .
SHIELD BRAND PVC/NYLON/PVC INNER CUFF IN SLEEVE.; TAKE-UP SNAPS. ON CUFF;
IUFFGARD PVC/NYLON/PVC NON-CONDUCTIVE SNAPS.
006 1/2 H PVC/NYLON/PVC
NSPVH PVC/NYLON/PVC.
RAINMASTER SUPPORTED PVC
RAINMASTER UNSUPPORTED PVC
WHEELER
34 LINE FABRIC SUPPORTED CHLOROPRENE TYPES: JACKET, HOOD, PANTS, BIB OVERALLS.
36 LINE FABRIC SUPPORTED PVC
35 LINE FILM UNSUPPORTED PVC FEATURES: STITCHED AND THERMALLY WELDED SEAMS; STORM
FLY FRONT; PLASTIC SNAPS.
H-4
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APPENDIX I
DEFINITION OF PROTECTION LEVELS
(Excerpted from “Hazardous Materials
Incident Response. Operations,” 1984,
Office of Emergency and Remedial
Response, Hazardous Response Support
Division, U.S. Environmental Protection
Agency)
1
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PART 5
SITE ENTRY - LEVELS OF PROTECTION
I. INTRODUCTION
Personnel must wear protective equipment when response activities
involve known or suspected atmospheric contamination, when vapors,
gases, or particulates may be generated by site activities, or when
direct contact with skin-affecting substances may occur. Full face-
p iece respirators protect lungs, ‘gastrointestinal tract, and eyes
gainst airborne toxicants. Chemical—resistant clothing protects the
skin from contact with skin—destructive and absorbable chemicals.
Good personal hygiene limits or prevents ingestion of material.
Equipment to protect the body against contact with known or antici-
pated toxic chemicals has been divided into four categories according
to the degree of protection afforded:
— Level A : Should be worn when the highest level of respiratory,
skin, and eye protection is needed.
- Level B : Should be worn when the highest level of respiratory
protection is needed, but a lesser level of skin protection.
- Level C : Should be worn when the criteria for using air-purifying
respirators are met. ‘ ‘
Level D : ‘ Should be worn only as a work uniform and not ‘on any
site with respiratory or skin hazards. It provides no protection
against chemical hazards.
The Level of Protection selected should be based on:
— Type and measured concentration of the chemical substance
in the ambient atmosphere and its toxicity.
— Potential for exposure to substances in air, splashes of liquids,
or other direct contact with material due to work being done.
In situations where the type of chemical , concentration, and
possibilities of contact are not known, the appropriate Level of
Protection must be selected based on professional experience and
judgment until the hazards can be better identified.
While personnel protective equipment reduces the potential for contact
with toxic substances, ensuring the health and safety of responders
requires, in addition, safe work practices, decontamination, site
entry protocols, and other safety procedures. Together, these provide
an integrated approach for reducing harm to workers.
1—2
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II. LEVELS OF PROTECTION
A.’ Level A Protection ’
1. Personnel protective equipment
- Supplied-air respirator approved by the Mine Safety and
Health Administration’ (MSHA) and National Institute for
Occupational Safety and Health (NIOSH).
Respirators may be:
—— pressure—demand, self-contained breathing aaratus
(SCBA)
or
pressure-demand, airline respirator (with escape bottle,
for’ Immediately Dangerous to Life’ and Health (IDLH) or
potential for IDLH atmosphere)
— ‘ Fully encapsulating chemical—resistant suit
— Covéralls*
— Long cotton underwear*
— Gloves (inner), chemical—resistant
- Boots, chemical-resistant, steel toe and shank. (Depending
on suit construction, worn over or under suit boot)
— Hard hat* (under suit)
- Disposable gloves and boot covers* (Worn over fully éncap—
sulating suit)
- Cooling unit*
‘2-Way radio communications* (inherently safe)
2. Criteria for selection
Meeting any of these criteria warrants use of Level A
Protection:
— The chemical’ substance has been identified and requires
the highest level of protection for skin, eyes, and the
respiratory system based on: ‘
-- measured (Or potential for) high concentration of’
*Optjonal
1—3
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atmospheric vapors, gases, or particulates
or
—- site operations and work functions involves high
potential for splash, immersion, or exposure to un-
expected vapors, gases, or particulates of materials
highly toxic to the skin.
Substances with a high degree of hazard to the skin are
known or suspected to be present, and skin contact i.s
possible.
Operations must be conducted in confined, poorly vent i-
lated areas until the absence of substances requiring
Level A protection is determined.
Direct readings on field Flame Ionization Dectors (FID) or
Photoionization Detectors (P lO) and similar instruments
indicate high levels •of unidentified vapors and gases in
t e air. (See Appendixes I and II.)
3. Guidance on selection
a. Fully encapsulating suits are primarily designed to
provide a gas or vapor tight barrier between the wearer
and atmospheric contaminants. Therefore Level A is gen—’
erally worn when high concentrations of airborne sub-
stances are known or thought to be present and these
substances could severely effect the skin., Since Level A
requires the use of a self-contained breathing apparatus,
the eyes and respiratory system are also more protected.
Until air surveillance data are available to assist in the
selection of the appropriate Level of Protection, the use
of Level A may have to be ‘based on’ indirect evidence of
the. potential for atmospheric contamination or other means
of skin contact with severe skin affecting substances.
Conditions that may require Level A protection include:
— Confined spaces: Enclosed, confined, or poorly ventilated
areas are conducive to build up of toxic vapors, gases, or
particulates. (Explosive or oxygen—deficient’ atmospheres’
also are more probable in confined spaces.) Confined space
entry does not automatically warrant wearing Level A pro-
tection’, but should serve as a cue to carefully consider
and to justify a, lower Level of Protection.
Suspected/known highly’ toxic substa,nces: Various sub-
stances that a,re highly toxic especially through skin
‘—4
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absorption for example, fuming corrosives, cyanide com-
pounds, concentrated pesticides, Department of Tran-
sportatiori Poison ‘A’ materials, suspected carcinogens,
and infectious substances may be known or suspected to be
involved. Field instruments may not be available to
detect or quantify air concentrations of these materials.
Until these substances are identified and concentrations -
measured, maximum protection may be necessary.
- Visible emissions: Visible air emissions from leaking
containers or railroad/vehicular tank cars, as well as
smoke from chemical fires and others, indicate high
potential for concentrations of substances that could be
extreme respiratory or skin hazards.
— Job functions: Initial site entries are generally walk-
throughs in which instruments and visual observations
are used to make a preliminary evaluation of the hazards.
In initial site entries, Level A should be worn when:
—- there is a probability for exposure to high con-
centrations of vapors, gases, or particulates.
-- substances are known or suspected of being extremely
toxic directly to the skin or by being absorbed.
Subsequent entries are to conduct the many activities needed
to reduce the environmental impact of the incident. Levels
of Protection for later operations are based not only on data
obtained from the initial and subsequent environmental moni-
toring, but also on the probability of contamination and ease
of decontamination.
Examples of situations where Level A has been worn are:
- Excavating of soil to sample buried drums suspected of
containing high concentrations of dioxin.
- Entering a cloud of chlorine to repair a value broken in a
railroad accident.
- Handling and moving drums known to contain oleum.
- Responding to accidents involving cyanide, arsenic, and un-
diluted pesticides.
b. The fully encapsulating suit provides the highest degree of
protecti9n to skin, eyes, and respiratory system if the suit
material resists chemicals during the time the suit is worn.
While Level A provides maximum protection, all suit material
• • may be rapidly permeated and degraded by certain chemicals
1—5
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from extremely high air concentrations, splashes, or immersion
of boots or gloves in concentrated liquids or sludges. These
limitations should be recognized when specifying the type of
fully encapsulating suit. Whenever possible, the suit
material should be matched with the substance it is used
to protect against.
B. Level B Protection
1. Personnel protective equipment
— Supplied-air respirator (MSHA/NIOSH approved).
• Respirators may be:
pressure-demand, self—contained breathing apparatus
or
—- pressure-demand, airline respirator (with escape bottle
for IDLH or potential for IDLH atmosphere)
- Chemical-resistant clothing (overalls and long-sleeved
jacket; hooded, one or two-piece chemical—splash suit;
disposable chemical-resistant, one—piece suits)
- Long cotton underwear*
- Coveralls*
— Gloves (outer), chemical-resistant
— Gloves (inner), chemical-resistant
- Boots (outer), chemical-resistant, steel toe and shank
— Boot covers (outer), chemical-resistant (disposable)*
— Hard hat (face shield)*
— 2-Way radio communications* (intrinsically safe)
2. Criteria for selection
Meeting any one of these criteria warrants use of Level B,
protection:
- The type and atmospheric concentration of toxic substances
• • has been identified and requires a high level of respira-
tory protection, but less skin protection than Level A.’
‘These would be atmospheres: ‘
*Optjonal
T— 6
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with concentrations Immediately Dangerous to Life and
Health, but substance or concentration in the air
does not represent a severe skin hazard
or
-- that do not meet the selection criteria permitting the
use of air—purifying respirators.
The atmosphere contains less than 19.5% oxygen.
— It is highly unlikely that the work being done will generate
high concentrations of vapors, gases or particulates, or
splashes of material that will affect the skin of personnel
wearing Level B protection.
Atmospheric concentrations of unidentified vapors or gases
are indicated by direct readings on instruments such
as the FID or PID or similar instruments, but vapors and
gases are not suspected of containing high levels of
chemicals toxic to skin. (See Appendixes I and II.)
3. Guidance on selection
a. Level B does not afford the maximum skin (and eye) pro-
tection as does a fully encapsulating suit since the.
chemical-resistant clothing is not considered gas, vapor,
or particulate tight. However, a good quality, hooded,
chemical-resistant, one-piece garment, with taped wrist,
ankles, and hood does provides a reasonable degree of
protection against splashes and to lower concentrations in
air. At most abandoned hazardous waste sites, ambient
atmospheric gas or vapor levels have not approached concen-
trations sufficiently high to warrant Level A protection.
In all but a few circumstances (where highly toxic mater-
ials are suspected) Level B should provide the protection
needed for initial entry. Subsequent operations at a site
require a reevaluation of Level B protection based on the
probability of being• splashed by chemicals, their effect
on the skin, the presence of hard-to-detect air contaim—
inants, or the generation of highly toxic gases, vapors,
or particulates, due to the work being done.
b. The chemical—resistant clothing required in Level B is
available in a wide variety of styles, materials, construc-.
tion detail, and permeability. One or two-piece garments
are avallabl,e with or without hoods. Disposal suits with
a variety of fabrics and design characteristics are also
available. Taping joints between the gloves, boots and
suit, and between hood and respirator reduces the pos-
siblity for splash and vapor or gas penetration. These
1—7
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factors and other selection criteria all affect the degree
of protection afforded. Therefore, a specialist should
select the most effective chemical-resistant clothing
based on the known or anticipated hazards and job function.
Level B equipment does provides a high level of protection
to the respiratory tract. Generally, if a self—contained
breathing apparatus is required for respiratory protection,
selecting chemical—resistant clothing (Level B) •rather than
a fully encapsulating suit (Level A) is based on needing
less protection against •known or anticipated substances
affecting the skin. Level B skin protection is selected
by:
- Comparing the concentrations •of known or identified
substances in air with skin toxicity data.
- Determining the presence of substances that are destruc-
tive to or readily absorbed through the ski n by liquid
splashes, unexpected high levels of gases, vapor, or
particulates, or other means of direct contact.
— Assessing the effect of the. substance (at its measured
air concentrations or potential for splashing) on the
small areas left unprotected by chemical—resistant
clothing. A hooded garment taped to the mask, and
boots •and gloves taped to the suit further reduces area
of exposure.
c. For initial site entry and reconnaissance at an open site,
approaching whenever possible from upwind, Level B protec-
tion (with good quality, hooded, chemical—resistant cloth-
ing) should protect response personnel, providing the
conditions described in selecting Level A are known or
judged to be absent.
C. Level C Protection
1. Personnel protective equipment
— Air-purifying respirator, full-face, canister-equipped
(MSHA/NIOSH approved)
Chemical—resistant clothing (coveralls; hooded, one-piece
or two-piece chemical splash suit; chemical-resistant hood
and apron; disposable chemical—resistant coveralls)
— Coveralls*
Long cotton underwear*
— Gloves (outer), chemical-resistant
1—8
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— Gloves (inner), chemical_resistant*
— Boots (outer), chemical-resistant, steel toe and shank
- Boot covers (outer), chemical-resistant (disposable)*
- Hard hat (face shield*)
- Escape mask*
— 2—Way radio communications* (inherently safe)
2. Criteria for selection
Meeting all of these criteria permits use of Level C protec-
tion:
— Oxygen concentrations are not less than 19.5% by volume.
— Measured air concentrations of identified substances will
be reduced by the respirator below the substance’s thres-
hold limit value (TLV) and the concentration is within
the service limit of the canister.
- Atmospheric contaminant concentrations do not exceed IDLH
levels.
- Atmospheric contaminants, liquid splashes, or other
direct contact will not adversely affect any body area
left unprotected by chemical—resistant clothing..
— Job functions do not require self—contained breathing
apparatus.
- Direct readings are a few ppms above background on in-
struments such as the FID or PID. (See Appendices I and
II.) . -
3. Guidance on selection
a. Level C protection is distinguished from Level B by the
equipment used to protect the respiratory system, assuming
the same type of chemical-resistant clothing is used. The
main selection criterion for Level C is that conditions
permit wearing air-purifying respirators.
The air-purifying device must be a full—face respirator
(MSHA/NflJSH approved) equipped with a canister suspended
from the chin or on a harness. Canisters must be able to
*Optjonal
1—9
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remove the substances encountered. Quarter-or half-masks
or cheekcartridge, full-face masks should be used only
with the approval of a qualified individual.
Iii addition, a full—face, ’air-purifying mask can be used
only if:
— Substance has adequate warning properties.
— Individual passes a qualitative fit—test for the mask.
- Appropriate cartridge/canister is used, and its service
limit concentration is not exceeded.
b. An air surveillance program is part of all response opera-
tions when atmospheric contamination is known or suspected.
It is particularly important that the air be thoroughly
monitored when personnel are wearing air—purifying respira-
tors. Periodic surveillance using direct—reading instru-
ments and air sampling is needed to detect any changes in
air quality necessitating a higher level of respiratory
protection.
c. Level C protection with a fUll-face, air-purifying respi-
rator should be worn routinely in an atmosphere only after
the type of air contaminant is identified, concentrations
measured and the criteria for wearing air-purifying respi-
rator met. To permit flexibility in precribing a Level of
Protection at certain environmental incidents, a specialist
could consider using air-purifying respirators in uniden-
tified vapor/gas concentrations df a few.parts per million
above background as indicated by a needle deflection on the
FID or PID. However a needle deflection of a few parts per
million above background should not be, the sole criterion
for selecting Level C. Since the individual components may
never be completely identified,, a decision on continuous
wearing of Level C must be made after asses.sing all safety
considerations, including:
— The presence of (or potential for) organic or. inorganic
vapors/gases against which .a canister is ineffective or
‘has a short service life. ‘ ‘
— The known ‘(or suspected) presence in air of. substances
•with loW TLVs or IDLH levels. ‘ ‘ . ‘ ‘• ‘
- The presence of particulates in air.
- ‘•The errors associated with both the instruments and
monitoring procedures used. ‘
*Optj onal
1—10
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— The presence of (or potential for) substances in air
which do not elicit a response on the instrument
used.
- The potential for higher concentrations in the ambient
atmosphere or in the air adjacent to specific site
operations.
d. The continuous use of air-purifying respirators (Level C)
must be based on the identification of the substances
contributing to the total vapor or gas concentration and
the application of published criteria for the routine use
of air—purifying devices. Unidentified ambient concen-
trations of organic vapors or gases in air approaching or
exceeding a few ppm above background require, as a mini-
mum, Level B protection.
D. Level D Protection
1. Personnel protective equipment
— Coveralls
- Gloves*
— Boots/shoes, leather or chemical-resistant, steel toe and
shank
Safety glasses or chemical splash goggles*
— Hard hat (face shield)*
2. Criteria for selection
Meeting any of these criteria allows use of Level D protection:
— No contaminants are present.
- Work functions preclude splashes, imersion, or potential
for unexpected inhalation of any chemicals.
Level 0 protection is primarily a work uniform. It can be
worn only in areas where there is no possibility of
contact with contamination.
III. PROTECTION IN UNKNOWN ENVIRONMENTS
• In all incident response, selecting the appropriate personnel pro-
tection equipment is one of the first steps in reducing health
effects from toxic substances. Until the toxics hazards at an
environmental incident can be ident ified and personnel safety measures
I—i I
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commensurate with the hazards instituted, preliminary measures will
have to be based on experience, judgment, and prdfessional, knowledge.
One of the first concerns in evaluating an unknown situation is-
atmospheric hazards. Toxic concentrations (or potential concentra-
tions) of vapors, gases, and particulates; low oxygen content explo-
sive potential and, to a.lesser degree, the possibility of radiation
exposure all represent immediate atmospheric hazards. In addition to
making air measurements to determine these hazards, visual observa-
tion and review of existing data can help determine the potential
risks from othermaterials.
Once immediate hazards, other than toxic substances have been elimi-
nated, the initial on-site survey and reconnaissance, which may
consist of more than one entry, continues. Its purpose is to further
characterize toxic hazards and, based on these findings, refine
preliminary safety requirements. As data are obtained from the
initial survey, the Level of Protection and other safety procedures
are adjusted. Initial data also provide information on which to base
further monitoring and sampling. No one method can determine a Level
of Protection in all unknown environments. Each situation must be
examined individually.
1—12
/t Arthur D. Little, Inc.
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APPENDIX J
DOFFING PROCEDURES
(Excerpted from “Standard Operating
Safety GuidelineS,” 1984, Office of
Emergency and Remedial. Response,
U.S. Environmental Protection Agency)
J-1
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PART 7
SITE CONTROL - DECONTAMINATION
I. INTRODUCTION
Personnel responding to hazardous substance incidents may become
contaminated in a number of ways including:
— Contacting vapors, gases, mists, or particulates in the air.
- Being splashed by materials while sampling or opening containers.
— Walking through puddles of liquids or on contaminated soil.
- Using contaminated instruments or equipment.
Protective clothing and respirators help prevent the wearer from
becoming contaminated or inhaling contaminants; while good work
practices help reduce contamination on protective clothing, instru-
ments, and equipment.
Even with these safeguards, contamination may occur. Harmful mate-
rials can be transferred into clean areas, exposi.ng unprotected
personnel. In removing contaminated clothing, personnel may contact
contaminants on the clothing or inhale them.. To prevent such occur-
rences, methods to reduce contamination, and decontamination proced-
ures must be developed and established before anyone enters a site
and must continue (modified when necessary) throughout site opera-
ti ons.
Decontamination consists of physically removing contaminants or
changing their chemical nature to innocuous substances. How extensive
decontamination must be depends on a number of factors, the most
important being the type of contaminants involved. The more harmful
the contaminant, the more extensive and thorough decontamination must
be. Less harmful contaminants may require less decontamination.
Combining decontamination, the correct method of doffing personnel
protective equpment, and the use of site work zones minimizes cross—
contamination from protective clothing to wearer, equipment to
personnel, and one area to another. Only general guidance can be
given on methods and techniques for decontamination. The exact
procedure to use must be determined after evaluating a number of
factors specific to the incident.
II. PRELIMINARY CONSIDERATIONS
A. Initial Planning
J—2
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The initial decontamination plan assumes all personnel and equip-
ment leaving the Exclusion Zone (area of potential contamination)
are grossly contaminated. A system is then set up for personnel
decontamination to wash and rinse, at least once, all the pro-
tective equipment worn. This Is done in combination with a
sequential doffln,g of protective equipment, starting at the first
station with the most heavily contaminated item and progressing
to the last station with the least contaminated article. Each
piece precedure requires a separate station.
The spread of contaminants during the washing/doffing process Is
further reduced by separating each decontamination station by a
minimum of 3 feet. Ideally, contamination should decrease as a
person moves from one station to another further along in the
line.
While planning site operations, methods should be developed to
prevent the contamination of people and equipment. For example,
using remote sampling techniques, not opening containers by hand,
bagging monitoring Instruments, using drum grapplers, watering
down dusty areas, and not walking through. areas of obvious con-
tamination would reduce the probability of becoming contaminated
and require a less elaborate decontamination procedure.
The initial decontamination plan Is based on a worst—case situ-
ation or assumes no information Is available about the incident.
Specific conditions at the site are then evaluated, including:
— Type of contaminant.
- The amount of contamination.
- Levels of protection required.
-. Type of protective clothing worn.
The initial decontamination plan is modified, eliminating unneces-
sary stations or otherwise adapting it to site conditions. For
instance, the initial plan might require a complete wash and
rinse of chemical protective garments. If disposable garments
are worn, the wash/rinse step could be omitted. Wearing dis-
posable boot covers and gloves could eliminate washing and
rinsing these items and reduce the number of stations ‘needed.
B. Contamination Reduction Corridor
An area within the Contamination Reduction Zone Is designated the
Contamination Reduction Corridor (CRC). The CRC controls access
into and out• of the Exclusion Zone and confines decontamination
activities to a limited area. The size of the corridor depends
on the number of stations in the decontamination procedure,
J—3
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±
0
<2o
<0
‘- ‘ U 0
z&.)
0
U
OO 0 00—0—0—--—
REDRESS
AREA s
I-
CONTAMINATION REDUCTION ZONE LAYOUT
FIGURE 7 -1
HEAVY EQUIPMENT
I DECONTAMINATION p
AREA
I I
EXCLUSION
ZONE
EXIT
PATH
—*.G - _ —x— x— ——— —
— x- x — — —x — x —g............ )— X—
1
CONTAMINATION
REDUCTION
ZONE
). <
UO
-e----—p— _o. _e_e._e. _ ____ ___ _
L 9 EA
LEGEND
HOTLINE
0
CONTROL LINE
ACCESS CONTROL
‘ POINT. EXTRANCE
ACCESS CONTROL
POINT. EXIT
SUPPORT
•ZONE
ENTRY
PATH
J—4
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overall dimensions of work control zones, and amount of space
available at the site. A corridor of 75 feet by 15 feet should
be adequate for full decontamination. Whenever possible, it
should be a straight path.
The CRC boundaries should be conspicuously marked, with entry and
exit restricted. The far end Is the hotline — the boundary
between the Exclusion Zone and the Contamination Reduction Zone.
Personnel exiting the Exclusion Zone must go through the CRC.
Anyone in the CRC should be wearing the Level of Protection
designated for the decontamination crew. Another corridor may be
required for heavy equipment needing decontamination. Within the
CRC, distinct areas are set aside for decontamination of person-
nel, portable field equipment, removed clothing, etc. These
areas should be marked and personnel restricted to those wearing
the appropriate Level of Protection. All activities within the
corridor are confined to decontamination.
Personnel protective clothing, respirators,, monitoring equipment,
and sampling supplies are all maintained outside of the CRC.
‘Personnel don their protective equipment away from the CRC and
enter the Exclusion Zone through a separate access control point
at the hotline.
III. EXTENT OF DECONTPJIINATION REQUIRED
A. Modifications of Initial Plan
The original decontamination plan must be adapted to specific
conditions found at incidents. These conditions may require more
or less personnel decontamination than planned, depending on; a
number of factors.
1. Type of Contaminant
The extent of personnel decontamination depends on the effects
the contaminants have on the body. Contaminants do not ex-
hibit the same degree if toxicity (or other hazard). When-
ever it is known or suspected that personnel can - become
contaminated with highly toxic or skin—destructive substances,
a full decontamination procedure should be followed. If less
hazardous materials are involved, the procedure can be down-
graded.
2. Amount of Contamination
The amount of contamination on protective clothing is usually
determined visually. If it is badly contaminated, a thorough
decontamination is generally required. Gross material remain-
ing on the protective clothing for any extended period of
time may degrade or permeate it. This likelihood increases
J—5
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with higher air concentrations and greater amounts of liquid
contamination. Gross contamination also increases the proba-
bility of personnel contact. Swipe•tests may help determine
the type and quantity of surface contaminants.
3. Level of Protection
The Level of Protection and specific pieces of clothing worn
determine on a preliminary basis the layout of the decontamin-
ation line. Each Level of Protection incorporates different
problems in decontamination and doffing of the equipment. For
example: decontamination of the harness straps and backpack
assembly of the self—contained breathing apparatus is dif-
ficult. A butyl rubber apron worn over the harness makes
decontamination easier. Clothing variations and different
Levels of Protection may require adding or deleting stations.
in the original decontamination procedure.
4. Work Function -
The work each person does determines the potential for contact
with hazardous materials. In turn, this dictates the layout
of the decontamination line. For example, observers, photo-
graphers, operators of air samplers, or others in the Ex-
clusion Zone performing tasks that will not bring them in
contact with contaminants may not need to have their garments.
washed and rinsed. Others in the Exclusion Zone with a
potentiaLfor direct contact with the hazardous material .will
require more thorough decontamination. Different decontamin-
ation lines could be set up for different job functions, or
certain stations In a line could be omitted for personnel
performing certain tasks.
5. Location of Contamination
Contamination on the upper areas of protective clothing poses
a greater risk to the worker because volatile compounds may
generate a hazardous breathing concentration both for the
worker and for the decontamination personnel. There is also
an increased probability of contact with skin when doffing
the upper part of clothing.
6. Reason for Leaving Site
The reasdn for leaving the Exclusion Zone also determines the
neea and extent of decontamination. A worker leaving the
Exclusion Zone to pick up or drop off tools or instruments
and imediately returning may not require decontamination. A
worker leaving to get a new air cylinder or to change a
respirator or canister, however, may require some degree of
decontamination. Individuals departing the CRC for a break,
lunch, or at the end of day, must be thoroughly decontaminated.
J—6
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B. Effectiveness of Decontamination
There is no method to in nediately determine how effective decon-
tamination Is in removing contaminants. Discolorations, stains,
corrosive effects, and substances adhering to objects nay in-
dicate contaminants have not been removed. However, observable
effects only indicate surface contamination and not permeation
(absorption) into clothing. Also many contaminants are not
easily observed.
A method for determining effectiveness of surface decontamination
is swipe testing. Cloth or paper patches — swipes — are wiped
over predetermined surfaces of the suspect object and analyzed in
a laboratory. Both the inner and outer surfaces of protective
clothing should be swipe tested. Positive indications of both
sets of swipes would Indicate surface contamination has not been
removed and substances have penetrated or permeated through the
garment. Swipe tests can also be done on skin or inside clothing.
Permeation of protective garments requires laboratory analysis of
a piece of the material. Both swipe and permeation testing
provide after—the—fact Information. Along with visual obser-
vations, results of these tests can help evaluate the effec-
tiveness of decontamination.
C. Equipment
Decontamination equipment, materials, and supplies are generally
selected based on availability. Other considerations are ease of
equipment decontamination or disposability. Most equipment and
supplies can be easily procured. For example, soft—bristle scrub
brushes or long—handle brushes are used to remove contaminants.
Water in buckets or garden sprayers is used for rinsing. Large
galvanized wash tubs or stock tanks can hold wash and rinse
solutions. Children’s wading pools can also be used. Large
plastic garbage cans or other similar containers lined with
plastic bags store contaminated clothing and equipment. Contam-
inated liquids can be stored .temporarlly in metal or plastic cans
or drums. Other gear includes paper or cloth towels for drying
protective clothing and equipment.
D. Decontamination Solution
Personnel protective equipment, sampling tools, and other equip-
ment are usually decontaminated by scrubbing with detergent-water
using a soft—bristle brush followed by rinsing with copious
amounts of water. While this process may not be fully effective
in removing some contaminants (or in a few cases, contaminants
may react with water), it Is a relatively safe option compared
with using a chemical decontaminating solution. This requires
that the contaminant be identified. A decon chemical Is then
needed that will change the contaminant into a less harmful
substance. Especially troublesome are unknown substances or
J— 7
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mixtures from a variety of known or unknown substances. The
appropriate decontamination solution must be selected in consul-
tation with an experienced chemist.
E. Establishment of Procedures
Once decontamination procedures have been established, all person-
nel requiring decontamination must be given precise instructions
(and practice, If necessary). Compliance must be frequently
checked. The time it takes for decontamination must be ascer-
tained. Personnel wearing SCBA’s must leave their work area with
sufficient air to walk to CRC and go through decontamination.
IV. DECONTAMINATION DURING MEDICAL EMERGENCIES
A. Basic Considerations
Part of overall planning for incident response is managing medical
emergencies. The plan should provide for: -
- Some response team members fully trained in first aid and CPR.
— Arrangements with the nearest medical facility for transporta-
tion and treatment of Injured, and for treatment of personnel
suffering from exposure to chemicals.
— Consultation services with a toxicologist.
— Emergency ey.e washes, showers, and/or wash stations.
— First aid kits, blankets, stretcher, and resuscitator.
In addition, the plan should establish methods for decontaminating
personnel with medical problems and injuries. There is the
possibility that the decontamination may aggravate or cause more
serious health effects. If prompt life—saving first aid and
medical’ treatment is required, decontamination procedures should
be omitted. Whenever possible, response personnel should accom-
pany contaminated victims to the medical facility to advise on
matters involving decontamination.
B. Physical Injury
Physical injuries can range from a sprained ankle to a compound
fracture, from a minor cut to massive bleeding. Depending on the
seriousness of the’injury, treatment may be given at the site by
trained response personnel. For more serious injuries, additional
assistance may be required ‘at the site or the victim may have to
be treated at a medical facility.
J—8
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Life-saving care should be instituted ir mediately without consid-
ering decontamination. The outside garments can be removed
(depending on the weather) if they do not cause delays, interfere
with treatment, or aggravate the problem. Respirators and back-
pack assemblies must always be removed. Fully encapsulating
suits or chemical—resistant clothing can be cut away. If the
outer contaminated garments cannot be safely removed, the individ-
ual should be wrapped in plastic, rubber, or blankets to help
prevent contaminating the inside of ambulances and medical person-
nel. Outside garments are then removed at the medical facility.
No attempt should be made to wash or rinse the victim at the
site. One exception would be if it is known that the individual
has been contaminated with an extremely toxic or corrosive
material which could also cause severe Injury or loss of life.
For minor medical problems or Injuries, the normal decontamination
procedure should be followed.
C. Heat Stress
Heat—related Illnesses range from heat fatigue to heat stroke,
the most serious. Heat stroke requires prompt treatment to
prevent Irreversible damage or death. Protective clothing may
have to be Cut off. Less serious forms of heat stress require
prompt attention or they may lead to a heat stroke. Unless the
victim Is obviously contaminated, decontamination should be
omitted or minimized and treatment beguniniiiedlately.
D. Chemical Exposure
Exposure to chemicals can be divided Into two categories:
— Injuries from direct contact, such as acid burns or Inhalation
of toxic chemicals.
— Potential injury due to gross contamination on clothing or
• equipment. -
For inhaled contaminants treatment can only. be by qualified
physicians. If the contaminant is on the skin or in the eyes,
ininediate measures must be taken to counteract the substance’s
effect. First aid treatment usually is flooding the affected
area with water; however, for a few chemicals, water may cause
more severe problems.
When protective clothing is grossly contaminated, contaminants
may be transferred to treatment personnel or the wearer and
cause injuries. Unless severe medical problems have occurred
simultaneously with splashes, the protective clothing should be
washed off as rapidly as possible and carefully removed.
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V. PROTECTION FOR DECONTAMINATION WORKERS
The Level of Protection worn by decontamination workers is determined
by:
- •Expected or visible contamination on workers.
— Type of contaminant and associated respiratory and skin haiards.
- Total vapor/gas concentrations In the CRC.
— Particulates. and specific inorganic or organic vapors in the CRC.
- Results of swipe tests.
A. Level C Use
Level C includes a full-face, cáhister—type air-purifying
respirator, hard hat with face shield (if splash is a problem),
chemical—resistant boots and gloves, and protective clothing.
The body covering recomended Is chemical-resistant overalls with
an apron, or chemical—resistant overalls and jacket.
A face shield Is reconinended to protect against, splashes because
respirators alone may not provide this protection. The respirator
should have a canister approved for filtering, any specific known
contaminants such as amonia, organic vapors, acid gases, and
particulates. . -
B. Level B Use
In situations where site workers may be contaminated with un-
knowns, highly volatile’ ‘ liquids, or highly toxic materials,
decontamination workers should wear Level B protection.
Level B protection includes SCBA, hard hat with face shield,
‘chemical—resistant gloves, and protective covering. The clothing
suggested is chemical-resistant overalls, jacket, and a rubber
apron. The rubber apron protects the SCBA harness assembly and
regulator from, becoming contaminated.
VI. DECONTAMINATION OF EQUIPMENT
Insofar as possible, measures shoUld be taken to prevent contamination
of sampling and monitoring equipment. Sampling devices become con-
taminated, but monitoring instruments, unless they are splashed,
usually do not. Once contaminated, instruments are difficult to
clean without damaging them. Any delicate instrument which cannot be
easily decontaminated should be protected while it is being used. It
J— 10
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should be placed in a clear plastic bag, and the bag taped and secured
around the instrument. Openings are made in the bag for sample
intake.
A. Decontamination Procedures
1. Sampling devices
Sampling devices require special cleaning. The EPA Regional
Laboratories can provide information on proper decontamination
methods.
2. Tools
Wooden tools. are difficult to decontaminate because they
absorb chemicals. They should be kept on site and handled
only by protected workers. At the end of the response,.
wooden tools should be discarded. For decontaminating
other tools, Regional Laboratories should be consulted.
3. Respirators -
Certain parts of contaminated respirators, such as the harness
assembly and leather or cloth components, are difficult to
decontaminate. If grossly contaminated, they may have to be
discarded. Rubber components can be soaked in soap and water
and scrubbed with a brush. Regulators must be maintained
‘according to manufacturer’s recoimnendations. Persons respon-
sible for decontaminating respirators should be thoroughly
trained in respirator maintenance.
4. ‘Heavy Equipment
Bulldozers, trucks, back—hoes, bulking chambers, and other
-heavy equipment. are difficult to decontaminate. The method
generally used is to wash them with water under high pressure
and/or to scrub accessible parts with detergent/water solution
under pressure, if possible. In some cases, shovels, scoops,
and lifts have been sand blasted or steam cleaned. Particular
care must be given to those components In direct contact with
contaminants such as tires and scoops. Swipe tests should be
utilized to measure effectiveness.
B. Sanitizing of Personnel ProtectIve Equipment
Respirators, reusable protective clothing, and other personal
articles not only must be decontaminated before being reused, but
also sanitized. The inside of masks and clothing becomes soiled
due to exhalation, body oils, and perspiration. The manufac-
turer’s instructions should be used to sanitize the respirator
mask. If practical, protective clothing should be machine washed
after a thorough decontamination; otherwise it must be cleaned by
hand.
j—l I
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C. Persistent Contamination
In some instances, clothing and equipment will become contamin—
anted with substances that cannot be removed by normal decontamin-
ation procedures. A solvent may be used to remove such contamin-
ation from equipment if it does. not destroy or degrade the pro-
tective material. If persistent contamination Is expected,
disposable garments should be used. Testing for persistent
contamination of protective clothing and appropriate decon-
tamination must be done by qualified laboratory personnel.
D. Disposal of Contaminated Materials •.
All materials and equipment used for decontamination must be
disposed of properly. Clothing, tools, buckets, brushes, and
all other equipment that is contaminated must be secured in drums
or other containers and labeled. Clothing not completely decon-
taminated on-site should be secured in plastic bags before being
removed from the site.
Contaminated wash and rinse solutions should be contained by
using step—in-containers (for example, child’s wading pool) to
hold spent solutions. Another containment method is to dig a
trench about 4 inches deep, and line with plastic. In both
cases the spent solutions are transferred to drums, which are
labeled and disposed of with other substances on site..
VII. ANNEXES
Annex 1, 2, and 3 describe basic decontamination procedures for a
worker wearing Level A, B, or C protection. The basic decontamination
lines (Situation 1), consisting of approximately 19 stations, are
almost identical except .for changes necessitated .by different pro-
tective clothing or respirators. For each annex, three specific
situations are described in which the basic (or full decontamination)
procedure is changed to take into account differences in the extent
of contamination, the accompanying changes in equipment worn, and
other factors. The situations illustrate decontamination setups
based on known or assumed conditions at an incident. Many other
variations are possible.
Annex 4 describes a minimum layout for Level A personnel decontamin-
ation. The number of individual stations have been reduced. Although
the decontaminationequiprnent and amount of space required is less
than needed in the procedures previously described, there is also a
much higher probability of cross—contamination.
J—12
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ANNEX 1
LEVEL A DECONTAMINATION
A. E JIPMENT WORN
The full decontamination procedure outlined is forworkers wearing
Level A protection (with taped joints between gloves, boots, and
suit) consisting of:
- Fully encapsulating suit.
— Self-contained breathing apparatus.
- Hard hat (optional).
— Chemical—resistant, steel toe and shank boots.
- Boot covers.
— Inner and outer gloves.
B. PROCEDURE FOR FULL DECONTAMINATION
Station 1 : Segregated Equipment Drop
Deposit equipment used on—site (tools,sampling devices and containers,
monitoring instruments, radios, clipboards, etc.) on plastic drop
cloths or in different containers with plastic liners. Each will be
contaminated to a different degree. Segregation at the drop reduces
the probability of cross—contamination.
Equipment: various size containers
plastic liners
plastic drop cloths
Station 2: Boot Cover and Glove Wash
Scrub outer boot covers and gloves with decon solution or detergent!
water.
Equipment: container (20—30 gallons)
decon solution
or
detergent water
2-3 long—handle, soft—bristle scrub brushes
J- 13
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Station 3 : Boot Cover and Glove Rinse
Rinse off decon solution from Station 2 using copious amounts of
water. Repeat as many times as necessary.
Equipment: container (30—50 gallons)
or
high—pressure spray unit
water
2—3 long—handle, soft-bristle scrub brushes
Station 4 : Tape Removal
Remove tape around boots and gloves, and deposit in container with
plastic liner.
Equipment:
container (20—30 gallons)
plastic liners
Station 5 : Boot Cover Removal
Remove boot covers and deposit in container with plastic liner.
Equipment: container (30—50 gallons)
plastic liners
bench or stool
Station 6 : Outer Glove Removal
Remove outer’ gloves and deposit in container with plastic liner.
Equipment: container (20—30 gallons)
plastic liners
Station 7 : Suit/Safety Boot Wash
Thoroughly wash fully encapsulating suit and boots. Scrub suit
and boots with long—handle, soft-bristle scrub brush and copious
amounts of decon solution or detergent/water. Repeat as many’
‘times as necessary.
Equipment: container (30—50 gallons)
decon solution
or
detergent/water
2—3 long—handle, soft-bristle scrub brushes’
j— 14
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Station 8 : Suit/Safety Boot Rinse
Rinse off decon solution or detergent/water using copious amounts
of water. Repeat as many times as necessary.
Equipment: container (30—50 gallons)
or
high—pressure spray unit
water
2-3 long handle, soft—bristle scrub brushes
Station 9 : Tank Change
If worker. leaves Exclusion Zone to change air tank, this is the
last step in the decontamination procedure. Worker’s air tank is
exchanged, new outer gloves and boots covers donned, and joints
taped. Worker then returns to duty.
Equipment: air tanks
tape
boot covers
,gloves
Station 10 : Safety Boot Removal
Remove safety boots and deposit in container with plastic liner.
Equipment: container (30—50 gallons)
plastic liners
bench or stool
boot jack
Station 11 : Fully Encapsulating Suit and Hard Hat Removal
With assistance of helper, remove fully encapsulating suit (and
hard hat). Hang suits on rack or lay out on drop cloths.
Equipment: rack
drop cloths
• . bench or stool.
• Station 12 : SCBA Backpack Removal
While still wearing facepiece, remove backpack and place on table.
Disconnect hose from regulator valve and proceed to next station.
Equipment: table
J— 15
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Station 13 : Inner Glove Wash
Wash with decon solution or detergent/water that will not harm
skin. Repeat as many times as necessary.
Equipment: basin or bucket
decon solution
or
detergent/water
small table
Station 14 : Inner Glove Rinse
Rinse with water. Repeat as many times as necessary.
Equipment: water basin
basin or bucket
small table
Station 15 : Facepiece Removal
Remove faceplece. Deposit In container with plastic liner. Avoid
touching face with fingers.
Equipment: contaIner (30—50 gallons)
plastic liners
Station 16 : Inner Glove Removal
Remove inner gloves and deposit in container with plastic liner.
Equipment: container (20—30 gallons)
plastic liners
Station 17 : Inner Clothing Removal
Remove clothing soaked with perspiration. Place in container with
plastic liner. Inner clothing should be removed as soon as possible
since there is a possibility that small amounts of contaminants might
have been transferred In removing fully encapsulating suit.
Equipment: container (30—50 gallons)
plastic liners
Station 18 : Field Wash
Shower if highly toxic, skin—corrosive or skin—absorbable materials
are known or suspected to be present. Wash hands and face if shower
is not available.
J— 16
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Equipment: water
soap
small table
basin or bucket
field showers
towels
Station 19 : Redress
Put on clean clothes. A dressing trailer is needed in inclement weather.
Equipment: tables
chairs
lockers
clothes
C. FULL DECONTAMINATION (SIT. 1) AND THREE MODIFICATIONS
S
I
T
•
STATION NUMBER
.
1
2
3
.4
5
6
I
7 8
9
10
11
12
13
14
.
15
16
17
18
19
1
X
X
X
X
X
X
X
X
X
•X
X
X
.
X
X
X
X
.
X
X
2
X
X
X
X
X
X
X
X
X
3
X
X
X
•
X
X
X
.
X
X
X
X
4
X
X
X
X
• Situation 1 : The individual entering the Contamination Reduction
Corridor is observed to be grossly contaminated or extremely toxic
substances are known or suspected tobe present.
Situation 2 : Same as Situation 1 except individual needs new air tank
and will return to Exclusion Zone. .
J- 17
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Situation 3 : Individual entering the CRC is expected to be minimally
contaminated. Extremely toxic or skin-corrosive materials are not
present. No outer gloves or boot covers are worn. Inner gloves are
not contaminated.
Situation 4 : Same as Situation 3 except individual needs new air tank
and will return to Exclusion Zone.
J— 18
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ANNEX 2
LEVEL B DECONTAMINATION
A. E JIPMENT WORN
The full decontamination procedure outlined is for workers wearing
Level B protection (with taped joints between gloves, boot, and suit)
consisting of:
- One—piece, hooded, chemical—resistant splash suit.
— Self—contained breathing apparatus.
— Hard hat.
- Chemical-resistant, steel toe and shank boots.
- Boot covers
— Inner and outer gloves.
B. PROCEDURE FOR FULL DECONTAMINATION
Station 1 : Segregated Equipment Drop
Deposit equipment used on—site (tools, sampling devices and containers,
monitoring instruments, radios, clipboards, etc.) on plastic drop
cloths or in different containers with plastic liners. Each will be
contaminated to a different degree. Segregation at the drop reduces
the probability of cross—contamination.
Equipment: various size containers
plastic liners
plastic drop cloths
Station 2 : Boot Cover and Glove Wash
Scrub outer boot covers and gloves with decon solution or detergent ! 1
water.
Equipment: container (20—30 gallons)
decon solution
or
detergent water
2—3 long-handle, soft-bristle scrub brushes
J-. 1.9
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Station 3 : Boot Cover and Glove Rinse
Rinse off decon solution from Statián 2 using copious amounts of
water. Repeat as many times as necessary.
Equipment: container (30—50 gallons).
or
high—pressure spray unit
water
2—3 long—handle, soft-bristle scrub brushes
Station 4 : Tape Removal
Remove tape around boots and gloves and deposit in container with
plastic liner.
Equipment: container (20—30 gallons)
plastic liners
StatIon 5 : Boot Cover Removal
Remove boot covers and deposit in container with plastic liner.
Equipment: container (30—50 gallons)
plastic liners
bench or stool
Station 6 : Outer Glove Removal
Remove outer gloves and deposit in container with plasticliner.
Equipment: container (20—30 gallons
plastic liners
Station 7 : Suit/Safety Boot Wash
Thoroughly wash chemical-resistant splash suit, SCBA, gloves, and
safety boots. Scrub with long—handle, soft-bristle scrub brush
and copious amounts of decon solution or detergent/water. Wrap
SCBA regulator (if belt-mounted type) with plastic to keepout
water. Wash backpack assembly with sponges or cloths.
Equipment: container (30—50 gallons)
decon solution
or
detergent/water
2-3 long—handle, soft-bristle scrub brushes
small buckets
sponges or cloths
J-2O
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Station 8 : Suit/SCBA/Boot/Glove Rinse’
Rinse off decon solution or detergent/water using copious amounts
‘of water. Repeat as many times as necessary.
Equipment: container (30—50 gallon’s)
or
high—pressure spray unit
water
small buckets
2-3 long—handle, soft—bristle scrub brushes
sponges or cloths
Station 9 : Tank Change
If’ worker leaves Exclusion Zone to change air tank, this is the last
step in the decontamination procedure. Worker’s air tank is
exchanged, new outer gloves and boots covers donned, and joints
taped. Worker returns to duty.
Equipment: air tanks
‘tape
boot’ covers
gloves
Station 10 : Safety Boot Removal
Remove safety boots and deposit in container with plastic liner.
Equipment: container (30—50 gallons)
plastic liners
bench or stool
boot jack
Station 11 : SCBA Backpack Removal
While still wearing facepiece, remove backpack and place on table.
Disconnect hose from regulator valve and proceed to next station.
Equipment: table
Station 12 : Splash Suit Removal
With, assistance of helper, remove splash su’it. Deposit in container
with plastic liner. ‘
Equipment: container (30—50 gallons)
plastic liners
bench or stool
J—21
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Station 13 : Inner Glove Wash
Wash inner gloves with decon solution or detergent/water that will
not harm skin. Repeat as many times as necessary.
Equipment: decon solution
or
detergent/water
basin or bucket
small table
Station 14 : Inner Glove Rinse
Rinse inner gloves with water. Repeat as many times as necessary.
Equipment: water
basin or bucket
small table
Station 15 : Facepiece Removal
Remove facepiece. Avoid touching face with gloves. Deposit in
container with plastic liner.
Equipment: container (30—50 gallons)
plastic liners
Station 16 : Inner Glove Removal
Remove inner gloves and deposit In container with plastic liner.
Equipment: contaIner (20—30 gallons)
plastic liners
Station 17 : Inner Clothing Removal
Remove clothing soaked with perspiration. Place In container with
plastic liner. Do not wear inner clothing off—site since there is
a possibility small amounts of contaminants might have been
transferred in removing fully encapsulating suit.
Equipment: container (30—50 gal lons)
plastic liners
Statioi 18 : Field Wash
Shower if highly toxic, skin—corrosive, or skin—absorbable materials
are known or suspected to be present. Wash hands and face If shower
is not available.
-22
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Equipment: water
soap
small tables
basins or buckets
field showers
Station 19 : Redress
Put on clean clothes. A dressing trailer Is needed in inclement
weather.
Equipment: tables
chairs
lockers
clothes
C. FULL DECONTAMINATION (SIT. 1) AND THREE MODIFICATIONS
•I
T
:
STATION NUMBER
1 2 3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
1
X
X
X
X
X
•X
X
X
X
X
.X
X
X
X
X
X
X
X
2
X
X
X
X
X
X
X
X
X
..
X
.
3
X
X
X
X
X
X
X
X
X
X
4
X
X
X
X
-
Situation 1 : The individual entering the Contamination Reduction
Corridor is observed to be grossly contaminated or extremely toxic
substances are known or suspected to be present.
Situation 2 : Same as Situation 1 except individual needs new,air tank
and will return to Exclusion Zone.
j—23
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SItuation 3 : Individual entering the CRC is expected to be minimally
contaminated. Extremely toxic or skin—corrosive materials are, not
present No outer gloves or boot covers are worn. Inner gloves are
not contaminated.
Sttuatlon4 : Same as Sltuatlon.3 except lndivlduaYneeds new air tank
• and will. return to Exclusion Zone. ‘ ‘ ‘
J—24
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ANNEX 3
LEVEL C DECONTAMINATION
A. EQUIPMENT WORN
The full decontamination procedure’outlined is for workers wearing
Level C protection (with taped joints between gloves, boots, and
suit) consisting of:
— One-piece, hooded, chemical-resistant splash suit.
— Canister equipped, full—face mask.
— Hard hat.
• — Chemical—resistant, steel toe and shank boots.
- Boot covers.
- Inner and outer gloves.
B. PROCEDURE FOR FULL DECONTAMINATION
Station 1 : Segregated Equipment Drop
Deposit equipment used on—site (tools, sampling devices and containers,
monitoring instruments, radios, clipboards, etc.) on plastic drop
cloths or in different containers with plastic liners. Each will be:
contaminated to a different degree. Segregation at the drop reduces
the probability of cross—contamination.
Equipment: various size containers
plastic liners
plastic drop cloths
Station 2 : Boot Cover and Glove Wash
Scrub outer boot covers and gloves with decon solution or detergent!
wate r.
Equipment: container (20—30 gallons)
decon solution
or
detergent water
2-3 long-handle, soft-bri stle scrub brushes
J— 25
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Station 3 : Boot Cover and Glove Rinse
Rinse off decon solution from Station 2 using copious amounts of
water. Repeat as many times as necessary.
Equipment: container (30—50 gallons)
or
high—pressure spray unit
water
2—3 long—handle, soft bristle scrub brushes
Station 4 : Tape Removal
Remove tape around boots and gloves and deposit In container with
plastic liner.
Equipment: container (20—30 gallons)
plastic liners
Station 5 : Boot Cover Removal
Remove boot covers and deposit in container with plastic liner.
Equipment: container (30—50 gallons)
plastic liners
bench or stool
Station 6 : Outer Glove Removal
Remove outer gloves and deposit in container with plastic liner.
Equipment: container (20—30 gallons)
plastic liners
Station 7 : Suit/Safety Boot Wash
Thoroughly wash splash suit and safety boots. Scrub with long—
handle, soft—bristle scrub brush and copious amounts of decon
solution or detergent/water. Repeat as many times as necessary.
Equipment: container (30—50 gallons)
decon solution
or
detergent/water
2-3 long—handle, soft-bristle scrub brushes
Station 8 : Suit/Safety Boot Rinse
-------�
•Rinse off decon solution or detergent/water using copious amounts
of water. Repeat as many times .as necessary.
Equipment: container (30—50 gallons)
• or
high—pressure spray unit
water
2—3 long—handle, soft—bristle scrub brushes
Station 9 : Canister or Mask Change
‘If worker leaves Exclusion Zone to change canister (or mask), this
isthe last step in the decontamination procedure. Worker s canister
is exchanged, new outer gloves and boots covers donned, and joints
taped. Worker returns to duty.
Equipment: canister (or mask)
tape
boot covers
gloves
Station 10 : Safety Boot Removal
Remove, safety boots and deposit in container with plastic liner.
Equipment: container (30—50 gallons)
plastic liners -
bench or stool
boot jack
Station 11 : Splash Suit Removal
With assistance of helper, remove splash suit. Deposit in container.
‘with plastic liner.
Equipment: container (30—50 gallons)
bench or stool,
liner
Station 12 : Inner Glove Wash
Wash ‘inner gloves with decon solution or detergent/water that will
not harm skin. Repeat as many times as necessary.
Equipment’: decon solution
• ‘ or
detergent/water
basin or bucket,
-------�
Station 13 : Inner Glove Rinse
Rinse inner gloves with water. Repeat as many times as necessary.
Equipment: water
basin or bucket
small table
Station 14 : Facepiece Removal
Remove facepiece. Avoid touching face with gloves. Deposit
facepiece in container with plastic liner.
Equipment: contaIner (30—50 gallons)
plastic liners
Station 15 : Inner Glove Removal
Remove inner gloves and deposit in container with plastic liner.
Equipment: container (20-30 gallons)
plastic liners
Station 16. : Inner Clothing Removal
Remove clothingsoaked with perspiration. Place in container with
plastic liner. Do not wear inner clothing off-site since there is
a possibility small amounts of contaminants might have been
transferred In removing splash suite.
Equipment: container (30—50 gallons)
plastic liners
Station 17 : FIeld Wash
Shower If highly toxic, skin—corrosive or skin—absorbable materials
are known or suspected to be present. Wash hands and face if shower
is not available.
Equipment: water
soap
tables
wash. basins/buckets
field showers
Station 18 : Redress
Put on clean clothes. A dressing trailer Is needed in inclement weather.
j—2S
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Equipment: tables
chai rs
lockers
clothes.
C. . FULL DECONTAMINATION (SIT, 1) AND THREE MODIFICATIONS
S
I
T
. STATION NUMBER
.
1
2
3
4
5
6
.
7
8
9
10
11
12
13
14
15
16
17
18
1
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
2
X
X
X
X
X
X
X
X
•
•
.
X
•
X
X
.X
X
.X
X
X
X
4
X
X
X
X
Situation 1 : The individual entering the Contamination Reduction Corridor
is observed to be grossly contaminated or extremely skin corrosive substances
are known or suspected to be present.
Situation 2 : Same as Situation 1 except individual needs new canister or
mask and will return to Exclusion Zone.
Situation 3 : Individual entering the CRC is expected to be minimally
contaminated. Extremely skin—corrosive materials are not present. No
outer gloves or boot covers are worn. Inner gloves are not, contaminated.
Situation 4 : Same as Situation 3 except individual needs new canister or
mask and will return to Exclusion Zone.
j—29
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ANNEX 4
LEVEL A DECONTAMINATION, MINIMUM LAYOUT
A. E .JIPMENT WORN
The decontamination procedure outlined is for workers wearing Level A
protection (with taped joints between gloves, boots, and suit) consisting
of:
— Fully encapsulating suit with integral boots and gloves.
— Self-contained breathing apparatus.
— Hard hat (optional).
— Chemical—resistant, steel toe and shank boots.
- Boot covers.
— Inner and outer gloves.
B. PROCEDURE FOR FULL DECONTAMINATION
Station 1 : Segregated Equipment Drop
Deposit equipment used on—site (tools, sampling devices and containers,
monitoring instruments, radios, clipboards, etc.) on plastic drop
cloths or in different containers with plastic liners. Each will be
contaminated to a different degree. S.egregation at the drop reduces
the probability of cross—contamination.
Equipment: various size containers
plastic liners
plastic drop clothes
Station. 2 : Outer Garment, Boots, and Gloves Wash and Rinse
Scrub outer boots, outer gloves, and fully-encapsulating suit with
decon solution or detergent water. Rinse off using copious amounts
of water. .
Equipment: containers (30—50 gallons)
decon solution
or
detergent water
J—30
-------�
rinse water
2—3 long—handle, soft—bristle scrub brushes
Station 3 : Outer Boot and Glove Removal
Remove outer boots and gloves. .Deposlt 1n container with plastic
liner.
Equipment: container (30—50 gallons)
plastic liners.
bench or stool
Station 4 : Tank Change
If worker leaves Exclusion Zone to change air tank, this Is the last
step in the decontamination procedure. Worker’s air tank is exchanged,
new outer gloves and boot covers dOnned, joInts taped, and work’er
returns to duty.
Equipment: air tanks
tape
boot covers
gloves
Station 5 : Boot, Gloves, and Outer Garment Removal
Boots, fully-encapsulating suit, and inner gloves removed and deposited
In separate containers lined with plastic.
Equipment: containers (30—50 gallons)
- plastic liners
bench or stool
StatIon 6 : SCBA Removal
SCBA backpack and facepiece is removed. Hands and face are thoroughly
washed. SCBA deposited on plastic sheets.
Equipment: plastic sheets
basin or bucket
soap and towels
bench
Station 7 : FIeld Wash
Thoroughly wash hands and face. Shower as soon as possible..
J—3 1
-------�
Equipment: water
soap
tables
wash basin/bucket
J•-32
-------�
Guidelines, for the
Selection of Chemical
Protective Clothing
3rd Edition
A.D. Schwope, Arthur D. Little, Inc.
P.P. Costas, Arthur D. Little, Inc.
J.O. Jackson, Los Alamos National Laboratory
J.O. StuII, U.S. Coast Guard
D.J. Weitzman, U.S. Environmental Protection Agency
February 1987
Office of Administration
Volume II: Technical
and Reference Manual
Occupational Health and Safety Staff
-------�
DISCLAIMER
Arthur D. Little, Inc., prepared this document with what it believes is
the best currently available information. The document is subject to
reVision’..a .add tio ’iáI knbwl’edge-.and experience are gained; Arthur D.
Little cannot guarantee the accuracy of information used to deyelop° the
chemical protective clothing recommendations contain d herein arid the
mention of company names or products does not constitute endorsement by
Arthur D. Little. Arthur D. Little accepts no responsibility for
damages or liabilities of any kind which may be claimed to result from
the use of this document.
1]
-------�
ACKNOWLEDGEMENTS
This Guidelines for the Selection of Chemical Protective Clothing was
prepared by Arthur D. Little, Inc. (Cambridge, Massachusetts), under
subcontract to Los Alamos National Laboratory (New Mexico) for the
U.S. Environmental Protection Agency (EPA) and the U.S. Coast Guard.
Particularly helpful in the preparation of this, the third edition of
the Guidelines were J.F. Stampfer.and H.J. Ettinger (Los Alamos National
Laboratory) and Krister Forsberg. Mr. Forsberg of the Royal Institute
of Technology (Stockholm) reviewed each line of data presented in
Appendix A of Volume II for consistency with the original literature
sources. We also thank Dr. Douglas Walters of the National Toxicology
Program for contributing an extensive compilation of glove permeation
data generated for the NTP by the Radian Corporation.
The text, except for the addition of Chapter 5--Full-Body Protection to
Volume I, remains essentially the same (although updated) as the first
EPA and ACGIH editions for which we note the support and review comments
of W. Aaroe, B.E. Benson, S.P. Berandinelli, R. Ellis, E.R. 1-loyle, K.
Flunninen, R.F. Kent, W.F. Keffer, A.P. Nielson, R.C. Magor, M.D. Royer,
A. Smith, R.S. Stricoff, F. Thompson, R.D. Turpin, L. Walz, and R.W.
Weeks. In addition, we appreciate the assistance of encapsulating
ensemble manufacturers in the preparation of Appendix C of Volume I.
The authors also acknowledge the contributions of the Arthur D. Little
project team which included William Hawes, whose programming skills
greatly facilitated the information organization task and T. Carroll,
C. Luciano, M. Rourke, and D. Ryan, who assisted us in gathering and
inputing the information. Finally, we thank the typists and report
production specialists who assembled the document.
111
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SPECIAL NOTE TO USERS
This document contains comprehensive tables of recommendations to aid
and facilitate the selection of chemical protective clothing (CPC). The
recommendations are based on an extensive compilation and analysis of
CPC vendors’ literature and experimentaltest data published in techni-
cal journals and reports. It is imperative that users of the recommen-
dation tables familiarize themselves with the background information
that precedes and accompanies the. tables. The selection of CPC must
take into account the potential hazard and the conditions of use- -
• neither is considered in this document. The recommendations are not nor
do they imply a guarantee of safety.
Although every effort has been made to prepare this docum nt as accu-
•rately as possible, errors can and do occur. Users of this document are
asked to notify Lt. Jeffrey 0. Stull, Commandant (G-DMT-3), U.S. Coast
Guard, 2100 Second Street, S.W., Washington, D.C. 20593 (202-267-0853),
or Mr. David Weitzman, U.S. Environmental Protection Agency, Office of
Occupational Health and Safety, Room 3503, Waterside Mall, 401 M Street,
S.W., Washington, D.C. 20460 (202-382-3647) of errors so that they can
be corrected.
iv
-------�
TABLE OF CONTENTS
VOLUME II
Page
CHAPTER 1 - OBJECTIVES, LIMITATIoNS AND
ASSUMPTIONS FOR THE GUIDELINES 1
A; INTRODUCTION 1
B. OBJECTIVES 1
C. LIMITATIONS 2
D. ASSUMPTIONS 3
E. INSTRUCTIONS FOR GUIDELINES USE 3’
CHAPTER 2 - PERMEATION THEORY 4
A. INTRODUCTION 4
B. IDEAL PERMEATION 4
C. ANOMALOUS PERMEATION .8
D. PERSISTENT PERMEATION 9
E. CHEMICAL CLASSIFICATION AND 9
SOLUBILITY PARAMETER
CHAPTER 3 - TEST METHODS 12
A. INTRODUCTION 12
B. SOLUBILITY 12
C. DEGRADATION 13
D. PERMEATION , 13
E. VISIBILITY . 16
F. PENETRATION . 16’
G. OTHER FACTORS 17
V
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CHAPTER
A.
B.
C.
D.
CHAPTER
A.
B.
C.
D..
BIBLIOGRAPHY
APPENDICES -
APPENDIX A
APPENDIX B
APPENDIX C
APPENDIX D
APPENDIX E
APPENDIX F
APPENDIX
APPENDIX
Page
20
20
20
23
24
25
25
25
26
26
28
63
A-i
B-i
C-i
D-i
E-i
F-i
•G-i
H-i
TABLE OF CONTENTS (CONTINUED)
4 - ANALYSIS OF THE VENDORS’ LITERATURE
INTRODUCTION
REVIEW OF VENDORS’ LITERATURE
PERSPECTIVES ON VENDORS’ LITERATURE
CONCLUS ION
5 - SOURCES OF CHEMICAL PROTECTIVE
CLOTHING INFORMATION
INDUSTRY
GOVERNMENT
PROFESSIONAL ORGANIZATIONS
TECHNICAL LITERATURE
DESCRIPTION OF COLUMN HEADINGS FOR
APPENDICES A THROUGH E -
- PERMEATION DATA
- WEIGHT CHANGE DATA
-. SWELLING DATA
- DIFFUSION COEFFICIENTS
- TENSILE DATA
- PERMEATION DATA FOR MULTI-COMPONENT
LIQUIDS
G - VENDOR CODES FOR USE WITH DATA
SUMMARIES IN APPENDICES A THROUGH E
H - RATIONALE FOR RECOMMENDATIONS IN
MATRIX A
vi
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CHAPTER 1
OBJECTIVES, LIMITATIONS AND
ASSUMPTIONS FOR THE GUIDELINES
A. INTRODUCTION
The selection of the best chemical protective clothing (CPC) for use
against a particular chemical can be a difficultand perplexing task. A
principal reason for this situation is that the necessary information,
if any is available, has not been organized. Vendors’ recommendations
tables provide guidance but there is little or no basis on which to
compare products. Technical reports of CPC performance have increased
in number in recent years, but are scattered through the literature, and
again, there is no standard format for reporting data.
TheEPA’s Occupational Health and Safety staff has repeatedly faced this
situation in its attempts to’ provide guidance to field personnel in-
volved in the clean-up of hazardous waste sites. Furthermore, the
U.S. Coast Guard has particular needs for consolidating information on
full-body protective ensembles. We, therefore, have developed this
two-volume Guidelines for the Selection of Chemical Protective Clothing.
This third edition of the Guidelines has been completely updated from
those of 1983 and 1985. The key objectives, limitations, assumptions,
and instructions for use of this publication are described in the
following paragraphs.
B. OBJECTIVES
The main objective of the Guidelines is that it be a concise, up-to-date
source for information relative to selection of personal protective
clothing. Its principal focus is clothing for protection against
chemicals which are potentially harmful to humans. More specifically,
the Guidelines addresses the chemical resistance of protective clothing
materials and the design features of full-body protective ensembles and
splash suits. The Guidelines is designed to:
. Educate (or review for) the user the technical concepts
associated with the chemical resistant clothing. The goal is
to provide the Guidelines user the background necessary to
make the best possible decisions relative to selecting and
using CPC.
s Bring together and compare the considerable amount of vendors’
chemical resistance information with data published in the
technical literature pertinent to CPC performance. The goal
is to provide consensus recommendations as to the most appro-
priate clothing for the chemicals of interest.
1
-------�
• Provide listings of CPC products and a directory of CPC
vendors.
• Provide specific, detailed information on full-body protective
clothing.
• Aid further study of CPC by inclusion of a comprehensive
reference listing.
• Be readily updateable as more information becomes available.
C. LIMITATIONS
The scope of the Guidelines is limited to gloves, garments, boots, and
lenses and face shields. Respirators are not covered. The chemicals
are principally liquids, but a small number of gases and some solids
with high vapor pressures are included. The chemicals were selected
from the listings of Clean Water Act (CWA) Sections 311 and 307a, Clean
Air Act (CAA) ‘Section 112, and Resource Conservation and Recovery Act
(RCRA) Sections P,’U, F, and K. Also addressed were any other chemicals
for which there were CPC manufacturers’ or vendors’ recommendations or
technical reports of permeation or compatibility test results.
Regarding the CPC manufacturers and vendors referred to in the directo-
ry, the listing is not, all inclusive. The objective, however, is to
include ,at least one source for any given item of CPC. In other words,
it is unlikely that all distributors of certain brands/lines of CPC are
mentioned. The listing is designed such that it can be readily expanded
to cover additional manufacturers or distributors as they become known.
‘The recommendations, which compose Matrices ‘A and B, Volume I, Chapter
8, are the result of comparative analysis of both the vendors’ and
technical literature in combination with technical judgment. For many
chemicals the information available was sufficient for there to be a
high level of confidence in the recommendations; these recommendations
are listed as’ double upper case letters in the Matrices. For other
chemicals there was less information and the recommendations are listed
in lower case. For many chemicals there was no information and no
recommendation is given.
‘A further limitation is that the Guidelines does not address multi-
component solutions in-depth. Such mixtures, especially where several
organic solvents are involved can have greater permeation than any one.
of the components alone. Special care must be taken when solutions are
involved. Furthermore, the Guidelines does not consider all the possi-
ble applications to which CPC will be put.
2
-------�
D. ASSUMPTIONS
The Guidelines is developed under three key assumptions:
• Its users would have a background in the physical sciences
and, specifically, chemistry.
• Its users would have some information about the identity of
the chemicals to which the CPC may be exposed.
• Its users would have some information about the degree of
hazard with which the worker may be faced. The Guidelines
provides ratings of the expected performance of the materials
of construction of CPC. The Guidelines does not prescribe the
level of clothing necessary for a given task, although Appen-
dix I of Volume I provides some assistance in this regard.
E. INSTRUCTIONS FOR GUIDELINES USE
The Guidelines is divided into two volumes. Volume I is directed more
towards day-to-day field use, while Volume II is designed more as a
reference manual. The individual responsible for selecting CPCat the
hazardous waste site should be familiar with all. aspects of Volume I.
It provides:
• Basic discussions of chemical resistance and permeation of CPC
materials.
• Recommendations for CPC for. 509 chemicals or aqueous solu-
tions.
• Detailed descriptions of full-body encapsulating ensembles.
• Sources for acquisition of recommended clothing.
The responsible on-site individual should also be aware of Volume II and
its contents. Volume II, however, was designed principally to be used
by the occupational health and safety professional providing further
guidance to field personnel.
The volumes are in loose-leaf format -to allow for rapid update in
response to additional information on CPC performance and user comments.
In this regard, all Guidelines users are asked to inform Lt. Jeffrey 0.
Stull, Commandant (G-DMT-3), U.S. Coast Guard, 2100 Second Street, S.W.,
Washington, D.C. 20593 (202-267-0853), or Mr. David Weitzman, U.S.
Environmental Protection Agency, Office of Occupational Health and.
Safety, Room 3503, Waterside Mall, 401 M Street, S.W., Washington, D.C.
20460 (202-382-3647) of problems in understanding or using the Guide-
lines.
-------�
CHAPTER 2
PERMEATION THEORY
A. INTRODUCTION
The purpose of the Guidelines is to facilitate the selection of CPC on
the basis of its effectiveness as a barrier to potentially hazardous
chemicals. Since chemical resistance is the focus, it is appropriate to
include a discussion of permeation theory. In Chapter 3, Volume I, a
brief overview of the key aspects of the theory is presented. The
present chapter contains a more in-depth discussion of the subject. In
addition several other theoretical factors which were considered in
developing the CPC recommendations are summarized.
B. IDEAL PE NEATION
Permeation of a chemical through a barrier is a three-step transport
process involving (1) the sorption of molecules of the chemical at the
contacted surface of the barrier, (2) the diffusion of the sorbed mole-
cules through the barrier, and (3) the desorption of the molecules from
the opposite surface of the barrier. 83 , 84 In cases involving direct
liquid contact with a clothing material, the diffusion step is the rate
controlling step in the permeation process and, therefore, is the topic
of the remainder of the discussion.
The rate of mass diffusion through a unit surface area of a clothing
barrier (or membrane) is proportional to the concentration gradient of
the chemical (perineant) across the barrier. This relationship is most
often expressed by Fick’s Law:
J=Dr (1)
where
J is the mass flux, zg/min/cm 2 ;
D is the diffusion coefficient, cm 2 /min;
c is the concentration in the membrane, ig/cm 3 ; and
x is the distance, in cm, from the contacted membrane surface.
The minus sign in the equation accounts for a decreasing c as x in-
creases.
Integration of equation (1) results in a relationship which, is useful for
determining the diffusion coefficient from test data. Once D is known
for a given chemical/material pair, then the chemical flux can be
4
-------�
estimated over a wide range of thicknesses and challenge concentration
conditions. Such a prediction is appropriate since permeation criteria
for protective clothing might ultimately be specified as a maximum
allowable flux rather than a breakthrough time, as is more commonly the
case today.
Where D is not a function of chemical concentration, membrane thickness;
or contact time (such as during the steady-state permeation of a non-
reactive gas), this integration is straightforward and yields equation
(2):
J=DC 1 G 2 (2)
.2
where
C 1 is the permeant concentration in the upstream (higher concentra-
tion) surface of the membrane (at x = 0);
C 2 is the permeant concentration in the downstream surface of the
membrane (at x = .2); and
Q is the membrane thickness.
In cases where D is a function of concentration, an integral diffusion
coefficient can be defined as:
I. l
1 Ddc (3)
Cl C 2 Gil
Examples of as a function of concentration would include:
D=D (l+f (c))
f ()
D=De
0
where D is the zero-concentration diffusion coefficient. Such a concen-
tration 0 dependence may occur when organics, such as solvent liquids,
diffuse through polymeric materials. The result of integrating equation
(1) with an integral diffusion coefficient is Equation (5):
C 1 - C 2
J=_ _____ (5)
5
-------�
It should be noted here that many polymers swell- - thereby changing their
thickness- -upon the invasion of a permeating chemical. Crank discusses
this on page 28 of The Mathematics of Diffusion. 83 Conventional practice
is to disregard this change in the above integration and subsequent
calculation of D.
D or D can be determined by measuring both C 1 and the permeation flux.
C 2 is considered to be 0 when permeation tests are carried out such that
downstream membrane surface (at x = .2) is continuously exposed to and
flushed by a fluid in which the concentration of the pernieant is far
below saturation. In the case of the diffusion of a neat chemical, C 1 is
the solubility of the compound in the polymer (L e., C 1 = C) and can be
determined by a separate, long-term immersion experiment. The rate of
permeation is typically determined by analytical methods such as CC, IR,
•UV, or scintillation counting (in the case that the permeant is radio-
labeled) of a collecting fluid that contacts the downstream surface of
the membrane. ASTM Method F739-85 is an appropriate procedure for such
testing. A graphical, idealized representation of chemical permeation
through a membrane is presented in Figure 1 in terms of measured concen-
tration versus contact time. -
In practice, the determination of the diffusion coefficient is not always
straightforward. Consequently, techniques have been developed for
estimating this parameter at particular stages of the permeation process.
Of particular importance because of the relative ease of their determina-
tion and their utility in predictive models are the steady-state diffu-
sion coefficient, D, and the lag time diffusion coefficient, DL. In the
following paragraphs, the significance of these diffusion coefficients
and methods for their determination are described. Other, more complex,
methods for estimating D are presented by Crank 83 and Crank and Park. 84
1. Steady-State Diffusion Coefficient (Do)
In ideal diffusion, a constant concentration gradient develops across the
membrane and the flux becomes constant (i.e., steady-state permeation)
following the transition period after breakthrough. (In many cases
involving CPC, non-ideal diffusion occurs and a steady state does not
develop. 222 ) A steady-state diffusion coefficient, D, can be calculated
directly from equation (6):
• Ds= (6)
Cl
assuming C 2 is small compared to C 1 .
The steady-state coefficient may be useful in the selection of clothing
materials in cases where some limited exposure to a permeating chemical
may be acceptable.
6
-------�
Membrane Exposure Time, t
FIGURE 1 IDEAL PERMEATION THROUGH A POLYMERIC MEMBRANE — FIXED COLLECTION VOLUME
—4
C
0
I.-
4- .
C
a,
U
C
0
0
E
a,
I .
4- ’
(I,
C
0
a
Steady State
Transition
Break through
0•
-------�
2. Lag Time Diffusion Coefficient (DL)
Ancther technique for calculating a diffusion coefficient is the lag time
method. The lag time coefficient, DL, is determined by extending the
steady-state portion of the permeation curve (see Figure 1) to the time
axis. The time, TL, at the intercept is substituted into equation (7):
DL= — (7)
6 TL
and D calculated. DL may then be used in equation (2), but this is
strict T ly valid only for those barriers in which the diffusion coefficient
is constant. In many cases, DL is a good approximation for D and in
some cases a fair approximation to for those barriers in wriich the
diffusion coefficient is variable.
In conclusion, it must be noted that at present there is no overall
theory that allows the prediction of the permeability of CPC. Some of
the problems faced in developing predictive methods are discussed in the
next paragraph.
C. ANOMALOUS PERMEATION
In the previous paragraph ideal permeation was described as a diffusion
process in which the breakthrough time is followed by a period of smooth
transition to a steady-state situation in which the permeation rate does
not change with time. Ideal diffusion is likely to occur with many of
the chemical/material pairs experienced on a hazardous waste site. It
should be recognized, however, that deviations (i.e., anomalies) from the
ideal may occur in a large fraction of the cases. As the name implies,
anomalous permeation is not predictable. However, there are sev2ral
general conditions under which the probability of non-ideal permeation is
increased:
. where there may be a reaction of the chemical with the plastic/
elastomer of the CPC or some other component of the material.
In some cases the reaction will lengthen the breakthrough time
and reduce permeation rate by consuming chemical. In other
•cases the reaction will reduce the barrier effectiveness of the
CPC by degrading its properties.
. where the chemical, merely by its being absorbed, changes the
properties of the CPC. Many organic liquids are known to craze
(produce surface cracks) in the hard, clear plastics used for
lenses and face shields.
8
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• where the chemical extracts components from the CPC materials.
For example, leaching of plasticizer from PVC clothing will
significantly affect its barrier as well as functional proper-
ties.
Nelson et al. 222 , Weeks et al. 326 , 327 , and Crank and Park 84 present
additional discussions of this subject.
D. PERSISTENT PERMEATION
Once a chemical has begun to diffuse into a plastic/elastomer, it will
continue to diffuse even after the chemical on the surface is removed.
This is due to the concentration gradient that develops within the CPC
and the natural tendency for a gradient to equilibrate with its surround-
ings. This phenomenon has significant implications relative to decontam-
ination and reuse of CPC.
First, in the case of CPC which has not suffered chemical breakthrough
but has absorbed some chemical before the chemical is removed from the
surface, the chemical may eventually appear on its inside surface. The
amount of chemical reaching the inside will be dependent upon the amount
of chemical absorbed and its permeation rate. For example, where the
absorbed amount is small and the rate slow, it is likely that a large
fraction of the absorbed chemical will return to the outside surface
where, if it is volatile, it will evaporate to the air, and little or no
chemical will reach the inside surface. On the other hand where the
permeation rate is fast, there is the potential that a large amount of
chemical will appear on the inside surface, perhaps after overnight
storage in a locker.’’ 6
Second, in order to achieve complete decontamination of the CPC, both
surface and absorbed chemical must be removed. Since the absorbed
chemical will leave the CPC only by a diffusional process, either very
long times or conditions which accelerate diffusion are required. These
would include high temperatures, vacuum, or perhaps a dry-cleaning
process in which a chemical non-degrading to the CPC is used to extract
the hazardous chemical. Because of this problem of persistent permëa-
tion, extreme caution is advised when using CPC that has been exposed to
highly toxic chemicals. In fact, where such chemicals are involved, it
may be prudent practice to use disposable clothing.
E. CHEMICAL CL1 SSIFICATION AND SOLUBILITY PARANETER
The Guidelines provides CPC recommendations for 509 chemicals or aqueous
solutions. For those chemical/material pairs for which no recommenda-
tions are given, it is suggested that CPC can be selected on the basis of
the family to which the chemicals belong. The premise, which is substan-
tiated in permeation literature, is that chemicals of similar composition
9
-------�
or functional groups tend to permeate a given material at relatively
similar rates. - Extensions and refinements of this premise are
that: 262 3 1 5
• higher molecular weight members of a homologous series of
chemicals permeate at slower rates than lower molecular weight
members.
• pendant groups (which increase the size of a molecule) tend to
slow the permeation rate relative to that of the simple mole-.
cule.
• permeation rate tends to decrease with increasing boiling
point.
• polar chemicals tend to permeate polar materials more rapidly
than non-polar chemicals, and the converse is true.
The 509 chemical or aqueous solutions were, categorized into 29 main
classes and 67 subclasses according to structure and functional.
groups. 177 For example, hydrocarbons is a main class which is divided
into aliphatic, aromatic, and polynuclear aromatic subclasses. The
classes are listed in Table 8.1, Chapter 8 of Volume I. The class into
which each chemical was placed can. be determined from Appendix B of
Volume I.
Upon review of those classes which contain a sufficient number of chemi-
cals on which to base a conclusion, the above generalizations relative to
the chemical resistance of materials would appear to ‘apply for most of
the chemical/material pairs addressed in this study.
A second means for predicting the chemical resistance of CPC materials is
through the use of solubility parameter theory. This theory attempts to
quantify the qualitative nature of the above generalizations. According
to the theory, the physical and chemical properties of a chemical can be
combined mathematically to yield a parameter that is then compared to an
empirically determined parameter for the plastic/elastomer. In cases
where the parameter of the chemical approximates that of the material,
the chemical is predicted to have a high solubility in, or dissolve the
material. In other words “likes dissolve likes.” Extrapolation of this
theory to CPC implies that a material is not likely to be resistant to a
chemical having a similar solubility parameter. An especially attractive
feature of the theory is that solübility parameters can be calculated for
multi-component solutions by weighting the individual parameters accord-
ing to the relative concentrations of each component in the solution.
Consequently, there is the potential for making decisions relative to
selecting CPC for the virtually limitless number of solutions that may be
encountered.
10
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T5rpical variations of the theory relate to the factors that are included
in the calculation of the solubility parameter and how these parameters
are weighted. One of the more widely accepted concepts is the three-
component parameter which combines factors for the hydrogen bonding,
polarity and dispersion forces of the chemical to yield its overall
solubility parameter. Other systems deal with two of these factors.
Still other systems favor the single-component solubility parameter and
then make adjustments for polarity or hydrogen bonding depending on the
application. Similar considerations are also required for the plastic/
rubber of CPC. -
The results of a limited number of tests of the theory relative to CPC
materials show some promise for its application to CPC selection. 287
Henriksen has reviewed the theory in considerable detail, and applied it
to the data of Nelson et al. and his own data for epoxy solutions. 147
Christensen 70 has also subjected the data of Nelson et al. to an analysis
based on solubility parameter. The data of Nelson are particularly
useful in this regard since they result from a large number of experi-
ments with a broad variety of chemicals with well-specified CPC. How-
ever, it is important to note that the theory is just that, “a theory,”
and that there are many variations of the theory, several of which are
reviewed by Barton 38 and more recently by L. Snyder. 283 , 284
Although solubility parameter theory offers promise for predicting CPC
performance, the application of the theory to CPC is in its early stages.
Significant problems must be solved before the theory can be applied to
the confident selection of CPC. For example, methods must be developed
for estimating the two- and/or three-component factors for chemicals
other than relatively simple solvents. Similarly, methods are required
for estimating the solubility parameters of CPC materials. Perkins et
al. have estimated the solubility parameters of selected CPC materi-
als. 235 However, solubility parameters of CPC materials may be strongly
influenced by formulation. Finally, it must be remembered that solubil-
ity parameter theory is an equilibrium concept. It does not take into
account the dynamics of the permeation process. •Also needed are
approaches to predicting the time-containing element of the permeation
equation, i.e., the diffusion coefficient.
11
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CHAPTER 3
TEST METHODS
A. INTRODUCTION
•The barrier effectiveness of a particular item of clothing to a particu-
lair chemical/mixture is dependent on the specific interactions between
the clothing material and the chemical/mixture. This in turn is deter-
mined by the formulation of the clothing material, its method of manufac-
ture, and its thickness. Temperature and other conditions of use also
influence clothing barrier properties. Finally, the composition of the
chemical/mixture is of major importance since relatively small percentag-
es of a second, third, etc., component can drastically alter the way in
which a chemical interacts with a material.
With the above in mind it is highly desirable that protective clothing
selection decisions be based on the results of testing of the chemi-
cal/clothing material pair of nterést. The objective of such testing is
to quantify the key parameters discussed in Chapter 2. Of particular
concern are:
• The solubilityof the chemical/mixture in the clothing material.,
f The breakthrough.time of the chemical for the material.
• The permeation rate of the chemical through the material.
B. SOLtJBILITY
Solubility is the weight of chemical absorbed by a known weight of
material. In general, chemicals having solubilities > 10% rapidly
permeate the rubber or plastic. ASTM Method D471-79 and ISO Method 2025
(International Standards Organization) describe methods for determining
solubility The procedure simply involves immersing the material in the
chemical. In case of multi-layered clothing materials, only the normally
outside surface should be exposed to chemical. If the solubility values
are to be later used in calculating permeation rates, then each material
of the multi-layer system should be tested separately. Periodically the
material is removed, patted dry and weighed until a constant weight is
obtained. In addition to noting weight changes, the chemical and the
material should be inspected for discoloration, indicative of decomposi-
tion of the clothing material. Also the clothing material should be
examined for physical degradation using a knife, spatula, or other probe.
Solubility testing is simple and can readily be performed wherever at.
least a two decimal place balance is available. Multiple tests can be
12
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performed simultaneously using as little as 0.5 g and as much as 100 g of
clothing material per test, depending on the sensitivity of the balance.
Solubility testing represents the minimum level of evaluation that can be
performed for any unknown or multi-component hazardous waste.
C. DEGRADATION
The physical and/or aesthetic qualities of CPC can be significantly and
and undesirably changed due to exposure to chemicals. Chemical degrada-
tion testing simply involves measuring the properties or qualities of
interest before and after exposure to the chemical. The results are
compared and the change, if there is any, judged as to its acceptability
for the intended application of the item of clothing. ASTM Method D543
describes one such method for plastic materials. ASTM Committee F-23 is
presently developing a method specifically focussed on clothing materi-
als.
Similar to solubility testing, degra&t’:ion can’ be performed in the field
and can be used as a means for screening candidate clothing’materials
prior to more involved and expensive testing such as the permeation test
described below.
D. PERMEATION
Breakthrough time and permeation rate are determined by means of a
permeation test. ASTM Method F739-85 was specifically developed for the
evaluation of protective clothing’ materials. (‘A printed copy of this
method is available from ASTM, 1916 Race Street, Philadelphia, PA 19103.)
The method uses a test cell which is divided into two chambers at the
midline by the clothing material to be tested. ‘(See Figure 2.) The
potentially hazardous chemical is placed in one chamber and the other
chamber (i.e., the collection chamber) is monitored for the chemical of
interest. As shown, the cell is assembled for a liquid challenge chemi-
cal. Gaseous chemicals can also be tested by forming the cell from two
collection chambers. The test gas is then flowed continuously through
the challenge chamber. Of interest are the time the chemical is first
detected (i.e., breakthrough time) and the subsequent rate of permeation.
Of critical importance in conducting the test is that the collecting
medium not interact with the clothing material; air, nitrogen, helium, or
water are preferred collection media.
The detection of breakthrough is dependent on the sensitivity of the
analytical method used for ‘measuring the chemical in the collection
medium. Typical preferred analytical methods include gas, liquid and ion
chromatography, analysis for total combustible organics, ultraviolet and
infrared spectrophotometry, and radioanalysis. The properties of the
chemical, the sensitivity requirements for the test, ‘and cost are the
13
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Challenge Chamber for
- Test Chemical
FIGURE 2. SKETCH OF ASTM F739-85
PERMEATION TEST CHAMBER
Collection
Chamber
I.
TF E-fluorocarbon Seal
14
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principal factors considered in selecting an analytical method. For
relatively volatile chemicals, gas chromatography and infrared spectro-
photometry are the preferred methods. Liquid chromatography is used for
relatively nonvolatile organic compounds. Ion chromatography is particu-
larly useful for inorganic acids and salts. Finally, radiolabelled
compounds may be preferred where high sensitivity and specificity is
required;. furthermore, if the compound of interest is readily, available
in radiolabelled form, radiochemical methods may be significantly less
costly than the development and use of the other techniques.
Permeation testing of protective clothing materials has increased signif-
icantly during the past five years. The Journal of the American Indus-
trial Hygiene Association has become the principal vehicle for dissemina-
tion of test findings. (See Bibliography.) Also of note is Standard
Technical Publication 900 of the ASTM which contains several pertinent
articles. 32 In addition permeation data are available from several
clothing and clothing material vendors. 45 , 80 , 107 , 213 , 227 , 236 -
The International Standards Organization (ISO) has promulgated two other
methods for evaluating chemical protective clothing:
• Method 6529 - Protective.Clothing Resistant to Penetration by
Dangerous Liquid Chemicals.
• Method 6530 - Clothing for Limited (ed.) Protection .Against
Dangerous Liquid Chemicals.
Neither method is recommended since the results are difficult to inter-
pret relative to the’ selection of CPC. Presently ISO is in the final
stages of developing a standard permeation test. This standard is
analogous to .ASTM Method F739.
A notable difference between the ASTM and ISO standards is the inclusion
of clothing labelling (marking) instructions in the ISO method. The
label must indicate the performance of the clothing material as a barrier
to the test chemicals. Such labeling is an aid to those considering the
use of the clothing much the same as fire extinguisher labels are.
With the significant increase in permeation data in recent years, the
need and opportunity for data interpretation and comparison have also
increased. Permeation test results are highly dependent on the experi-
mental procedure, generic material, cell configuration, and analytical
sensitivity. ASTM Committee F-23 is presently developing a specification
for data reporting that will facilitate interpretation and comparison of
test results. This same committee has promulgated a list, of fifteen
chemicals (ASTM FlOOl-86) that can serve as a standard battery for
ranking clothing barrier properties. The fifteen chemicals represent a
wide range of chemical families and are: acetone, acetonitrile, carbon
disulphide, dichloromethane, diethylamine, dimethylforniami4e, ethyl
15
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acetate, n-hexane, methanol, nitrobenzene, 50% sodium hydroxide, sulfuric
acid, tetrachioroethylene, tetrahydrofuran, and toluene.
E. VISIBILITY
Face shields and lenses, in addition to being chemical barriers, must
provide clear, undistorted vision to the wearer. Hard, inflexible face
shields and lenses may be subject to crazing (i.e., surface cracking)
upon contact with certain chemicals. Crazing renders the surface foggy
and can drastically reduce vision. Since chemical contact with the face
shield or lens is more likely to occur in uncontrolled or emergency
situations when reduced vision would be an additional severe hazard,
shields and lens materials should be tested for resistance to chemical
attack. Crazing can also reduce the impact strength of the material.
ANSI/ASTM Method F484-77 describes a procedure for measuring stress
crazing by chemicals. A method for assessing the effect of chemicals on
clear plastics is by measuring the transparency of the plastic before and
after exposure to the chemical; ASTM D1746 describes one such method.
While both these methods will adequately show up potential incompatibili-
ties, they require equipment that is not likely to be available in field
or chemistry laboratories. A simpler test, which could be performed on
site, requires only a placard on which are printed letters ranging from
large to small in size. Analogous to a common vision test, the placard
is read through an unexposed face shield or lens.material, with a dis-
tance of 10 to 15 feet between the plastic and the placard. Note is made
of the ease with which the letters can be read and the minimum size
letter which can be read. The face shield or lens material is then
swabbed or immersed in the chemical of interest for at least one hour.
(Note, if the face shield or lens has different coatings or plastic
layers on the inside and outside surfaces, only the outside surface
should be exposed to the chemical.) Remove the material from the chemi-
cal and allow to air dry. Inspect the material and repeat the placard
reading test.
F. PENETRATION
In addition to permeation, which occurs by molecular diffusion, liquid
chemicals can cross a CPC barrier by penetration. Penetration is the
movement of chemical through holes such as at seams, zippers, and other
closures as well as through flaws in the CPC. Penetration can also occur
through porous woven and non-woven fabrics and through fabrics based on
microporous films. Core-Tex is one brand of such nhicroporous film-based
fabric.
ASTM Committee F-23 has promulgated method F903-84 for the evaluation of
the penetration resistance of CPC and its materials of construction.
Briefly, a swatch of material or seam or closure is clamped in a two-
16
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chambered cell. The chemical of concern is charged to one chamber and
pressure applied. The unexposed surface in the second chamber is ob-
served for appearance of the chemical.
G. OTHER FACTORS
The focus of the Guidelines and the above discussion is chemical resis-
tance of clothing materials. It is important to consider, however, that
in the selection and use of protective clothing other factors may be of
equal or greater importance. For example, gloves must provide the wearer
some minimum level of dexterity, and the fabrics must have some level of
tear resistance. The relative importance of the performance factors is
largely dependent on the work tasks to be carried out.
At present there is no standard, overall protocol for evaluating protec-
tive clothing or clothing materials for all the performance parameters of
importance to workers on hazardous waste sites. Instead, individual
tests appropriate for the evaluation of specific parameters must be
selected from the volumes of procedures promulgated by federal, military,
and standards organizations. A 1978 NIOSH study addressed this problem
•and resulted in a listing of test methods especially pertinent to protec-
tive clothing. 78 That compilation has been expanded where appropriate
and is presented herein as Table 3.1. For completeness, the chemical
resistance methods mentioned above are included in the Table. In addi-
tion to this listing, several tests specific to full-body protective
clothing are disàussedin Chapter 5 of Volume I.
17
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TABLE 3.1
*
TEST METHODS FOR CHEMICAL PROTECTIVE CLOTHING
Characteristics Test
A. Chemical Resistance
1. Permeation Resistance ASTMF739-81: Resistance of
Protective Clothing Materials to
Permeation by Hazardous Liquid
• Chemicals
2. Swelling and Solubility ASTM D47l-79: Rubber.Property--
• Effects of Liquids
3. Strength Degradation ASTM D543: Resistance of
Plastics to Chemical Reagents
4. Crazing ASTM F484-77: Stress Crazing of
Acrylic Plastics in Contact With
Liquid or Semi-Liquid Compounds
5. Transparency ASTM 1746-70: Trànsparencyof
Plastic Sheeting
6. Penetration Resistance ASTM F9O3-84: Resistance of
Protective Clothing Materials to
Penetration by Liquids
B. Strength
1. Tear Resistance ASTM D75l-73: Testing of Coated
and Strength Fabrics -
ASTM D412-75: Rubber Properties
in Tension
Fed. 191A-51O2 (ASTM Dl682):
Strength and Elongation,
Breaking of Woven Cloth:
Cut Strip Method
Fed. 191A-5l34 (ASTM D2261):
Tearing Strength of Woven
Fabrics by the Tongue Method
2. Puncture Resistance See Reference 78
3. Abrasion Resistance ASTM Dl175: Abrasion Resistance
of Textile Fabrics
18
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TABLE 3.1 (Continued)
*,
TEST METHODS FOR CHEMICAL PROTECTIVE CLOTHING
Characteristics Test
C. Dexterity/Flexibility
1. . Dexterity (gloves only) See. References 78, 122, 289
2. Flexibility ASTM D1388: Stiffness of
Fabrics, Cantilever Test Method
D. Aging Resistance
I. Ozone Resistance ASTM D3041-72: Coated Fabrics- -
Ozone Cracking in a Chamber
ASTM . Dll49 -64: Rubber
Deterioration- - Dynamic Ozone
Cracking in a Chamber
2. UV Resistance AS,.TM G27: Operating Xenon-Arc
Type Apparatus for Light
Exposure of Non-MetallIc
Materials- -Method A--Continuous
Exposure to Light
*
Physical property tests are listed in Tables 5.2 and 5.3 of Volume I.
19
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CHAPTER 4
ANALYSIS OF THE VENDORS’ LITERATURE
A. INTRODUCTION
Chapter’ 7 of Volume I contains an overview of the major strengths and
weaknesses of the literature supplied by CPC vendors. The purpose and
strength of this literature is to describe the composition, styles, and
sizes of protective clothing. In recent years the literature of several
clothing manufacturers has also become an important source of chemical
resistance information, particularly permeation data. , However, much of
the literature remains weak in its level of documentation as to the basis
for the qualitative chemical resistance tables. As noted in Volume I,
ratings tables are intended for and should, be used only for guidance in
the selection of CPC. This chapter. extends the depth ‘of the ..Volume I
discussion of the present vendors’ chemical resistance tables and
discusses their future.
B. REVIEW OF VENDORS’ LITERATURE
The catalogues of 150 CPC vendors and materials suppliers were reviewed
during the preparation of the Guidelines. Twenty-six of these documents
included chemical resistance ratings charts for some or all of the
products listed. These tables encompassed both qualitative and quantita-
tive ratings. In only a few cases was the rationale for the qualitative
ratings described in the catalogues. The rationale is necessary for any
attempt to form conclusions regarding the expected performance of CPC and
to compare products. Consequently, telephone interviews were conducted
with the CPC vendors who provided qualitative ratings. The telephone
interviews yielded little information that would further aid the utiliza-
tion of the qualitative ratings. The overall impression was that most
vendors are either not testing clothing or are not willing to share ‘their
results.
The situation is much different for the chemical resistance tables that
are based on permeation test resuFts. Virtually all vendors who provide
such data followed ASTM Method F739, or a similar procedure.
1. Per iieation Testing
Permeation data are supplied or available on request from at least ten
CPC vendors’ or materials suppliers. This number is up from six in 1985.
Furthermore, the number of chemicals and range of products have increased
significantly, and this increase can be expected to continue. CPC users
have become more demanding of the vendors and the vendors have found that
test data are useful as points of product differentiation.
20
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However, the increased availability of test results carries with it the
problems associated with comparing and interpreting data. The vendors do
not use a standard format for presenting the data and, as discussed
earlier, the test results can be highly dependent on the testing proce-
dure. In order to compare breakthrough times, it is necessary to know
the sensitivity of the detector, the surface area of the clothing
material, and the collection medium volume if the test is performed ma
closed-loop mode or the collection medium flowrate if the test is
performed in an open-loop mode. The following discussion provides some
insights into reviewing and utilizing published breakthrough time and
permeation rate data.
Test results are available from the following vendors: Ansell, Best,
ChemFab, Comasec, DuPont, Edmont, MSA, North, Pioneer, and Playtex. (see
the Appendix D of Volume I for the complete corporate name and address.)
All except Best provide breakthrough time data; Best ranks by break-
through time the materials tested. All except MSA report permeation rate
data 2 The units used by all except Edmont for permeation rate are
mg/rn /s; Edmont reports values pg/cm /rnin, consistent with STM F739.
Multiply the Edmont values by 0.167 to convert them to mg/m /s. Only
Best and ChemFab report the sensitivity of the instrument used to detect
breakthrough. Only MSA provides information on the mode of testing
(open-loop) and’ the collection medium flowrate. Some of the others
provide information on the mode of testing but not the collection medium
volume or flowrate. Consequently, it is not possible to rigorously
compare breakthrough time data from vendor to vendor. As suggested above
and by the vendors themselves the data should be used for guidance only
and imply no guarantee of protection.
2. Iliunersion Testing
Most qualitative recommendations tables appear to be based on simple
inunersion tests in which the material was merely observed after some time
period. There is no standard time for immersion and, of course, the
rating associated with any given test is likely to vary from observer to
observer. Furthermore, in some cases materials that were swelled by
chemicals may have been given an acceptable recommendation if upon drying
they returned to their original size and appearance. Obviously a materi-
al which is visibly swelled by a chemical will not be a barrier to that
chemical and should be given a “not recommended” rating.
At present there is no standard immersion test for CPC. ASTM Committee
F-23 is considering several, but final acceptance is not expected before
1988. It is likely that the procedure will specify the immersion time
and two or three properties to be measured before and after immersion.
Initially a standard immersion test will be useful for identifying
chemical/material pairs that are grossly incompatible. In time, once
larger amounts of data become available from standard immersion and
permeation tests, correlations may be developed that will allow more
sensitive prediction of CPC performance from immersion test data alone.
21
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3. Applicability of Ratings Tables
The degree of applicability of some of the ratings tables to presently
available CPC is somewhat limited by two factors: age and materials
composition. Many of the tables are more than ten years old. Between
the time that the tables were generated and now, it is ‘probable that the
actual elastomer/plastic formulation used in the CPC has been changed.
This may have resulted from a CPC manufacturer switching raw materials
suppliers or modifying the formulation to meet changed processing, use or
cost requirements. Changes to, for example, the plasticizer, lubricant,
filler, and so forth, level in a elastomer/plastic formulation can in
some cases significantly influence the chemical resistance of the final
product.
Significant differences exist between various vendors’ ratings for
nominally the same CPC chemical/material pair. While this may be due to
the subjectivity of the •test methods, there also may be real differences
between products. The difference may in part be due to the fact that the
different formulations of the same base elastomer/plastic material may
perform differently, and in part due to the manufacturing methods. In
other words, it is ‘possible for one supplier to have a more chemically
resistant material (e.g., PVC or butyl rubber, etc.) than another supp]i-
er. This point has been documented in the literature. 268
Similarly, most of the ratings charts appear to have been developed for a
general class of material (for example, natural rubber or PVC) and not
the specific formulations used for protective clothing. Thus, the
ratings may or may not be directly applicable to CPC.
The form of the elastomer/plastic can also influence the results on which
recommendations may be based For example, a molded neoprene rubber can
‘have significantly different properties from those of a neoprene prepared
from a latex. Within the realm of CPC, it has’ recently been suggested
that gloves prepared by a latex process may perform differently from
gloves prepared by a solvent-dip process, but that additional evaluation
was required before definite conclusions could be reached. 326 It is not
clear whether’ the recommendations of manufacturers which have switched
from solvent t,o latex processing during the past 10 to 15 years have been
modified to reflect any performance differences that may have resulted.
The temperature range over which the ratings apply Is not generally
stated. CPC users should note that there can be significant temperature
effects on permeation over the temperature range likely to be encountered
in the field. For example, the breakthrough times for benzene through a
0.08 cm neoprene were found to be 40 mm at 7°C, 24 mm at 22°C, and.
16 mm at 37°C. 78 ‘
Finally, the sensitivity, if any, of the ratings to lot-to-lot variations
in the products are not provided. ‘Also some manufacturers rate several
grades or thicknesses of a given CPC material as if they all performed
22
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similarly. In. these cases, the CPC user must carefully, scrutinize the
catalogues in order to differentiate aiuong the products and make the best
selection for the application at hand.
4. Multi-co nponent Solutions
Multi-componet solutions represent a potentially large and difficult area
for CPC selection and use. In. general, most vendors address only aqueous
solutions in their ratings tables. ‘Several vendors are careful to
‘designate a concentration range for each reóoinmendation; many do not.
Small fractions of particularly permeable chemicals in a solution can
severely degrade clothing materials or can provide pathways for the
movement of other components of the solutions. Furthermore, there is an
unlimited number of solution compositions possible. Generally, the
vendors recommend that the CPC buyer conduct his own tests with the
specific solutions of concern. Multi-component solutions are of growing
interest to the research community and others.’° 4 ,’ 24 , 278 , 302
5. Experience
Several manufacturers reported that some of the recommendations appearing
in their tables were based. on experience rather than testing.’ This ‘may
or may not be appropriate depending on how the experience was judged.
For example, in many cases,an item of CPC may be considered good for a
particular application because it does not fall -apart or’ because it
returns to its original shape/size upon evaporation of absorbed chemical..
Obviously such criteria are not appropriate if skin contact with the
chemical is a primary concern.
On the other hand, experience can be a suitable basis for a recommenda-
tion- when’ it originates from careful observation of worker well-being.
For example, a particular type of glove may. prevent contact dermatitis”
where all other gloves fail. ‘ ‘ . .
C. PERSPECTIVES ON VENDORS’ LITERATURE
Although the above findings and comments can be rather perplexing, for
those responsible for selecting CPC, the situation is changing rapidly
for the better:
• There is a growing general understanding among CPC buyers that
chemicals can permeate CPC without there being any outward sign
of degradation or swelling of the material.
• There is growing technical/scientific interest in CPC perfor-
mance. Many of the larger chemical companies, several indepen-
dent testing laboratories, and some universities now have
groups evaluating CPC materials. , Furthermore, the federal
government has become keenly aware of the need for rigorous
23
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analysis of CPC performance, as evidenced by this publication
and an increase in government sponsored research and develop-
ment.
• The general acceptance of a standard permeation test method.
• Vendors are becoming more comfortable with the liability
aspects of publishing test data. In fact publishing data
obtained under well-specified conditions may be less risky than
the promulgation of qualitative recommendations tables.
Vendors routinely print disclaimers along with their test data
which caution that they may not. apply to. the particular condi-
tion to which the buyer intends to subject CPC. The buyer is
also advised to perform his own testing with the actual chemi-
cal/chemical mixtures at the use temperatures.
D. CONCLUSION
The primary sources of information pertinent to the chemical resistance
of CPC are the CPC vendors and manufacturers. This is not likely to
change in the near future. Users of the vendors’ recommendations and
data tables must always bear in mind the limitations of the charts, as
described above. The tables are for guidance only. That is the charts
are a good place to start the CPC selection process, but they are not
guarantees of safety. Whenever possible, the potential CPC user should
evaluate candidate products against the particular chemicals and solu-
tions of concern. Final selection must take into account the CPC appli-
cation.
During the next several years, other sources for CPC recommendations can
be expected to increase. Such sources, of which this publication is an
example, will be based on the compilation of both manufacturers’ recom-
mendations and the scientific literature. It is reasonable to predict
and it is hoped that the existence of one or more key secondary sources
will stimulate more testing and quantitative reporting of CPC performance
by both the vendors and the technical community at large. The result
will be more firmly based CPC selection decisions.
24
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• CHAPTER 5
• SOURCES FOR CHEMICAL PROTECTIVE
CLOTHING INFORMATION
A. INDUSTRY
By far the best source for information on CPC is the CPC vendors. The
large, full-line vendors and the specialty products manufacturers gener-
ally have tested their products against a wide range of chemicals.
Furthermore, they have years of experience with their products, and
typically have a very good understanding of the products’ capabilities
and limitations. A listing of vendors is given in Volume I, Appendix D.
A second source of information is the chemical manufacturers. These
organizations provide clothing for their workers and often conduct their
own analysis of protective clothing performance for their chemical
products.
B. GOVERNMENT
Principal sources of CPC information within federal government agencies
are:
EPA - Office. of Occupational Health and Safety, Room 3503, Waterside
Mall, 401 M Street, S.W., Washington, D.C. 20460. Telephone
202-382-3647 (David Weitzman).
Federal Emergency Management Agency (FEMA) - United States Fire
Administration, Office of Firefighter Health and Safety, 16825 South
Seton Avenue, Emmitsburg, MD 21727. Telephone .301-447-1182 (Robert
Mccarthy).
OHSA - Technical Assistance, Room N3657, 200 Constitution Avenue, NW
Washington, D.C. 20210. Telephone 202-523-7505 (Ching Bien).
NIOSH - Division of Safety Research, Testing and Criteria Branch,
ASI Section, 944 Chestnut Ridge Road, Morgantown, WV 26505. Tele-
phone 304-291-4339 (Stephen Berardinelli).
U.S. Coast Guard - Headquarters, Office of Research and Development,
Commandant, C-DMT-3, 2100 Second Street, S.W. , Washington, D.C.
20593. Telephone 202-267-0853 (Lt. Jeffrey Stull).
These agencies are involved in the study, development, and utilization of
protective clothing.
25
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C. PROFESSIONAL ORGANIZATIONS
In the United States, three professional organizations have committees
directly foèused on protective clothing. ‘ASTM formed Committee F-23 in
1977 for the purpose of developing standard test methods for protective
clothing. Subcommittees of F-23 are addressing the chemical resistance
of clothing, the physical properties of clothing, clothing classification
methods, and the performance of full-body protective ensembles. The
committee is composed of industry, government, and general interest
members. It meets twice a year and is a forum for discussing protective
clothing test methods. In addition in 1984 and in 1987 Committee F-23
sponsored international symposia on all aspects of protective clothing.
Proceedings of the symposia are published by ASTM as Standard Technical
Publications. For further information, telephone AST 4 headquarters (215-
299-5579).
The American Industrial Hygiene Association addresses CPC through its
technical committee Personal Protective Devices (other than respirators).
The committee meets once a year in coincidence with the American Indus-
trial Hygiene Conference. This week-long conference typically includes
one or two sessions devoted to protective clothing. At these sessions,
technical papers are presented describing research, evaluationor use of
protective clothing. Information on this and other Al l - iA activities may
be obtained from AIHA headquarters (216-762-7924).
The National Fire Protection Association (NFPA) formed a subcommittee on
Hazardous Chemical Protective Clothing in 1986. This subcommittee was
established under the NFPA Technical Committee on Protective Equipment
for Firefighters. The subcommittee is engaged in writing performance
oriented (manufacturing) standards on chemical protective suits for
emergency response personnel. Its membership is composed of
representatives from users, •manufacturers, testing laboratories, and
government. It meets three times a year and plans to complete proposed
standards for chemical pràtective suits by December 1987. For further
information, contact Bruce Teele of the NFPA (617-770-3000).
D. TECHNICAL LITERATURE
In recent years, the principal sources of published teèhnical papers and
reports on personal protective clothing have been the:
• American Industrial -Hygiene Association Journal, a monthly
publication. AIHA, 475 Wolf Ledges Park, Akron, OH 44311-1087.
Telephone 216-762-7924.
• National Technical Information Service (NTIS). -Essentially all
federal government sponsored studies may be obtained through
NTIS. NTIS, U.S. Department of Commerce, 5285 Port Royal Road,
Springfield, VA 22161. Telephone 703-487-4650.
26
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A new journal, Applied Industrial Hygiene , has been started by the
American Conference of Governmental Industrial Hygienist (ACGIH); 6500
Glenway Avenue, Bldg. D-7, Cincinnati, OH 45211. Telephone 513-661-7881.
Also artictes on protective clothing are usually included in the proceed-
ings of Hazardous Materials Management Conference (Tower Conference
Management Company, Wheaton, IL 60187) andthe Hazardous Material Spills
Conference (Government Industries, Inc., Rockville, MD 20850).
A bibliography of publications related to chemical protective clothing
follows.
•27
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BIBLIOGRAPHY
28
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1 Abernathy, R.N., R.B. Cohen, and J.J. Shirtz
Measurements of Hypergolic Fuels and Oxidants Permeation
Through Commercial Protective Materials--Part I: Inhibited
Red Fuming Nitric Acid and Unsymmetrical Dimethylhydrazine
Am. md. Hyg. Assoc. J. 44(7), pp.. 505-513 (1983)
2 Acme Mills Company
Catalogue
1986
3 Aitken, A., and R.M. Barrer
Transport and Solubility of Isomeric Paraffins in Rubber
Trans. Faraday Soc. 51(385), pp. 116-130 (January 1955)
4 Algera, R.
Development of a Hazardous Chemical Protective
Ensemble: Phase I Interim Report
This report available as:
Stull, J., Early Development of a Hazardous Chemical
Protective Ensemble, Final Report U.S. Coast Guard
Contract DTCG23-8l-C-20003, AD A174 885 (October 1986)
5 Alliance Supply, Inc.
Catalogue
1986
6 Allied Glove & Safecy Products Corp.
Catalogue .
1986
7 American Scientific Products
Catalogue
1984
8 Andover Industries, Inc.
Catalog
1986
9 Angelica Uniform Group
Catalogue
1986
10 Anon.
Foot and .Leg Protection
National Safety News, pp. 176-182 (March 1962)
29
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11 Anon.
A Summary of the Record of the NIOSH Open.Meeting on’
ChemicaiProtective Clothing
Rockville, Maryland, (June 3,1981)
12 Anon.
Balancing the Scales Between Protection and Economy
National Safety News, pp. 36-39 (April 1982)
13 Anon.
Protective Clothing Studies Reveal Wearer Preferences
Agrichemical Age, (June .1981)
14 Anon.
Protective Clothing for Chlorine, Edition 1
Chlorine Institute Pamphlet 65, The Chlorine Institute,’ Inc.
New York, New York, (June 1978).
15 Anon.
Best Safety Directory, Vol.. I
A.M. Best Company, Oldwick, New Jersey 08858
16 Anon.
Health and Safety Market Guide ‘82
Ayde Marketing Limited, 2 Castle Street, Aylesbury, Bucks
HP2O 2ORF England
17 Anon.
Industry’s Persistent Problem: Occupational Dermatitis
National Safety News, pp. 33-37 (November 1982)
18 Anon.
Dress Right for Safety: Foot Protection: Shoes
National Safety News, pp. 66-67 (March 1983)
19 Anon.
Dress Right for Safety: Hand Protection
National Safety News, pp. 62-65 (March 1983)
20 Anon.
Dress Right for Safety: General Body Protection
National Safety News, pp. 54-57 (March 1983)
30
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21 Anon.
Dress Right for Safety: Disposable Apparel
National Safety News, pp. 57-59 (March 1983)
22 Anon.
Dress Right for Safety: Eye and Face Protection
National Safety News, pp. 41-44 (March 1983)
23 Anon.
A Shift.Toward Protective Gear
Business Week, p. 56 (April13, 1981)
24 Anon.
Safety Spinoffs From Space
National Safety News, pp. 30-32 (February 1984)
25 Anon.
Hazardous Waste Workers Are Seen Underprotected by Union,
Congressmen, Chemical Marketing Reporter, pp. 5,40
(April 1, 1985)
26 Ansell Industrial Products
Catalogue
1986
27 ARAMSCO
Catalogue
1986
28 Arbill Inc.
Catalogue
1986
29 Arn in Corp.
Catalogue
1986
30 Arrowhead Products
Catalogue
1986
31 Aydelotte, C.L.
Consider Hazards Facing Worker in Making Proper Glove
Selections, Occupational Health & Safety, pp. 54,56
31
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32 Barker, R.L., and Coletta, G.C.
Performance of Protective Clothing
ASTM STP 900, ASTM PCN 04-900000-55, Philidelphia, PA
(1986)
33 Barnes, J.D., G.M. Martin, and F.L. McCrackin
Performance of Plastic Packaging for Hazardous Materials
Transportation. IV
NTIS Report No. DOT/MTB/OHMO-77/5, PB298047 (1979)
34 Barnhart, W.L., C.R. Tony, and L.A. Nicodemus
Catalog of Available Protective Clothing Supplement to
Final Report: ‘Protective Clothing - Assessment of Need’
NIOSH Publication PB-276344 (August 1974)
35 Barnhart, W.L., C.R. Toney, and L.A. Nicodemus
Protective Clothing- -Assessment of Need, Vol. I
Final Report prepared by Bendix Corporation, Launch
Support Division under the United States Department of
Health, Education, and Welfare - Public Health Service,
Center for Disease Control, NIOSH-TR-75.Ol, PB24llO7
(August 1974)
36 Barrer, R.M., and R.R. Fergusson
Diffusion of Benzene in Rubber and Polyethylene
Trans. Faraday Soc., 54(427) pp. 989-1000 (1958)
37 Barry Manufacturing Co. Ltd.
Catalogue
1986
38 Barton, A. M.
Solubility Parameters
Chemical Reviews, 75(6), pp. 731-749 (1975)
39 Barton, A.F.M.
Handbook of Solubility Parameters and Other Cohesion
Parameters
CRC Press, Boca Raton, FL (1983)
40 Bel-Art Products
Catalogue
1981
4lBerardinelli, S.
Chemical Protective Clothing Standard Test Method
Development Final Report No. 1: Penetration Test Method
NIOSH Contract No. 200-84-2702
32
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42 Berardinelli, S.P., R.L. Mickelsen, and M.M. Roder
Chemical Protective Clothing:. A Comparison of Chemical
Permeation Test Cells and Direct-Reading Instruments
Ani. md. Hyg. Assoc. J. 44 (l 2 ),pp. 886-889 (1983)
43 Berardinelli, S.P., and R. Hall
Site-Specific Whole Clove Chemical Permeation
Am. md. Hyg. Assoc. J., 46, pp. .60-64, (February 1985)
44 Beret, S., and S.L. Hager
Ethylene Solubility and Diffusionin Low Density
Polyethylene and Ethylene.Polymers
J. Appi. Poly. Sci., 24, pp. 1787-1796 (1979)
45 Best Manufacturing Company
Catalogue
1986
46 Best, A.M., Company
Best’s Safety Directory, 2 Volumes
24th Edition, 1984
47 Body-Guard
Catalogue
1984
48 Boss Manufacturing Company
Catalogue
No. 20-4-81
1985
49 Bosserman, M.W
How to Test Chemical-Resistance of Protective Clothing.
National Safety News, pp. 51-53 (September 1979)
50 Brandrup, J. and E.H. Inmiergut
Polymer Handbook
John Wiley & Sons, New York (1966)
51 Broner Glove Company
Catalogue
1983
52 Bush, D.C., L.E. Tersegno, J.E. Winter, and D.H. Schoch
A Method for Testing Permeability of Protective.Clothing
to Acids and Bases
Industrial Hygiene Section
Eastman Kodak Company
Rochester, NY (June 1982)
33
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53 Butt, L.T., J. Pacitti, and J.R. Scott
Chemical Resistance Data Sheets, Vols. I and II
Rubber and Plastics Research. Association (RAPRA), Shawbury,
Shrewsbury, SY4 4NR England
54 Calingaert, C., and H. Shapiro
Permeability of Protective Glove Materials to
Tetraethyllead and Ethylene Bromide
Industrial and Engineering Chemistry, 40(2), p. 332 (1948)
55 Calingaert, C., andH. ShapIro
Permeability of Protective Glove Materials to Tetraethyllead
and Ethylene Bromide
IndustrIal and Engineering Chemistry, 40(2), pp. 332-335
(February 1948)
56 Cesco Safety Products
Catalogue
1986
57 Charkate
Catalogue
1986
58 Chemical Engineering
New Wardrobe for CPI Workers
pp. 14-15 (August 19, 1985)
59 Chemical Fabrics Corporation
Catalogue
1986
60 Cheron,J.
Resistance desCants de Protection aux Solvents
Industriels - Resultats Obtenus Avec L’Acetone Sur Tine
Centaine de Cants du Commerce
Travail et Securite, No. 527, Oct. 1975, Institut National
de Recherche et de Securite, 75680, Paris , Cedex 14
61 Cheron, J.
Resistance des Gants de Protection Aux Solvants
Industriels - Resultats Obtenus Avec le Trichiorethane Sur
Une Centaine de Cants du Commerce
Travail etSecurite, No. 502, Oct. 1973, Institut National
de Recherche et de Securite, 75680, Paris, Cedex 14
34
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62 Cheron, J.
Resistance des Gants de Protection Aux Solvants
Industriels - Resultats Obtenus Avec L’AcetateD’Ethyle Sur
Une Centaine de Gants du Commerce
Travail et Securite, No. 547, Sept. 1976, Institut National
de Recherche et de Securite, 75680., Paris, Cedex 14
63 Cheron, J.
Resistance des Cants de Protection Aux Solvants
Industriels - Resultats Obtenus Avec L’Ethanol Sur Une
Centaine de Gants du Commerce
Travail et Securite, No. 550, Nov. 1976, Institut National
de Recherche et de Securite, 75680, Paris, Cédex 14
64 Cheron, J.
Resistance des Gants de Protection Aux Solvants
Industriels - Resultats Obtenus Avec le Toluene Sur Une
Centaine de Gants du Commerce
Travail et Securite, No. 503, Jan. 1975, Institut National
de Recherche et de Securite, 75680, Paris, Cedex 14
65 Cheron, J.
Resistance des Gants ‘de Protection Aux Solvants
Industriels - Resultats Obtenus Avec le Trichiorethylene Sur
Une Centaine de Gants du Commerce
Travail et Securite, No. 491, Oct. 1972, Institut National
de Recherche et de Securite, 75680, Paris, Cedex 14
66 Cheron, J.
Resistance des Gants de Protection Aux Solvants
Industriels .- Resultats Obtenus Avec le Perchloréthylene Sur
UneCentaine de Gants du Commerce
Travail et Securite, No. 498, June 1973, Institut National
de Recherche et de Securite, 75680, Paris, Cedex 14
67 Cheron, J.
Resistance des Gants de Protection Aux Solvants
Industriels - Resultats Obtenus Avec le Cyclohexane Sur Une
Cent aine de Cants du Commerce
Travail et Securite, No. 521, Jan. 1975, Institut National
de Recherche et de Securite, 75680, Paris, Cedex 14
68 Cheron, J. ‘
Resistance des Gants de Protection Aux Solvants
Industriels - Resultats Obtenus Avec lé White-Spirit Sur Une
Centaine de Gants du Commerce
Travail et Securite, No. 506, June 1974, Institut National
de Recherche et de Securite, 75680, Paris, Cedex 14
35
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69 Cheron, J., J.-P. Guenier, B. Moncelon and Lima
Resistance des Gants de Protection Aux Solvants
Industriels - Tableaux Recapitulatifs
Travail et Securite, No.573, Dec. 1976, Institut
National de Recherche et de Securite, 75680, Paris, Cedex 14
70 Christensen, U.L.
Handsker - sikre/usiker (in Danish)
English summary available from Institute of Work
Environment, Denmark Institute of Technology,
DK-2800 Lyngby (April 1983)
71 Clean Room Products, Inc.
Catalogue
1986
72 Cofish International, Inc.
Catalogue
1986
73 Coletta, G.C.
Chemical Protective Clothing: Technology Will Shape the
Future, Occupational Health & Safety, pp. 50-54
(September 1985)
74 Coletta, G.C.
Chemical Protective Clothing: Determining Good Performance
Occupational Health & Safety, pp. 20-22 (April 1985)
75 Coletta, C.C.
Chemical Protective Clothing: Testing Strategy and Test
Methods, Occupational Health & Safety, pp. 49-52 (May 1985)
76 Coletta, G.C.
Chemical Protective Clothing: Laboratory vs. Field
Performance, Occupational Health & Safety, pp. 85-87
(June 1985)
77 Coletta, G.C.
Chemical Protective Clothing: The Influence of Federal
Agencies, Occupational Health & Safety, pp. 27-29
(July 1985)
78 Coletta, G.C., A.D. Schwope, I. Arons, J. King, and A. Sivak
Development of Performance Criteria for Protective
Clothing Used Against Carcinogenic Liquids
Arthur D. Little, Inc., Report to NIOSH under contract
210-76-0130 (October 1978)
36
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79 Colonial Clove & Garment Inc.
Catalogue
1986
80 Comasec, Inc.
Catalogue
1986
81 Costello, R.J., and M.V. King
Protecting Workers Who Clean Up Hazardous Waste Sites
Am. md. Hyg. Assoc. J., 43, p. 12 (January 1982)
82 Coyne Safety Equipment, Inc.
Catalogue
1986
83 Crank, J.
Mathematics of Diffusion
Second Edition, Claredon Press (1975)
84 Crank, J., ‘and C. Park
Diffusion In Polymers
Academic Press, N.Y. (1968)
85 Crowe, W.H., andA.M. Marysiuk
HOw to Work Safely With HF Alkylation
‘Hydrocarbon Proc’., 44(5), p. 192 (1965)
86 Cullinane, J.
Evaluation of the Permeation Resistance of Polymer Gloves
to an Organophosphorus Pesticide and Pesticide Carrier
Solvents
IT Corporation, Report to EPA under contract 68-03-3069,.
(May 1985)
87 Daffin Disposables, Inc.
Catalogue
1986
88 Davis, S.L., C.E. Feigley, and C.A. Dwiggins
Comparison of Two Methods Used to Measure Permeation of
Glove Materials by a Complex Organic Mixture
Performance of Protective Clothing, ASTM STP 900, R.L.
Barker and G.C. Coletta, Eds., American Society for Testing
and Materials, Philadelphia, pp. 7-21 (1986)
37
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89 Dayton Flexible Products, Inc.
Catalogue
1984
90 Defense Apparel, Inc.
Catalogue
1986
91 Denney, D.
ASTM Eyes Plans, Seeks Input for Protective Clothing Data
File, Occupational Health & Safety, pp. 57-61
(July/August 1984)
92 Dickson, C.C.
Chemical Protective Clothing
Best’s Safety Directory 1984
A.M. Best Co., Oldwick, NJ 08858, pp. 392-394
93 Dillon, I.G.
Permeation of Condensable Gases and Organic Liquids through
Polymeric Materials
National Aeronautics and Space Administration
Contract No. NAC-l0-0001
Final Report
94 Dillon, I.C., and E. Obasuyi
Permeation of Hexane Through Butyl Nomex
Am. md. Hyg. Assoc. J., 46(5), pp. 233-235
(May 1985)
95 Dionne, E.D
Specialized Protective Apparel - An Item to Fit Every Need
National Safety News.; p. 51 (May 1982)
96 Dionne, E.D.
A Clove Affair
National Safety News, (September 1982)
97 Direct Safety Company, Inc.
Catalogue
1986
98 Disposables Inc.
Catalogue
19 86
38
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99 Dorsey Safety Products Co.
Catalog
1986
100 Dow Chemical Company
Selection of Cloves for Use With Chlorinated Solvents
Chlorinated Solvents InformatIon
Midland, Michigan 48640
101 Duffy,R.M., A.R.Beer, and J.C. Sawicki
U.S.Research in Depth on Protective Clothing
Fire International, pp. 41-43 (August/September 1985)
102 Dunham, T.D., W.J. Astleford, R.L. Bessey, and J.J. Kulesz
Recommended Standard for Occupational and Educational. Eye
and Face Protection
Final Report NIOSH Contract HSM-99-73-l7, SwRI Project
02-3703
103 E.D. Rullard Company
Catalogue
• 1986
104 E.I. du Pont de Nemours & Company
Spunbonded Product Division
Guide E-643l2
1986
105 E.I. du Pont de Nemours & Company
Industrial and Speciality Polymers
Catalogue E-26276
106 Eastco Industrial Safety Corp.
Catalogue
1985
107 Edmont Division of Becton,. Dickinson Company
Catalogue
1986
108 Elliott Glove Company.,. Inc.
Catalogue
1986
109 Ellis, A.C.
Hazardous Waste Site Clean-Up A ‘Hot’ Problem
National Safety News, pp. 38-41 (July 1984.)
39
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110 Encon Manufacturing Company
Catalogue
1986
ill Engle, R.L., and V.A. Nusbatun
Selecting Protective Cloves. The Importance of Chemical
Permeation Testing
Professional Safety, pp. 32-35 (September 1984)
112 Erista, Inc.
Catalogue
113 Exxon Chemical Company
Polymers Group
Elastomers - Design Materials
Catalogue SYN-75-1751, 1975
114 Fairway Products
Catalogue
1984
115 Falcon Industries, Inc.
Catalogue
1981
116 Feigley, C.E.
Personal Communication
Dept. of Envir. Health Sciences
University of South Carolina
Columbia, S.C. 29208
(October 1982)
117 Fels, M., and R.Y.M. Huang
Diffusion Coefficients of Liquids in Polymer Membranes by
a Desorption Method
J. Appi. Poly. Sci., 14, pp. 523-536 (1970)
118 Ferguson,. J.S., and W.F Martin
An Overview of Occupational Safet; and Health Guidelines
for Superfund Sites, Am. md. Hyg. Assoc. J., 46(4),
pp. 175-180 (1985)
119 Figard, William H.
Permeation: An Important Factor in
Hand Protection Selection
Occupational Health and Safety
(December 1982)
40
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120 Fisher Scientific Company
Catalogue
1981
121 Flynn, J.H.
A Collection of Kinetic Data for the Diffusion of Organic
Compounds in Polyolefins
Polymer, 23, pp. 1325-1344 (August 1982)
122 Forsberg, K.
Development of Safety Gloves. Gloves For Printers
ERGOLAB Report S 81:10
Stockholm/Coteborg, Sweden
(November 1981)
123 Forsberg, K., and K.G. Olsson
Faststallande av riktlinjer for val av
kemikal 1 e skyddshandskar
ASF-kontrakt 83-0750
124 Forsberg,. K., and S. Faniadis
The Permeation of Multi-Component Liquids Through New and
Pre-Exposed Glove Materials
Am. md. Hyg. Assoc. J., 47(3), pp. 189493 (March 1986)
125.Frederick, E.B., and M.C.Henry
A Study of Seam Leakage in Coated Fabrics
J. Coated Fibrous Materials, 1, p. 18 (1971)
126 Friel, J.V.,M.J. McGoff, and S.J. Rodgers
Material Development Study for a Hazardous Chemical
Protective Clothing Outfit
MSA Research Corp. for United States Coast Guard
Report No. CG-D-58-80 (August 1980)
127 Frommelt Industries, Inc.
Catalogue
1986 -
128 Fyrepel Products, Inc.
Catalogue
1986
129 Galic, George J.
Polycarbonate Lenses- -New Technology in Eye Protection
National Safety News
July, 1981
41
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130 Gallagher, R.
Beat Corrosion With Rubber Hose
Chem. Engr., p. 105 (September 8, 1980)
131 Garland, C.E.
New Developments in Materials and Chemical Compatibilities
Proceedings of The Fourth Annual Hazardous Materials
Management Conference, Atlantic City, NJ (June 2-4, 1986)
132 Garland, C.E., L.E. Goldstein, and C. Gary
Testing Fully Encapsulated Chemical Suits in a Simulated
Work Environment
Performance of Protective Clothing, ASTM STP 900, R.L.
Barker and G.C. Coletta, Eds., American Society for Testing
and Materials, Philadelphia, pp. 276-285 (1986)
133 General Scientific Safety Equipment Company
Catalogue
1986
134 Clover Latex, Inc.
Catalogue
1986
135 Gáldberg, H. M., and S. Herszenson
Cutting Oil Dermatitis: Sharpening Worker Defenses
Occupational Health and Safety, p. 30 (May 1982)
136 Goodall Rubber Company
Catalogue
1986
137 Goodyear Rubber Products Corp.
Catalogue
1985
138 Cough, T.A., K.S. Webb, and M.F. McPhail
Diffusion of Nitrosamines through Protective Gloves
Enviromental Aspects of N-Nitroso Compounds, (E.A. Walker
M. Castegnaro, L. Griciute, and R.E. Lyle, eds.)
pp. 531-534, Lyon International Agency for Research
on Cancer (1978)
139 Granet, Inc.
Catalogue
1982
42
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140 Green, J., N.B. Levine, and R.C. Keller
Elastomers for’ Liquid Rocket Fuel’ ‘and Oxidizer Application
I&EC Product Research and Development, 2, p. 126 (1963)
141 Greene Rubber Company, Inc.
Catalogue
1984
142 Haas, T.J., R.B. Gaines,, and K.J. Patterson
Permeation Testing of Certain Personal Protective Clothing
Materials by Hazardous Liquid Chemicals
1984 Hazardous Material’Spills Conference Proceedings,
Nashville, TN, April 9-12 (1984)
143 Halprin Supply Co.
Catalogue
1981
144 Hanuner, W.M., and K.R. Nicholson
Survey of Personnel Protective Clothing and Respiratory’
Apparata for use by Coast Guard Personnel in Response to
Discharges of Hazardous Chemicals
Pollution Prevention Projects, Branch Office of Research
and Development, U.S. Coa t Guard, Washington, D.C.
145 Hayes, M.J., and C.S. Park
The Diffusion of Benzene in Rubber - Part I
Trans. Faraday’Soc., 51(392), p. 1134 (1955)
146’Heck, W.B., and R.L. Johnson
Aluminum Alkyls Safe Handling
md. and Engr. Chem., 54(12), p. 35 (1962)
147 Henriksen, H. R.
Selection of Materials for Protective Gloves. Polymer
Membranes to Protect Against Contact With Epoxy Products
Danish Directorate of Labor Inspection Services, Cophenhagen
(1982)
148 Henry, N.W. III
How Protective is Protective Clothing?
Performance of Protective Clothing. ASTM STP 900, R.L.
Barker and G.C. Coletta, Eds., American Society for Testing
and Materials, Philadelphia, pp. 51-58 (1986)
149 Henry, N.W., and C.N. Schlatter
The Development of a Standard Method for Evaluating Chemical
Protective Clothing to Permeation by Liquids
Am. md. Hyg. Assoc. J., 42, p. 202 (1981)
43
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150 Henry, N.W., and J.F. Matheson
Dupont Monograph: Gloves-Their Selection and Testing
Haskell Laboratory for Toxicology and Industrial Medicine
Dupont Company, Wilmington, DE.
(August 12, 1980)
151 Hodgman, Inc.
Catalogue
1986
152 Hogstedt, C., and R. Stahl
Skin Absorption and Protective Gloves in Dynamite Work
Am. md. Hyg. Assoc. J., 41, p. 367 (1980)
153 Holcomb Safety Garment Company
• Catalogue
1984
154 Holland Safety Supply Company
• Catalogue
1986
155 Hopfenburg, H.B.
Permeability of Plastic Film and Coatings
Plenum Press, N.Y. (1974)
156 Hub Safety Equipment, Inc.
Catalogue
1985
15.7 Hy-Test Safety Shoes, Inc.
Catalogue
1986
158 ILC Dover Division of ILC Industries, Inc.
Data Sheet
1986
159 IPES Company, Inc.
Catalogue
1986
160 Inco Safety Products Company
Catalogue
1981
44
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161 Industrial Products Company, Inc.
Catalogue
1984
162 Industrial Safety and Security Company
Catalogue
1986
163 Interex Corp.
Catalogue
1986
164 Intermarket Latex, Inc.
Catalogue
1985
165 International Playtex, Inc., Industrial Clove Division
Catalogue
• 1986.
166 Iron Age Protective Company
• Catalogue
1986
167 Jaxco, Inc.
C at a lo güe
1986
168 Johnson,K.E., and M.D. Lowish
Protection Should Fit Worker, Job
Occupational Health and Safety (August 1983)
169 Jomac Products, Inc.
Catalogue
1985
170 Jones Safety Supply, Inc.
Catalogue.
1986
171 Jordan David Safety Products
Catalogue
1981
45
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172 Kappler Disposables, Inc
Catalogue
1984
173 Kashi, K.P., M. Muthu, andS.K.Majthnder
Rapid Evaluation of Phosphine Permeability through Various
Flexible Films and Coated Fabrics
Pestic. Sci. , 8, PP. 492-496 (1977)
174 Keller Clove Manufacturing Company
Catalogue
1982
175 Keystone Protection Corp.
Catalogue
1986
176 Kimberly-Clark Corp.
Catalogue
1985
177 Kodak
Functional Croup Index of
KODAK Laboratory Chemicals
Kodak Publication No. JJ-lF (January 1981)
178 Kokes, R.J., and F.A. Long
Diffusion of Organic Vapors into Polyvinyl Acetate
J. Amer. Chem. Soc., 75, p. 6142 (1953)
179 LRC Safety Productsdompany
Catalogue
1984
180 La Crosse Footwear, Inc.
Catalogue
1986
181 Latex Clove Company, Inc.
Catalogue
1986
182 Lehigh Safety Shoe Company
Catalogue
1986
46
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183 Leonard Safety Equipment, Inc.
Catalogue
1986
184 Levine, S.F., andMartin, ‘W.F.
Protecting Personnel at Hazardous Waste Sites
Butterworth Publishers, Stoneham,’ MA, 1985
185 Lilani, H.N.
Non-Asbestos Fabrics Perform Against Heat and Metal
Splashes, Occupational Health & Safety, pp. 58-61
(January 1986)
186 Linnarson, A.’
Penetration of Solvents Through Plastic Material
Lagersrapport, Forsvarets Forskningsanstalt, Stockholm
pp. 17 (1977)
187 Linnarson, A., and K. Halvarson
Study of Polymer Material Permeability for Organic Compounds
FOA Report C-204l4-H2, Progress Report, Stockholm, 1981
188 Lion Uniform, Inc.
Catalogue
1985
189 ‘Lloyd, G.A.
Summarized Results of Permeation Tests on Protective
Clothing Materials
,Ministry of Agriculture Fisheries and ‘Food, Operator
Protection Research Group, Information Sheet No. 19,
(June 1986)
190 Lldyd,.C.A.
Efficiency of Protective Clothing for Pesticide Spraying
Performance of Protective Clothing,’ ASTM STP’900, R.L.
Barker and G.C. Coletta, Eds., American Society for Testing
and Materials, Philadelphia, pp. 121-135 (1986)
191 Lynch, A.L. ‘ ‘
Protective Clothing in Handbook of Laboratory Safety
2nd Edition, N.y. Steeve editor
CRC Press, Boca Raton, FL (1971)
192 Lynch, P.
Matching Protective Clothing to Job Hazards
Occupational Health and Safety, p. 30 (January 1980)
47
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193 MacDonald, R.W., and R.Y.M. Huang -
Permeation of Gases Through Modified Polymer Films V.
Permeation and Diffusion of Helium, Nitrogen, Methane
Ethane, and Propane through gamma-Ray Crosslinked
Polyethylene
J. Appl. Poly. Sci., 26, pp. 2239-2263 (1981)
194 Magid Glove and Safety Manufacturing Company
Catalogue
1985
195 Major Safety Service, Inc.
Catalogue
1984
196 Mar-Mac• Manufacturing Company, Inc.
Catalogue
1986
.197 Marathon Rubber
Catalogue
1986
198 Martone, J.A., and Bergen, G.A.
A Rocket Propellant Handler’s Suit for Protection from
Chlorine Trifluoride and Elemental Fluorine
Technical Report AFRPL-TR-71-44 (August 197,1)
NTIS AD731556
199 Masterman’s
Catalogue
1986
200 ’Mathias, C.G.T.,
Managing Hand Dermatitis in the, Workplace
Occupational Health and Safety, p. 46 (May 1982)
201 McFee, D.R.
How Well Do Gloves Protect Hands Against Solvents
A.S.S.E. Journal, 9, p. 11 (May 1964)
202 McGuffey, J.R., R. Paluzelle, and W.E. Muldrew
Handling Gaseous Fluorine in Industry
md. and Engr. Chem., 54(5), p. 46 (1962)
48
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203 McNaughton, K.J.
The ABCs of Occupational Skin Disease - Part II
Chem. Engr., p. 149 (April 19, 1982)
204 Meade, J., W. Ellis, and J. Ludington
Evaluation of the Resistance of a. Chlorinated Polyethylene
Protective Garment Material to Permeation and Degradation by
Liquid Chemicals
‘U.S. Environmental Protection Agency Contract No. 68-03-3113
(1985)
205 Meares, P.
Transient Permeation of Organic Vapors through
Polymer Membranes
J. of Applied Polymer Science, 9, p. 917 (1965)
206 Melco, Inc.
Catalogue
1986
207 Memphis Glove Company
Catalogue
1986
208 Middleton, H. W.
Glove Corrosive Liquid Immersion and P rmeability Study
Report on U. S. Energy Research and Development
Administration contract EY-76-C-04-0656 (August 1977)
209 Mihal, C.P., Jr.
Effect of Heat Stress of Physiological Factors for
Industrial Workers Performing Routine Work and Wearing
Impermeable Vapor-Barrier Clothing
Am. md. Hyg. Assoc. J., (February 1981)
210 Mikatavage, M., S.S. Que Hee, and H.E. Ayer
Permeation of Chlorinated Aromatic Compounds Through Viton
‘and Nitrile Glove Materials
Am. md. Hyg. Assoc. J., 45(9), pp. 617-621 (1984)
Zll Mikkelson, T.J. , S. Watanabe, J.H. Rytting, and T. Higuchi
Effect of Self-Association of Phenol on Its Transport,
Across Polyethylene Film ,
J. Pharm. Sci., 69, p. 133 (1980)
212 Miller Products Company, Inc.
Catalogue
1986
49
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213 Mine Safety Appliances Company
Data Sheets
13-00-07, 13-00-17, and 13-00-18
1986
214 Monte Glove Company
Catalogue
1981
215 Morrow, R.W., and J.H. Hamilton
Moca Permeation of Protective Clothing
Prepared for Department of Energy Under U.S. Government
Contract W-7405 eng. 26
• 216 Moursiden, J.T., and 0. Faber
Penetration of Protective Clothing By Allergens and
Irritants
Trans. St. John’s Hosp. Derniatol. Soc., 59, p. 230 (1973)
217 Mueller, W.J.
Permeability of Rubber to Organic Liquids -
Rubber Age, p. 982 (September 1957)
218 National Draeger, Inc.
Catalogue
1986
219 National Research Council
Prudent Practices for Handling Hazardous Chemicals in
Laboratories
National Academy Press, Washington, DC (1981)
220 National Safety Wear, Inc.
Catalogue
1984
221 National Tech. Info. Service
Protective clothing: Industrial Environments.
Protective Clothing for Industrial Atmospheres Including
Protection from Explosive Materials and Fuels
U.S. Department of Commerce, NTIS, PB83-804922
222 Nelson, G.O., B. Lum, C. Carison, C. Wong, and J. Johnson
Glove Permeation by Organic Solvents
• Am. md. Hyg. Assoc. J., 42(3), p. 217 (1981)
50
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223 Nelson, G.O., G.J. Carison, and A.L. Buerer
Clove Permeation by Shale Oil and Coal Tar Extract
Lawrence Livermore Laboratory, UCRL 52893 (1980)
224 Nesse Industries, Inc.
Catalogue
1984
225 Newns, A.C., and G.S. Park
The Diffusion Coefficient of Benzene in a Variety of
Elastomeric Polymers
J. Polymer Sci. Part C, 22(2), pp. 927-937(1969)
226 Niles, H.M.
Selecting Gloves for Handling Toxic Liquids Involves
Several Factors, Occupational Health & Safety, pp. 34-36
(December 1985)
227 North Hand Protection, Div. of Siebe North, Inc.
Catalogue
1986
228 O’Brien, J.
Proper’Sole Selection Key to Safety Footwear Comfort,
Protection, Occupational Health & Safety, pp. 52-53
(February 1986)
229 O.K.I. Supply Company
Catalogue
1981
230 Oak Medical Supply Company
Catalogue
1981
231 Oak Technical, Inc.
Catalogue
1986
232 PPG Industries, Inc.
Catalogue
A-691-45C, 1OM, 179, 1986
233 Paneigraphic Corporation
Catalogue
1986
51
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234 Pendergast Safety Equipment Company
Catalogue
1984
235 Perkins, J.L., and A.D. Tippit
Use of Three-Dimensional Solubility Parameter to Predict
Glove Permeation
Am. md. Hyg. Assoc. J., 46, pp. 455-459 (August 1985)
236 Pioneer Industrial Products, Division of Brunswick Corp.
Catalogue M-l04-l
1986
237 Plastex Protective Products, Inc.
Catalogue
1986
238 Plastimayd Corp.
Catalogue
1986
239 Podkowka, ‘J., and Puchalik, A.
Comparative Evaluation of Diffusion Coefficients
for Gases and Vapors of Organic Substances through
Polyethylene Membranes Determined by Absorption and
Desorption Upstream Time Lag Method
J. Appl. Poly. Sd., 27, pp. 1471-1478 (1982)
240 Polakoff, P.L.
Chemical Mixture Hazard Evaluation Differs from that of
Single Substances, Occupational Health & Safety, pp. 55-56
(September 1985)
241 Prager, S., and F.A. Long
Diffusion of Hydrocarbons in Polyisobutylene
J. Amer. Chem. Soc., 73, p. 4072 (1951)
242 Protech Safety Equipment, Inc.
Catalogue
1986
243 Protexall Company
Catalogue
1986
244 Pulmosan Safety Equipment Corp.
Catalogue
1984
52
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245 Rainfair, Inc.
Catalogue
1986
246 Ranger
Catalogue
1985
247Record Industries Company
Catalogue
1986
248 Renco Corp.
Catalogue
1984
249 Richards, R.W.
The Permeability of Polymers to Cases, Vapors and Liquids
Tech. Report No. 135, Ministry of Defense Explosives
Research and Development Establishment (March 1973)
250 Riley, M.W., D.J. Cochran, and C.A. Schanbacher
Force Capability Differences Due to Cloves
Ergonomics, 28(2) pp. 441-447 (1985)
251 Robar Protective Products
Catalogue
1981
252 Rockford Medical & Safety Company
Catalogue
1986
253 Rogers, C.E., V. Stannett, and M. Szwarc
The Sorption, Diffusion, and Permeation of Organic Vapors
in Polyethylene
J. Poly. Sci., 45, pp. 61-82 (1960)
254 Ronco Textile Products, Inc.
Catalogue
1986
255 Ronk, R., M.K. White, and H. Linn
Personal Protective Equipment for Hazardous Materials
Incidents: A Selection Guide, NIOSH, DHHS (NIOSH)
Publication No. 84-114, (October 1984)
53
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256 SGL }lomalite Division of SGL Industries, Inc.
Catalogue
0776-5M
257 Safeco, Inc.
Catalogue
1986
258 Safety Engineering & Supply Company
Catalogue
1986
259 Safety First, Industries
Catalogue
1986
260 Sager Corporation, Racine Glove Division
Catalogue
1986
261 Salame, M., and S. Steingiser
Barrier Polymers
Presented at the Am. Chem. Soc. Symposium inNàw York City
(May 1976)
262 Salame, S.
The Prediction of Liquid Permeation in
Polyethylene and Related Polymers
SPE Transactions (October 1961)
263 Salisbury, W.H. & Company
Catalogue
1986
264 Sansone, E.B. , and L.A ‘Jonas
Resistance of Protective Clothing Materials to
Permeation by Solvent “Splash”
Environmental Res., 26, pp. 340-346 (1981)
265 Sansone, E.B., and L.A. Jonas
The Effect of Exposure to Daylight and Dark Storage
on Protective Clothing Material Permeability
Am. md. Hyg. Assoc. J., 42(11), pp. 841-843 (1981)
266 Sansone, E.B., and Y.B. Tewari
The Permeability of Laboratory Gloves to Selected Solvents
Am. md. Hyg. Assoc. J., 39(2), p. 169 (1978)
54
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267 Sansone, E.B., and Y.B. Tewari
The Permeability of Laboratory Cloves to
Selected Nitrosamines
Environmental Aspects of N-Nitroso Compounds (E A. Walker
M. Castegnaro, L. Criciute and R.E. Lyle, eds.),
Lyon International Agency for Research on Cancer
pp. 517-529 (1978)
268 S ansone, E.B., and Y.B. Tewari
Differences in the ‘Extent of Solvent Penetration Through
Natural Rubber and Nitrile Cloves From Various ‘Manufacturers
Am. md. Hyg. Assoc. J., 41, pp 527-528 (July 1980)
269 Sansone, E.B., and Y.B. Tewari
The Permeability of Protective Clothing Materials to
Benzene Vapor
Am. md. Hyg. Assoc. J., 41(3), pp. 170-174 (1980)
270 Sañsone, E.B., and Y.B. Tewari
Penetration of Protective Clothing ‘Materials by 1,2-Dibromo-
3-Chloropropane, Ethylene Dibromide, and Acrylonitrile
Am. md. Hyg. Assoc. J., 39, pp. 921-922 (November 1978)
271 Sawyer-Tower
Catalogue
1986
272 Schlatter, C.N.
Permeation Resi’stance of Cloves After Repeated Cleaning
and Exposure to Liquid Chemicals
Edmont Division, Becton, Dickinson ‘and Company
273 Schlatter, C.N., and D.J. Miller
Influence of Film Thickness on the Permeation Resistance
Properties of Unsupported Glove Films
Performance of Protective Clothing, ASTM STP 900, R.L.
Barker and G.C. Coletta, Eds., American Society for Te’sting
and Materials, Philadelphia, pp. 75-81 (1986)
274 Schoch, D.H., L.K. Tersegno, J.E. Winter, D.C. Bush, and
R.L. James
Testing of “Impervious” Gloves for Permeation by Organic’
Solvents, American Industrial Hygiene Conference,
Cincinnati, OH (June 6-11, 1982) ‘
275 Schwope, A.D. , ‘
The Effectiveness of TYVEK Composites as Barriers To
AROCLOR 1254 (PCB), Trichlorobenzene, and Mineral Spirts
Report to Textile Fibers Dept., The Dupont Company
from Arthur D. Little (1979),
55
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276 Schwope, A.D., M.A. Randel, and M.C. Broome
Dimethyl Sulfoxide Permeation through Clove Materials
Am. m d. Hyg. Assoc. J., 42(10), pp. 722-725 (1981)
277 Shelby-Wolverine Clove Company
Catalogue
1986
278 Silkowski, J.B., S.W. Horstman, and M.S. Morgan
Permeation Through Five Commercially Available Clove
Materials by Two Penachiorophenol Formulations
Am. md. Hyg. Assoc. J., 45, pp. 501-504 (August 1984)
279 Singer Safety Company
Catalogue
1985
280 Smith, I.D., and J. Roepke
Personnel Protection Equipment for Use With Laser Chemicals
NASA and LEMSCO, White Sands Test Facility, AD-P004-490
(May 1984)
281 Smolander, J., V. Louhevaara, and Korhonen, 0.
Physiological Strain in Work with Cas Protective Clothing
at Low Ambient Temperature, Am. md. Hyg. Assoc. J., 46,
pp. 720-723 (December 1985)
282 Snyder, F.J., C.F. Macy, L.A. Spane, and V.D. lacono
Protection Capability of U.S. Army’s POTMC Against Hazards
Posed by 900 Hazardous Chemicals
U.S. Army Natick R&D Command, 1976
283 Snyder, L.
Solutions to Solution Problems- -l
Chemtech
(December 1979)
284 Snyder, L.
Solutions to Solution Problems- -2
Chemtech
(March 1980)
285 Soles, E., J.M. Smith, and W.R. Parrish
Cas Transport through Polethylene Membranes
AIChE Journal, 28(3), pp. 474-479 (1982)
56
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286 Spain, W.H., and J.L. Burson
Selective Protective Clothing with Six C’s
Occupational Health and Safety, pp. 17-23 (September 1983)
287 Spence, M. W.
Chemical Permeation through Protective Clothing Material:
An Evaluation of Several Critical Variables
Paper Presented at the American Industrial Hygiene
Conference, Portland, OR (May 1981)
288 Spence, M.W.
Glove Materials for Chlorinated Solvents: Permeation
Resistance Comparison for Four Solvents
American Industrial Hygiene Conference, Detroit, MI
(May 21-25, 1984)
289 Sperling, L., B. Jonsson, I. Holmer, and T. Lewin
Test Program for Work Gloves
Department of Occupational Safety, Division for Occupational
Medicine, Labor Physiology Unit in Umea, Sweden, Research
Report 1980:18 (1980) (translated from Swedish)
290 Stampfer, J.F., M.J. McLeod, A.M. Martinez, M.R. Betts, and
S.P. Berardinelli
Permeation of Polychiorinated Biphenyls and Solutions of
These Substances Through Selected Protective Clothing
Materials
Am. md. Hyg. Assoc. J., 45(9), pp. 634-641 (1984)
291 Stampfer, J.F., M.J. McLeod, M.R. Betts, A.M. Martinez, and
S.P. Berardinelli
The Permeation of Eleven Protective Garment Materials by
Four Organic Solvents
Am. md. Hyg. Assoc. J., 45, pp. 642-654 (1984)
292 Stampfer, J.F., M.J. McLeod, M.R. Betts, A.M. Martinez, and
S.P. Berardinelli
Chemical Permeation - A Summary Report of Recent NIOSH-
Directed Studies at the Los Alamos National Laboratory
Am. md. Hyg. Assoc. J., 45, pp. B-b to B-l2
(January 1984)
293 Stampfer, J.F., and R.J. Beckman
A Screening Test for Selecting Chemical Protective Clothing
Los Alamos National Laboratory, Los Alamos, NM
294 Standard Glove & Safety Equipment Corp.
Catalogue
1986
57
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295 Standard Safety Equipment Company
Catalogue
1986
296 Stannett, V., and H. Yasuda
Liquid Versus Vapor Permeation Through Polymer Films
J. Poly. Sci. Part B, Poly. Letters, 1(6), pp. 289-293
(1963)
297 Stauffer Manufacturing Company
Catalogue
1986
298 Steel Grip Safety Apparel Company, Inc.
Catalogue
1986
299 Steele & Associates, Inc.
Catalogue
1986
300 Stokoe, A.L., and K.J. Ledbury
Permeability of Polymers to Organic Fluids
Tech. Report No. 18, Ministry of Technology Explosives
Research and Development Establishment
Waltham Abby, Essex, England (February 1970)
301 Streng, D.R., W.F. Martin, L.P. Wallace, and G. Kleiner
Hazardous Waste Sites and Hazardous Substance Emergencies
Worker Bulletin
DHHS (NIOSH) Publication No. 83-100
302 Stull, J.O., V.L. Man, V.A. Bastecki, and A.P. Bentz
A Comprehensive Materials Evaluation Program’ to Support the
- Development and Selection of Chemical Protective Clothing
1986 Hazardous Material SpillsConference Proceedings,
St. Louis, Missouri (May 5-8, 1986)
303 Stull, Jeffrey
Personal Communication. ‘
U.S. Department of Transportation, Coast Guard
(August 1986)
304 Superior Surgical Manufacturing Company, Inc.
Catalogue
1986
58
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305 Sweeting, 0.J. (editor)
The Science and Technology of Polymer Films
Volume II, Wiley-Interscience, New York (1970)
306 Texier, H. Glove Company, Inc.
Catalogue
1985
307 3M Company
Catalogue
1986
308 Tingley Rubber Corp.
Catalogue
1985
309 Tracies Co., The
Catalogue
1986
310 Trelleborg, A.B.
Resistance Table
Trelleborg A.B. (Sweden)
311 Trelleborg, Inc.
Catalogue
1986
312 United States Plastic Corp.
Catalogue
1986
313 United.States Safety Service Company
Catalogue
1986
314 Vaccari, J.A.
Guide to Selecting Elastomers
Product Engineering, p. 36 (July 1978)
315 Van Amerongen, G.J.
‘Diffusion in Elastomers
Rubber and Chem. Tech. Rubber Reviews for 1964, 37(5),
pp. 1065-1152 (1964)
59
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:316 Varos, J.
Consider Abrasion Risk, Chemicals When Choosing Gloves
Occupational Health & Safety, pp. 60,62 (March 1986)
317 Vidaro Corp.
Catalogue
1981
318 Vrentas, J.S., H.T. Liu, and J.L. Duda
Effect of Solvent Size on Diffusion in Polymer-Solvent
Systems
J. Appl. Poly. Sci., 25, pp. 1793-1797 (1980)
319 Vrentas, J.S., and J.L. Duda
Diffusion of Large Penetrant Molecules in Amorphous Polymers
J. Poly. Sci., Phys. Ed., 17, pp. 1085-1096 (1979)
320 Waack, R., N.H. Alex, H.L. Frisch, V. Stannett, and M.Szwarc
Permeability of Polymer Films to Gases and Vapors
md. and Engr. Chem., 47(12), pp. 2524-2527 (1955)
321 Wakefield, M.E., and M.S. Hall
Development of a Specification for an Improved Ensemble
for Propellant Handlers
Final Report on NASA Contract NAS1O-97l4, MCR-80-647
(December 1980)
322 Walker, E.A., M. Castegnaro, L. Garren, and B. Pigna elli
Limitations to the Protective Effect of Rubber Gloves
for Handling Nitrosamines
Environmental Aspects of •N-Nitrosainines Compounds
(E.A. Walker, M. Castegnaro, L. Griciute, and R.E. Lyle,
eds.), Lyon International Agency for Research on Cancer,
pp. 535-542 (1978)
323 Walters, D.
Personal Communication. National Toxicology Program
Glove Performance Study Performed by Radian
Corporation, Austin, Texas (June 1986)
324 Weaver, L.A.
Hazardous Site Water Restrictions Pose Problem for Exposed
Workers, Occupational Health & Safety, pp. 54-58 (May 1985)
325 Weeks, R.W., Jr., and B.J. Dean
Permeation of Methanolic Aromatic Amine Solutions Through
Commercially Available Glove Materials
Am. md. Hyg. Assoc. J., 38, pp. 721-725 (1977)
60
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326 Weeks, R.W., Jr., and M.J. McLeod
Permeation of Protective Garment Material by Liquid
Halogenated Ethanes and a Polychlorinated Biphenyl
U.S. Dept. of Health & Human Services, NIOSH Publication
No. 81-110 (January 1981)
327 Weeks, R.W., Jr., and M.J. McLeod
Permeation of Protective Garment Material By Liquid
Benzene and by Tritiated Water
Am. md. ’ Hyg. Assoc. J., 43, pp. 201-211 (1982)
328 Weitzman, B., and L.C. Jonas
Industrial Hygiene Program for Hazardous Waste Site
Investigations
Am. md. Hyg. Assoc. J.., 42, pp., 653-655 (1981)
329 Wells, Dr. J.W.,
Equipment Innovations Cut Risks for Divers in Polluted
Waters, Sea Technology, p. 22 - 23 (December 1984)
330 Wheeler Protective Apparel, Inc.
Catalogue
G12, 1986
331 Wheeler, ‘C.P., and Goldberg, H.M.
Hazard Education Must Overcome Generalities
Occupational Health and Safety, pp. 31-34 (September 1983)
332 Wilcher, F.E.
ISEA Forms Unit to Certify Personal Protective
Equipment
National Safety News, p. 36 (September 1981)
333 Williams, J.R.
Permeation of Glove Materials by Physiologically
Harmful Chemicals
Am. md. Hyg. Assoc. J., 40(10), pp. 877-882 (1979)
334 Williams, J.R.
Chemical Permeation of Protective Clothing
Am. md. Hyg. Assoc. J., 41, pp. 884-887 (1980)
335 Williams, J.R.
Evaluation of ‘Intact Gloves and Boots for
Chemical Permeation,
Am. md. Hyg. Assoc. J., 42, pp. 468-471 (1981)
61
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336 Willson Safety Products.
Catalogue
1985
337 Wittenberg, L.J.
Experimental Verification of Tritium Control by Clove-Box
Containment
Nuclear Technology, 38., PP. 434-440 (May 1978)
338 Wolfe, P.R., and L.A. Rich
FEMA’s Strategy for Emergency Response
Chemical Week, p. 15 (July 3, 1985)
339 Worklon
Catalogue
1981
‘340 Zippler, D.B.
Personal Protective Clothing .
1984 Occupational Health and Safety Symposium, Wilmington,
DE (October 3-5, 1984)
62
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APPENDICES
63
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DESCRIPTION OF COLUMN HEADINGS
FOR APPENDICES A THROUGH E
Chemical Name: Alphabetical listing of chemicals as
shown in Appendix B of Volume I.
Synonym, if given, in parentheses.
GAS No: - Chemical Abstract Service (GAS)
Registry Number.
Resistant Material: The normally outside material of the
CPC (i.e., the chemical contact sur-
face). See Appendix E of Volume I.
‘roduct Description: See column 1 of Appendix E in
Volume I.’
Vendor: . See Appendix E of Volume II.
UNK = Unknown.
Breakthrough Time: See Appendix A of Volume I.
Permeation Rate: See Appendix A of Volume I.
Percent Weight Change/ Change in weight of CPC specimen
Immersion Time: , due to immersion in chemical for
time indicated.
Percent Swell! ‘ Volume change due to immersion. ‘in
Immersion Time: chemical for time indicated.
Diffusion Coefficient: a x 10 b ‘cm 2 /sec.
Temperature: Test temperature, ‘if reported; other-
wise assumed to be 25°C.
Thickness: Initial thickness of test specimen,
if reported; otherwise no value is
given.
Ref Number: Source of data. See Bibliography.
64
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APPENDIX A
PERMEATION DATA
A-i
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SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME!
CASNO
RESISTANT
MATERIAL
PRODUCT VENDOR BREAKTHROUGH TIME
DESC CODE HOURS
PERMEATION RATE
UG/CM**2/M IN
TEMP THICKNESS REF
DEGC CM NUM
Acetic Acid
000641970 CPE
001 UNK
015 UNK.
017 100
102
121
008 102
UNK
002 100
210
018 100
UNK
005 210
019 100
UNK
> 3.00
3.95
2.40
.68
.85
2.25
4.50
2.50
1.50
2.00
1.50
1.50
3.50
1.27
3.50
> 1.00
> 6.00
6.00
7.00
> 1.00
> 1.00
6.00
4.50
> 1.00
25. .07 302
23. .05 204
42.08 23. .05 204
23. 052
23. .04 052
23. .05 107
23. .05 026
23. .05 026
23. .05 026
23. .05 026
23. .06 026
23. .04 026
23. .05 026
96.19 23. .05 237
23. 026
23. 052
23. 107
23. 080
23. .04 107
23. .06 052
23. .09 052
.02 23. 080
23. .06 107
23. .05 052
Aceta dehyde
000750700
014. 118
060 113
UNK
001 103
017 100,
002 100
018 100
125 103
019 103
118
.40 23. .04 323
.40 23. 227
25. .07 302
9.58
9.60
.17 - .50
.66
.28
.12
.28
.20
.17
.01
.07
.05
.05
.27
.05
.08
> 6.00
> 3.00
.01
.50 . .66
> 3.00
23.
23.
48.10 23.
90.18 - 901.80 23.
901.80 . 9,018.00 23.
199.00 23.
901.80 . 9,018.00 23.
72.14 23.
529.06 23.
967.93 23.
967.93 23.
901.80 . 9,018.00 23.
901.80 - 9,018.00 23.
282.56 23.
264.53 23.
9.02 - 90.18 23.
901.80 - 9,018.00 23.
23.
.02 ‘23.
1,694.78 23.
25.
23.
058
076
102
007
077
122
069
009
112
100
100
100
103
100
118
510
118
113
142
142
045
.05 107
107
.05 323
.04 107
045
045
.03 323
.04 227
107
•1 07
.03 323
045
107
107
.01 227
.05 303
.03 323
.04 302
142
B UT V L
CPE
NATURAL RUBBER
NEOPRENE
NITRILE
NITRILE+PVC
PE
PV ALCOHOL
PVC
SILVER SHIELD
TEFLON
VITON
VI TON/CHLOROBUTVL
NATURAL RUBBER
NEOP+NAT RUBBER
NEOP/NAT RUBBER
NEOPRENE
NITRILE
UNK
060 113
026 102
A— 2
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SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME/ RESISTANT PRODUCT VENDOR BREAKTHROUGH TIME PERMEATION RATE TEMP THICKNESS REF
CASNO MATERIAL DESC CODE HOURS UG/CM**2/MIN DEG C CM NUM
000641970 NITRILE+PVC 057 210 6.00 .02 23. 080
058 100 .27 23. 107
PE 076 100 .25 23. 107
127 ‘° 5.00 23. 104
PVC 003 UNK .08 . 23. .02 052
007 100 3.00 23. 107
210 4.00 12.02 23. ‘ 080
UNK 1.00 “ 23. 052
077 100 .75 23. 107
.10 23. 107
SARANEX 061 ‘127 > 66.67 23. 104
TEFLON 069 510 > 4.00 .02 25. .05 303
VITON 009 UNK > 1.00 23. .03 052
VITON/CHLOROBUTYL 112 113 > ‘3.00 ‘ 25. .04 302
Acetic Acid, >70%
000641973 NATURAL RUBBER 001 120 .35 18.04 23. .05 236
NITRILE 005 120 1.97. 1,328.65 23. .06 236
PVC 003 , 120 1.42 1.80 23. .08 .236
Acetic Anhydride .
001082470 BUTYL. 014 118 > ‘ 8.00 .02 23. .09 323
CPE 060 113 1.25 ‘ 23. .05 204
1.20 54.11 . 23. ‘ .05 204
NATURAL RUBBER 001 250 .05 10.02 20. ‘ .02 323
NEOPRENE 018 100 3.50 6.01 20. .05 323
Pvc 007 100 ‘ .07 ‘ 120.24 20. . .02 323
TEFLON 069 510 > 3.00 .02 23. .05 303
Acetone
000676410 BUTYL 014 118 > 20.33 23. .08. 323
> 17.00 23. .04 227
216 > 4.00 21. .07 124
CPE 060 113 .33 - .42 25. .07 302
.53 - .58 22. .07 302
.45 - .52 25. .07 302
.28 23. .05 204
.25 1,022.04 23. .05 204
NATURAL RUBBER ‘ 001 103 288’. 58 23. 045
210 .10 60.12 23. 080
UNK .23 ‘ 35.07 23. .12 274
017 100 . .09 110.22 ?5. .03 222
.17 90.18 - 901.80 23. .05 107
102 .13 4.81 23. .05 026
.17 9.02 23. .05 Q 6
.13 5.41 23. .05 026
.15 7.21 23. .05 026
120 .04 210.42 25. .02 222
502 .10 ‘ 82.16 ‘ 25. .05 222
504 .25 66.13 25. .05 222
.45 45.09 25. .06 222
UNK .10 > 140.28 23. .04 274
NEOP+NAT RUBBER 026 102 .08 100.20 25. .05 222
A- 3
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
V PERMEATION TEST
> 8.00
> 8.00
> 8.00
23. .07 323
23. .04 227
23. .02 213
BREAKTHROUGH -TIME
HOURS
CHEMICAL NAME!
RESISTANT
PRODUCT
VENDOR
CASNO
MATERIAL
DESC CODE
000676410
NEOP+NAT
RUBBER
026
-102
121
NEOP/NAT
RUBBER
008
102
114
UNK
NEOPRENE
002
100
120
210
018
100
PERMEATION RATE TEMP THICKNESS REF
UG!CM**2!MIN DEG C CM’ NUM
.12
8.42
23.
.06
.08
-
12.63
23.
.04
026
.13
4.81
23.
.05
.05
126.25
23.
.05
237
.13
4.81
23.
.13
46.09
25.
.05
222
13
>
150.30
23.
.05
274
.17
90.18 -
901.80
23.
107
.04
.04
.
180.36
310.62
25.
25.
.08
.07
222
222
.10
72.14
23.
080
.23
•
334.27
23.
.05
323
.08
90.18 -
901.80
23.
.04
107
.95
86.17
25.
.08
.32
140.28
25.
.05
222
>
.53
.55
“.27
1.00
.43
.33
.09
.22
.08
.07
.05
.08
.10
.25
.
<
<
>
>
170.34
90.18
140.28
120.24
1,557.11
480.96
2,004.00
‘ 801.60
801.60
801.60
1,503.00
150.30
110.22
312.62
25.
25.
25.
23.
23.
23.
23.
25.
25.
25.
25.
25.
23.
23.
23.
.07
.05
.03
.09
O6
, .04
.06
.04
.03
.03
.05
.05
222
222
222
274
274
045
080
222
222
222
222
222
274
274
080
>
1.00
.07
.05
<
9.02 -
30.06
2.00
90.18
25.
25.
23.
.01
.01
222
222
107
>
4.00
.50
.07
.30
>
60.12
- 13.83
541.08
21.
23.
23.
23.
.12
.04
124
274
323
080
>
>
.15
.55
6.00
3.00
>
<
140.28
19.84
.02
23.
23.
23.
23.
.16
.01
.05
274
104
227
‘303
>
3.50
.02
25.
.05
303
<
.01
4,843.87
23.
.02
323
-
-
-
.03
1.28
1.63
.88
>
150.30
23.
25.
20.
27.
.03
.04
.04
.04
274
302
302
302
118
120
UNK
125 103
005 210
019 ‘ 100
181
503
UNK
057 - 210
006 100
505
076 100
004 100
UNK
102 100
007 210
UNK
061 127
122 118
069 510
009 118
UNK
112 113
014 118
064 117
NITRILE
NITRILE+PVC
PE
PV ALCOHOL
PVC
SARANEX
SILVER SHIELD
TEFLON
VITON
VI TON/CHLOROBUTYL
Acetonitrile
000750580 BUTYL
.87
1.58
.72
.88
A- 4
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT PRODUCT VENDOR BREAKTHROUGH TIME PERMEATION RATE TEMP THICKNESS REF
CASNO MATERIAL DESC CODE HOURS UGi CM**2/MIN DEC C CM NUM
000750580 BUTYL 064 117 . > 8.00 .23. .01 213
> 8.00 23. .02 213
BUTYL/NEOPRENE 110 117 > 8.00 23. .02 213
CPE 060 113 1.33 - 1.42 25. .07 302
NATURAL RUBBER 001 103 150.30 23. 045
506 .01 117.23 23. .01 323
NEOPRENE . 018 .100 1.27 10.82 23. .06 323
093 117 .18 23. .02 213
125 103 0 72.14 23.. 045
138 117 .58 23. .03 213
139 117 .83 23. .01 213
NITRILE 019 103 66.13 23. 045
PE 076 117 .01 23. .02 213
PV ALCOHOL 102 100 > 8.00 23. .04 323
PVC 007 103 66.13 23. 01.5
049 117 .05 23. .01 213
SARANEX 061 117 > 8.00 23. .01 213
SILVER SHIELD 122 1.18 > 8.00 23. .01 227
TEFLON 069 510 4.50 .02 25. .05 303
VITON 145 117 > 8.00 23. .01 213
VITON/CHLOROBUTYL 112 113 1 5O - 1.75 25. .04 302
VITON/NEOPRENE 111 117 .75 23. .02 213
Acetophenone
000988620 TEFLON . 069 510 > 92.00 .02 25. .05 303
AcetyL ChLoride
000753650 SARANEX 061 127 .62 1.10 23. 104
TEFLON 069 510 > 3.10 .02 23. .05 303
Acrotein 0
001070280 BUTYL 014 118 15.00 23. .06 323
CPE 060 UNK .13 23. 142
.92 23. 142
NITRILE 019 100 .07 966.13 23. .04 323
PV ALCOHOL 102 100 .25 3.01 23. .03 323
VITON 009 118 .01 432.86 23. .02 323
VITON/CHLOROBUTYL 112 UNK > 3.00 23. 142
AcryLic Acid
000791070 TEFLON 069 510 > 3.00 .02 23. .05 303
AcrytonitrUe .
001071310 CPE - 070 UNK .28 23. .05 004
PE 076 127 .08 .02 23. 104
SARANEX 061 127 .38 .02 23. 104
TEFLON 069 . 510 .90 .08 23. 303
ALLyL ALcohoL
001071860 BUTYL 014 UNK > 8.17 25. 287
064 117 > 8.00 23. .02 213
8.00 23. .01 213
> 8.00 23. .02 213
A-5
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL• NAME! RESISTANT
CASNO MATERIAL
bOl 071860 BUTYL/NEOPRENE
CPE
NEOPRENE
Attytamine
001071190
AL.Lyt ChLoride
PE
PV ALCOHOL
PVC
SARANEX
TEFLON
VITON
VI TON/NEOPRENE
Arrmonium Hydroxide, <30%
1.25
1 .70
2.76
23.
23.
1.44 25.
23.
23.
23.
23.
33.07 25.
23.
23.
23.
.02 23.
23.
23.
.02
.05
213
004
287
.02 213
.03 213
.02 213
.01 213
287
.01 213
.01 213
.01 213
.05 303
.01 213
.02 213
23. .05 004
.02 •23. .05 303
.02 23. .05 303
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
110
070
002
093
138
117
UNK
UNK
117
117
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEG C CM NUN
139 117
076
004
049
077
061
069
145
111
117
UNK
117
117
117
510
117
117
> 8.00
2.00
2.35
1.58
6.08
3.42
1.67
.24
1.75
.08
8.00
> 3.10
> 8.00
> 8.00
3.92
.02
.20
.02
014 118
001 250
102 100
007 ‘100
070 UNK
069 510
70 A 4
6,633.24
12,114.18
9,829.62
BUTYL
NATURAL RUBBER
PV ALCOHOL
PVC
001070510 CPE
TEFLON
Amonium FLuoride, 30-70%
‘121250182 NATURAL RUBBER
NEOPRENE
Aninonium Hydroxide
013362160
20.
20.
23.
20.
.06 323
.01 323
.07 323
.02 .323
017
100
>
6.00
23. ‘,
23.
.05
1O7
002
100
>
6.00
•
‘
107
018
100
‘
6.00
., ,
23.
.04
107
NITRILE
019
, 100
>
6.00
23.
.06
107
PVC
007
100
>
6.00
23. ,
107
NATURAL RUBBER
‘
001
210
2.00
‘
23.
080
NEOP+NAT RUBBER
026
121
.45
‘
18.04
23.
.05
237
NEOPRENE
002
210
‘6.00
<
.02
23.
080
NITRILE
005
210
6.00
<
‘
.02
23.
080
NITRILE+PVC
057
210
3.00
23.
080
.
058
100
.18
23.
‘107
PE
076
100
‘.07
‘
23.
107
PVC
007
077
210
100
>
.75
6.00
.30
23.
23.
23.
080
107
107
,
NATURAL RUBBER
.001
017
UNK
100
>
1.00
1.75
23.
23.
,
.05
052
107
NEOPRENE
,
002
100
>
6.00
23.
107
‘
018 ‘
100
>
6.00
23.
.04
107
‘
UNK
>
1.00
23.
.06
052
‘
>
1.00
23.
.09
052
NITRILE
019 ‘
100 ‘
>
6.00
013362161
A- 6
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
VITON
Amonium Hydroxide, 30-70%
013362162 PE
PERMEATION RATE TEMP
UG/CM**2/MIN DEG C
THICKNESS REF
CM HUM
052
052
107
052
CHEMICAL NAME/
CASNO
RESt SlANT
MATERIAL
013362161 NITRILE
PVC
PRODUCT VENDOR
DESC CODE
• BREAKTHROUGH TIME
HOURS
Amyt Acetate (PentyL Acetate)
006286370 NATURAL RUBBER
NEOPRENE
NITRILE
NITRILE+PVC
PE
PV ALCOHOL
PVC
AmyL AIcohoL. (PentanoL)
000714100 BUTYL
NATURAL RUBBER
NEOPRENE
NITRILE
NITRILE+PVC
PE
PV ALCOHOL
PVC
VITON
AniLine (Benzarnine)
OOO6253 0 BUTYL
BUTYL/NEOPRENE
019
UNK
.
1.00
•
003
UNK
23.
.05
007
100
. .02
4.00
23.
.02
009
UNK
>
1.00
23.
23.
.03
076
127
<
.02
10.32
23.
104
001
210
.20
002
.
210
60.12
23.
080
005
210
.25
.67
66.13
23.
080
019
•
100
1.00
•
30.06
23.
080
057
210
9.02 -
90.18
23.
.06
107
076
.
100
.05
42.08
23.
080
004
100
6.00
9.02 -
90.18
23.
107
007
210
.50
.90
48.10
23.
23.
107
080
014
118
>
017
100
.12
.02
23.
.07
323
002
.100
.90 -
.02
23.
.05
107
018
.
100
>
6.00
.90
23.
107
.90
23.
.04
107
019
.
•
.100
5.35
.20
23.
.05
323
>
.8.00
.90
23.
.06
107
058
100
.08
•
.90
.02
23
•
.04
323
076
100
•
.20
.
•
9.02
23.
107
004
•
100
3.50
.90
23.
•
107
007
100
•
• .20
.90
23.
107
077
009
.
100
118
.17
- •
.54
<
<
.90
9.02
.90
.02
23.
23. •
23.
23.
•
O5
107
107
107
323
012
.
UNK
.
>
>
>
>
>
>
>
6.50
6.50
22.00
22.00
7.00
7.00
23.00
23.00
7.00
7.00
8.00
<
<
<
<
<
<
<
<
1.99
1.99
.02
.02
.02
.02
.02
.02
1.20
.02
.02
25.
25.
25.
25.
25.
25.
25.
25.
25.
25.
25.
.04
.04
.06
.06
.04
.04
.06
.06
.04
.04
.06
273
273
273
273
273
273
273
273
273
273
273
014
118
>
8.00
8.00
.02
25.
23.
•
.06
.03
273
323
064
117
>
>
>
8.00
8.00
8.00
8.00
•
23.
23.
23.
23.
.04
.02
.01
.02
227
213
213
213
.17
> 8.00
A- 7
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
BREAKTHROUGH TIME
HOURS
PRODUCT VENDOR
DESC CODE
001 210
UNK
017 100
120
504
UNK
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEG C CM NUM
• 1.00
.53
> 1.00
.50
1.00•
> 1.00
1.00
.90
6.01 23.
23. .12
< 40.08 25. .03
9.02 23.
< 40.08 25.
< 40.08 25.
080
274
222
CHEMICAL NAME/ RESISTANT
CASNO MATERIAL
000625330 NATURAL RUBBER
NEOP+NAT RUBBER
NEOP/NAT RUBBER
NEOPRENE
NITRILE
NITRILE+PVC
PE
PV ALCOHOL
PVC
.05
107
.02
222
.05
222
<
40.08
25.
.06
222
.50
>
10.02
23.
.04
274
026
121
1.00
252.50
23.
.05
237
008
114
.09
15.03
25.
.05
222
UNK
>
1.00
23.
.05
274
002
100
3.00
.90 -
9.02
23.
107
120
>
1.00
<
40.08
25.
.07
222
210
.50
12.02
23.
080
018
100
.58
.90 -
9.02
23.
.04
107
120
>
1.00
<
40.08
25.
.05
222
:
•
•
>
1.00
1.00
<
<
40.08
40.08
25.
25.
.05
.03
222
•222
UNK
>
>
•
1.00
1.00
.50
1.00
2.00
2.50
6.01
6.01
3.01
9.02
23.
23.
25.
25.
25.
25.
.06 •
.09
.04
• .04
.06
.06
274
•274
273
273
273
273
093
117
‘
1.73
23.
.02
213
138
117
4.33
23.
.03
213
139 •
117
2.75
23.
.Ô2
213
005
210
.
2.50
30.06
23.
080
019
100
1.60
120.24
25.
.04
222
118
1.05
1.10
270.54
270.54
23.
23.;
.04
.04
323
227
503
.30
180.36
25.
.03
222
UNK
.
>
>
1.00
1.00
1.50
1.50
2.50
5.42
•
•
3:01
3.01
3.01
3.01
23. .05
23. • .05
25. .04
25. .04
25. .06
25. :06
274
274
273
273
273
273
057
210
6.00
<
.02
23.
080
058
•
100
.17
.90 -
9.02
23.
107
006
100
>
1.00
<
40.08
25.
.01
222
505
.05
•
25.
.01
222
076
100
.07
.90 -
9.02
23.
107
117
6.58
23.
.01
213
004
100
1.50
.90 -
9.02
23.
107
UNK
>
1.00
23.
.12
274
102
100
16.00
23.
.03
323
003
120
.05
180.36
25.
.01
222
-
.30
160.32
25.
.03
222
•
.15
160.32
25,.
.02
222
007
100
3.00
.90 -
9.02
23.
107
210
4.00
8.42
23.
080
UNK
>
1.00
23.
.16
274
A-S
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
BREAKTHROUGH TIME
HOURS
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEG C CM NUM
PRODUCT VENDOR
DESC CODE
049 117
077 100
061 117
122 118
069 510
009 118
UNK
145 117
111 117
1.25
23.
.33
.90
9.02
23.
213
107
.50
.90
9.02
23.
107
•
>
8.00
23.
.01
213
>
8.00
23.
•
.01
227
>
3.30
.10
<
.02
112.42
23.
23.
.05
.03
303
•
.17
112.42
23.
>
1 OO
23.
.03
274
.83
23.
>
8.00
23.
.01
.02
213
213
>
9.00
.23
.65
.40
9.02
.
90.18
24.05
25.85
23.
23.
23.
23.
.07
.05
.05
.03
323
107
323
323
.17
9.02
90.18
23.
>
6.00
<
.90
23.
107
107
>
16.00
23.
.03
323
014
017
018
019
076
004
118
100
100
100
100
100
102 100
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
000625330 PVC
SARANEX
SILVER SHIELD
TEFLON
VITOM
VI TON/NEOPRENE
BenzaLdehyde
001005270 BUTYL
NATURAL RUBBER
NEOPRENE
NITRILE
PE
PV ALCOHOL
VITON
Benzene
000714320 BUTYL
BUTYL/NEOPRENE
CPE
EVA
NATURAL RUBBER
NEOP+NAT RUBBER
NEOP/NAT RUBBER
NEOPRENE
118
9.93
118
.52
.52
194.19
194.19
23.
23.
UNK
.33
23.
UNK
1.47
130.26
22.
117
009
014
034
064
110
070
074
001
017
026
008
002
507
UNK
117
UNK
UNK
210
100
120
502
504
508
UNK
102
121
114
100
120
210
UNK
> .08
.67
1 .00
.13
> 8.00
.43
.01
.18
.04
.03
.05
.06
.12
.03
.01
.02
.05
.05
.09
.05
.25
.02
.40
.25
.29
396.79
3,206.40
5,611.20
2,605.20
2,204.40
1,603.20
501 .00
.04 323
.04 227
.02 327
.08 078
.02 213
23. .01 213
.02 213
.06 078
.04 327
.02 213
.05 004
.02 327
080
.03 222
.02 222
.05 222
.05 222
.06 222
.03 078
.05 327
23. .02 327
25. .04 222
23. .05 237
25. .05 2 2
22. .05 078
22. .07 078
25. .08 222
25. .07 222
23. 080
22. .11 333
23.
90.18 22.
23.
23.
23.
23.
23.
25.
25.
25.
25.
25.
22.
23.
2,805.60
2,254.50
2,004.00
400.80
80. 16
951.90
300.60
559.12
517.03
A- 9
-------�
• SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
NITRILE+PVC
NONWOVEN PE
PE
POLYURETHANE
PV ALCOHOL
PRODUCT VENDOR
DESC CODE
002 UNK
010 120
018 100
120
093 117
138 117
139 117
005 210
503
019 100
181
503
UNK
033 UNK
057 210
058 100
071 UNK
006 100
209
505
042 UNK
076 100
117
UNK
050 178
004 100
UNK
035 UNK
102 100
003 100
BREAKTHROUGH TIME
HOURS
.14
.11
.28
• .10
.19
.27
.27
08
.12
.10
.19
.33
3.10
1.00
.41
.27
.67
.40
.11
.08
.08
> 8.00
.33
.10
.32
1.05
.77
.32
.15
.07
.17
.23
• .32
.08
.75
.03
.01
.01
.02
.07
.03
.03
.08
.01
.02
.03
.12
.17
> 33.33
.33
.05
.82
.01
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
000714320 NEOPRENE
NITRILE
UNK
031 UNK
• PERMEATION RATE TEMP THICKNESS REF
UG/CM**2,MIN DEG C CM NUM
1,167.33 22. .08 333
521.04 22. .04 078
165.93 23. .05 ‘ 323
300.60 22. .04 078
1,002.00 25. .05 222
1,102.20 25. .07 222
801.60 25. .05 222
1,803.60 25. .03 222
22. .04 333
22. .05 333
1,893.78 22. .05 333
23. .06 327
50.10 22. .24 078
80.16 22. .16’ 078
• • • 230.46 22. .08 078
330.66. 37. .08 078
190.38’ 7. .08 078
230.46 22. .08.’ 078
501.00 22. O4 078
23. • .02 213
• 23. .03 213
23. .02 213
901.80 23. 080
501.00 ‘ 22. .02 078
.03 23. .04 323
400.80 25. .04 222
511.02 25. .06 222
851.70 25. • .05 222
1,102.20 25.’ .“ .03 222
1,302.60 25.; .03 222
23. .04 327
870.74 . 22. , .04 333
939.88 22. .04 333
501.00 22. .04 078
180.36 23. 080
901.80 9,018.00 23. 107
23. .01 327
250.50 25. .01 222
350.70 22. .01 078
50.10 25. .01 222
23. .01 327
90.18 . 901.80 23. 107
23. .01 213
23. .01 327
220.44 22. .01 078
110.22 22. .02 078
.90 23. 107
8.02 22. .02 078
22. .09 333
23. .02 327
39.08 22. .01 078
.02 23. .03 323
1,182.56 23. .02 323
PVC
A- 10
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT PROOUCT VENDOR BREAKTHROUGH TIME PERMEATION RATE TEMP THICKNESS REF
CASNO MATERIAL DESC CODE HOURS UG/CM**2/MIN DEG C CM HUM
000714320 PVC 003 120 .01 3,507.00 25. .01 222
.01 4,108.20 25. .01 222
.04 1,503.00 25. .03 222
.04 1,603.20 25. .02 222
500 .01 4,709.40 25. .01 222
501 .01 3,607.20 25. ‘.01 222
.01 4,909.80 25. .02 222
UNK .02 23. .01 327
007 210 .50 240.48 23. 080
UNK .30 481.96 22. .10 333
.17 599.20 22. .11 333
.31 421.84 22. .11 333
049 117 .10 23. .01 213
077 117 .16 23. .01 213
168 .10 150.30; 22. .04 078
SARANEX 061 117 .25 23. .01 213
UNK .17 23. .01 327
SILVER SHIELD 122 118 > 8.00 23. .01 227
TEFLON 036 UNK .17 23. .01 327
069 510 > 3.20 .02 23. .05 303
> 3.00 .02 25. .05 303
VITON 009 118 5.93 .07 23. .02 323
6.00 .07 ‘ 23. .02 227
‘UNK .50 23. .02 327
032 UNK 15.00 .50 22. .16 078
145 117 > 8.00 23. .01 213
VITON/NEOPRENE 111 117 3.50 23. .02 213
Benzenesutfonic Acid
000986790 NEOPRENE 018 100 > 20.00 ‘ 23. .05 123
NITRILE 020 216 > 4.00 23. .04’ 123
Benzethonium Chloride
001215400 BUTYL 014 118 > 8.00 .02 22. .06 323
NATURAL RUBBER 001 250 > 8.00 .02 21. .02 323
NEOPRENE 018 100 > 8.00 .02 19. .05 323
PVC 007 100 > 8.00 .02 19. .02 323
Benzonitrite -
001004700 BUTYL 014 118 8.00 23. .06 323
NATURAL RUBBER 001 ‘ 506 .01 24.05 23. .01 323
PV ALCOHOL 102 100 > 8.00 23. .03 323
VITON 009 118 .93 , 24.05 23. .03 323
Benzoyl Chloride
000988840 BUTYL 014 118 6.28 99.80 23. .06 323
HYPALON 108 210 .33 23. .06 123
NEOPRENE 018 100 .25 23. .05 123
PV ALCOHOL 102 100 , 8.00 23. .05 323
PVC 003 100 .01 596.39 23. .02 323
VITON ‘ 009 118 ‘ 8.00 23. .02 323
.75 ‘ 23. .03 123
A-Il
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME!
CASNO
RESISTANT
MATER IAL
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
PERMEATION RATE
UG/CM**2/M IN
TEMP THICKNESS REF
DEG C CM NUM
Bromine
077269560 PE
2-Bromoethanol
005405120
014 118
001 250
003 100
009 118
> 8.00
.02
.03
> 8.00
23. .07 123
23. .03 123
23. .05 004
.02 23. .05 303
66.13
456.91
23. .09 323
23. .02 323
23. .02 323
23. .05 323
BUTYL
NATURAL RUBBER
PV ALCOHOL
VITON
014 118
001 506
102 100
009 118
> 8.00
.02
> 8.00
> 8.00
Benzyt Alcohol
001005160
TEFLON
Benzyl Chloride (ChLoromethyl Benzene)
001004470 CPE
Bis(2-Ethylhexyl) Phthalate
001178170 BUTYL
• NATURAL RUBBER
NEOPRENE
Boric Acid
100433530
BUTYL
014
216
>
4.00
VITON
009
118
>
20.00
070
UNK
•
.78
069
510
>
3 2O
014
118
>
8.00
23.
.09
323
017
100
>
6.00
<
.90
23.
.05
107
002
100
2.00
<
.90
23.
107
018
100
>
6.00
<
.90
23.
.04
107
NITRILE
019
100
>
6.00
4.33
<
.90
12.02
23.
23.
.06
.05
107
323
PV ALCOHOL
:004
100
.50
90.18
-
901.80
23.
107
PVC
003
100
.03
12.02
23.
.02.
323
VITON
009
118
>
8.00
23.
.05
323
BUTYL
014
118
>
8.00
<
.02
20.
.07
323
NEOPRENE
018
100
>
8.00
<
.02
19.
.05
323
MITRILE
019
100
>
8.00
<
.02
21.
.04
323
VITON
009
118
>
8.00
<
.02
20.
.03
323
076
127
<
.02
23.
104
BUTYL
014
118
>
8.00
23.
.06
323
NATURAL RUBBER
001
506
<
.01
57.11
23.
.01
323
PV ALCOHOL
102
100
8.00
23.
.03
323
VITON
009
118
>
8.00
23.
.02
323
BUTYL
014
118
.53
239.28
23.
.06
323
NITRILE
019
118
.22
54.71
23.
.04
323
PV ALCOHOL
102
100
>
8.00
23.
.02
323
VITON
009
118
>
8.00
23.
.03
323
BUTYL
NATURAL RUBBER
PVC
VITON
Bromoacetonitri le
005901700
Bromàbenzene
001088610
1 -Broino2- propanol
196867380
23. .06 323
45.69 23. .01 323
- 23. .02 323
23. .02 323
A- 12
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
PERMEATION RATE TEMP THICKNESS REF
UG ,/CM**2 ,IMIN DEC C CM HUM
tert-Butanot (Methytpropanot , 2- ,2-)
000756500 SUTYL
NATURAL RUBBER
NEOPRENE
PVC
3-Bromo-1 -propanol
006271890 BUTYL
NEOPRENE
PV ALCOHOL
VITON
Butadi ene
001069900 BUTYL
NATURAL RUBBER
NEOPRENE
PVC
VI TON
014 118
018 100
102 100
009 118
014 118
001 250
018 100
003 100
009 118
> 8.00
> 8.00
> 8.00
>, 8.00
> 8.00
• .02
.78
.02
> 8.00
.06
23. .05
23. .03
23. .02
323
323
323
323
23.
637.27 23.
1.80 23.
126.25 23.
23.
.07 323
.02 323
.05 323
.02 323
.05 323
• Butyt Acetate
001238640
.07
• 02
‘.05
.02
323
323
323
323
014 118 > 8.00
001 250 .02
018 100 2.75
007 100 .08
014 118 1.90
1.53
001 210 .13
017 100 .07
102 .07
.07
.07
.07
120 .03
502 .11
504 .13
BUTYL
NATURAL RUBBER
NEOP+NAT RUBBER
NEOP/NAT RUBBER
NEOPRENE
NITRILE
23’.
18.04 ‘.23...
.05 ‘ 23.
18.04 23.
45.76 23.
.04
227
36.07 ‘23.
.05
086
216.43 23..
080
1,402.80 25. ‘
.03
222
72.14 23.
.05
026
72.14 23.
.05
026
72.14 23. ‘
.05
026
72.14 23.
.05
026
2,905.80 25.
.02
‘ 222
941.88 25.
.05
222
881.76 25.
.05
222
.23
511.02 25.
.06
222
.11
641.28 25.
.05
222
.07
72.14 23.
.06
026
.07
72.14 23.
.04
026
.07
72.14 23.
.05
026
.07
.15
72.14 23. ‘
61.28
25,. .05
026
222
.
.09
.06
•
,
220.44 25.,
320.64 25..
.08
.O7
222
‘222
.25
72:14 23.
080
‘
>
.32
1.00
<
210.42 ‘ 23.
21.04, 25
, .06
‘ .08
086.
222s
.48
320.64 25.
.05,
222’
‘
.87
320.64 25.
.07
222
>
1.00
<
21.04 25.
.05
222
‘
.18
831.66 25.
.03
222
1.33
90.18 23.
080
.55
480.96 25.
.04
222
1.25
90.18
-
901.80 23.
.06
107
.97
250.50 25.
.06
222
.67
450.90 ‘25.
.04
026 102
008 102
114
002 ‘ ‘ ¶00 , •
120
210
018 100
118
120
005 210
019 100
A- 13
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
Butyt Acrytate
001413220 TEFLON
069 510
BREAKTHROUGH’ TIME
HOURS
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEG C CM NUM.
CHEMICAL NAME/ RESISTANT
CASNO MATERIAL
001238640 NITRILE
NITRILE+PVC
PE
PV ALCOHOL
PVC
SILVER SHIELD
TEFLON
VITON
PRODUCT ‘VENDOR
DESC CODE
019 ‘ 100
118
120
503
020 503
057 210
006 100
505
512
076 100
004 100
003 120
500
501
007 210
122 118
069 510
009 ‘ 118
102.20 23.
327.05 23.
300.60 23.
217.10 23.
350.70 25.
150.30 23.
60.12 23.
20.04 25.
6.01 25.
66.13 23.
9.02 - 90.18 23.
.90 23.
6,012.00 25.
6,913.80 25.
3;3O6.60 25.
4,308.60 25.
25.
6,412 8O 25.
4,108.20 25.
72.14 23.
23.
.02 23.
318.97 23.
1.08
.48
.25
.53
.33
.32
.67
.03
.20
.03
.17
6.00
.02
.02
.04
.03
.01
.03
.03
.33
> 6.00
> 3.00
.23
> ‘‘ 3.00
2.00
.25
.58
> 8.00
6.00
4.00
6.00
> 6.00
6.00
.58
> 6.00
• 8.00
.50
> ‘ 8.00
> 4.00
3.00
2.00
.42
> 15.60
1.73
.50
1.00
.06 086
.04 “227
.04 ‘086
.05 086
.03 222
.04 086
080
.01 222
.01 222
.01 086
107
107
.01 222
.01 222
.03 222
.02 222
.01 . 222
.01 222
.02 222
080
.01’ 227
.05’ 303
.04 086
.05 303
080
.05 107
.05 237
107
080
.04 107
080
.06 107
080
107
107
104
107
123
124
107
080
107
107
.05 303
.10 323
142
142
Butyt ALcohoL (Butanot, 1)
000713630 NATURAL RUBBER
NEOP+NAT RUBBER
NEOPRENE
NI TRI LE
NITRILE+PVC
PE
PV ALCOHOL
PVC
TEFLON
Butytamine
001097390 BUTYL
CPE
001 210
017 100
026 121
002 100
210
018 100
005 210
019 100
057 210
058 100
076 100
127
004 100
007 100
210
077 100
069 510
014 118
060 UNK
.02 23.
12.02 23..
9.02 - 9018 23.
6.01 23.
.90 23.
.02 23.
.90 - ‘ 9.O2 23.
.02 23.
.90 23.
.02 23.
.90 - 9.02 23.
.90 23.
< 30.06 23.
9.02 - 90.18 23.
23.
21.
.90 - 9.02 23.
‘15.03 23.
.90 23.’
.67 9.02 - 90.18 23.
.02 23.
501.00 15.
23.
23.
A- 14
-------�
• SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
PRODUCT VENDOR
DESC CODE
RES I STANT
MATERIAL
CPE
NATURAL RUBBER
NEOPRENE
PVC
TEFLON
VI TON/CHLOROBUTYL
BREAKTHROUGH TIME
HOURS
PERMEATION RATE
UG/CM**2/MIN
TEMP THICKNESS REF
DEG C CM HUM
7,745.46
2,474.94
5,531.04
.02
23.
20.
18.
18.
23.
23.
.05
.02
.05
.02
.05
004
323
323
323
303
142
(Methytpropytamine, 2-)
BUTYL
CPE
NEOPRENE
PV ALCOHOL
- PVC
VITON/CHLOROBUTYL
BUTYL
NEOPRENE
NITRILE
PVC
BUTYL
NEOPRENE
NITRILE
60.12 28.
23.
23.
889.78 26.
23.
835.67 :23.
3,432.85 28.
23.
.09 323
142
142
.05 323
.03 213
.07 323
.02 323
142
CHEMICAL NAME!
CASNO
001097390
iso-Butytamine
000788190
sec-Butylamine
139528460
tert-Butyt amine
000756490
PVC
Butyt Cettosotve (Butoxyethanot, 2)
001117620 NITRILE
PV ALCOHOL
n-Butyt ChLoride (Chtorobutane,1-)
001096930 NITRILE
• PV ALCOHOL
• PVC
• VITON
n-Butyt Phthatate
000847420 BUTYL
NATURAL RUBBER
- NEOPRENE
NITRILE
014
018
019
007
21. .09. 323
25. .05 323
14. .04 323
24. .02 323
180.36
1,402.80
1,482.96
4,529.04
.02
360.72
240.48
3,036.06
070
UNK
.33
001
250
.02
.
018
: 100
.20
007
100
.02
069
510 .
>
• 3.00
112
UNK
.50
014
118
3.70
060
UNK
.
2.28
2.42
018
100
.32
138
117
<
.08
102
100
.32
007
100
.02
112
• UNK
1.25
014
118
2.68
018
100
.27
019
100
.33
007
100
.01
118
100
100
100
>
. 8.00
1.17
1.40
.03
•
019
100
.
.45
.
118
:
>
.35
4.00
.15
.
004
100
>
18.00
019
100
.20
661.32
23..
.05
323
004
100
>
8.00 .
<
.02
23.
.08
323
003
100
.20
2,278.55
23.
.02
323
009 .
118
7.42
3.01
23.
.05
323
014
118
>
>
16.00
16.00
23.
23.
.04
.04
323
227
017
100
.28
23.
.05
107
002
100
- 5.00
.90
.
9.02
23.
107
018
100
•
2.00
<
.90
23.
.04
107
125
103
.
<
• .02
23.
045
019
100
103
118
•
>
>
6.00
16.00
16.00
•
<
<
.90 23.
.02. 23.
23.
• 23.
.06
.03
107
045
323
15.
23.
21.
20.
.09 323
.05 323
.04 323
.02 • 323
37. .06 107
37. .06 107
22. .03 122
200.40 34. .04 122
22. .04 122
A- 15
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME/ RESISTANT
CASNO MATERIAL.
BREAKTHROUGH TIME
HOURS
PVC
SILVER SHIELD
VITON
058 100
076 100
004 . 100
102 100
077 100
122 118
009 118
> 6.00
> 6.00
> 6.00
> 16.00
> 6.00
> 6.00
> 6.00
> 8.00
> 8.00
23.
23.
.90 23.
23.
23.
23.
23.
23.
23.
107.
107
107
.03 323
107
107
.01 227
.O3 323
.02 227
NEOPRENE.
NI TR I LE
PV ALCOHOL
SILVER SHIELD
VITON
1.78
1.70
1.22
> 6.00
7.00
> 8.00
> 8.00
> 8.00
48.10 23.
48.10 23.
421.44 23.
23.
23.
23.
23.
23
.06 323
.04 227
.05 323
.04 323
.03 323
.01 227
.02 .323
.02 227
Butyra Idehyde
001237280
Carbon Disutfide (Carbon Bisutfide)
000751500 BUTYL
CPE
NEOP+NAT RUBBER
014 118
018 100
102 100
069 510
009 118
NITRILE 019
23. .07
75.75 23. .05
.78 23. .03
.02 23. .05
54.11 23. .03
591.58 23. .06 323
588.24 23. .04 227
25. .07 302
23. .05 004
23. .05 237
23. .06 107
23. .04 323
23. .04 227
90.18 23. 107
.90 23. 107
23. .03 323
.05 23. .05 303
.07 23. .05 303
.05 23. .05 303
24. .05 303
24. .05 303
24. .05 303
24. .05 303
23. .03 323
23. .02 227
25. .04 302
Carbon Tetrachtoride (Tetrachlorornethane)
000562350 CPE
060 - 113
3.48
3.45
23. .05 - 204
78.16 23. .05 204
PRODUCT VENDOR
DESC CODE
000847420 NITRILE+PVC
PE
PV ALCOHOL
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/M IN
DEG C CM NUM
p-tert-Butyt Totuene
271302120 BUTYL
014 . 118
018 100
019 100
102 100
122 118
009 118
BUTYL
NEOPRENE
PV ALCOHOL
TEFLON
VITON
323
323
323
303
323
.13
15.00
.73
.27
>
7.50
.90
014
118
.05
.12
060
113
070
UNK
026
121
.
100
118
PE
,
076
100
>
>
.12
PV ALCOHOL
004
102
100
100
6.00
16.00
TEFLON .
069
510
.36
,
.
.34
.30
.22
.22
.
VITON .
VITON/CHLOROBUTYL
009
112
•
,
118
113
>
.18 .
.60
.60
16.00
16.00
.25
.17
.13
.02 889.78
.50 90.18 901.80
.15 306.61
.22 306.61
9.02
A- 16
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
000562350 NATURAL RUBBER
NEOP+NAT RUBBER
NEOP/NAT RUBBER
NEOPRENE
SILVER SHIELD
TEFLON
VITON
PRODUCT VENDOR
DESC CODE
017 100
120
502
504
026 102
008 114
002 100
120
UNK
018 : 118
120
UNK
118
181
503
UNK
058 100
006 100
505
076 100
004 100
UNK
102 100
003 120
.17
> 1.00
.57
.14
.32
.24
> 1.00
> 1.00
> 1.00
3.40
> 1.00
> 1.00
> 3.33
> 3.33
.05
.03
.13
.08
> 6.00
> 3.33
> 8.00
.01
.03
.14
.04
.02
.02
.02
.42
.22
.66
.51
.12
.25
> 6.00
> 3.00
> 13.00
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2!MIN DEG C CM NUM
.03 222
.02 222
.05 222
.05 222
.06 222
.05 222
.05 222
.08 222
.07 222
.11 333
.08 333
.08 222
.05 222
.07 222
.05 222
.03 - 222
.05 333
.05 333
.04 333
.04 222
.06 107
.06 222
.04 222
.04 227
.03 222
.03 222
.04 333
.04 333•
107
.01 222
.01 222
107
107
.09 333
.04 323
.01 222
.01 222
.03 222
.02 222
.01 222
.01 222
.02 222
107
.11 333
.1•1 333
.10 333
107
107
.01 227
.05 303
.02 227
BREAKTHROUGH TIME
HOURS
019 100
NITRILE
NITRILE+PVC
PE
PV ALCOHOL
PVC
.06 1,603.20 25.
.03 6,012.00 25.
.08 5,110.20 . 25.
.50 801.60 25.
.18 1,603.20 25.
.07 4,609.20 25.
17 3,106.20 25.
.50 . 100.20 25.
.08 501.00 25.
.24 300.60 22.
619.24 22.
6.01 25.
801.60 25.
.68 901.80 25.
.38 901.80 25.
.22 801.60 25.
2,244.48 22.
1,756.51 22.
1,997.99 22.
6.01 25.
2.50 9.02 . 90.18 23.
< -1,669.98 25.
6.01 25.
30.06 23.
6.01 25.
6.01 25.
22.
22.
9.02 . 90.18 23.
501.00 25.
80.16 25.
9.02 - 90.18 23.
.90 23.
3.01 22.
23.
1,002.00 25.
2,004.00 25.
601.20 25.
801.60 25.
2,104.20 25.
2,505.00 25.
2,004.00 25.
90.18 - 901.80 23.
496.99 22.
203.41 22.
250.50 22.
9.02 -. 90.18 23.
9.02 - 90.18 23.
23.
.02 23.
23.
500
501
007 100
UNK
077 100
122 118
069 510
009 118
ChLorine
A- 17
-------�
SUMMARY. OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
077825050 .BUTYL
BUTYL/NEOPRENE
NEOPRENE
PE
PVC.
SARANEX
VITON
VITON/NEOPRENE
PRODUCT VENDOR
DESC CODE
064 117
110 117
093 117
138 117
139 117
076 117
049 117
053 117
061 117
145 117
111 117
BREAKTHROUGH TIME
HOURS
8.00
> 8.00
> 8.00
> 8.00
> 8.00
> 8.00
> 8.00
.08
.92
.08
.08
> 8.00
> 8.00
> 8.00
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEG C CM NUM
23.
.02 213
23. .01 213
23. .02 213
23. .02 213
23. .02 213
23. .03 213
23. .02 213
23. .01 213
23. .01 213
23. .01 213
23. .02 213
23. .01 213
23. .01 213
23. .02 213
Chtoroacetic Acid
000791180 PE
BUTYL
NATURAL RUBBER
PV ALCOHOL
VITON
NITRILE
PV ALCOHOL
PVC
002 UNK
018 UNK
019 UNK
004 UNK
007 UNK
.10
.06
.12
16.67
.08
.09
.07
.08 333
.11 333
22. .04 333
22. .05 333
.05 333
.04 333
.04 333
.09 333
.11 333
.10 333
.11 333
SARANEX
ChtoroacetonitriLe
001071420
Ch Lorobenzene
001089070
BUTYL
. 014
NEOPRENE
002
NITRILE
•
005
019
PE
PV ALCOHOL
076
004
102
118
UNK
229
120
PVC
100
100
100
076
127
>
8.00
23.
104
.08
65.
104
061
127
1.00
65.
104
014
118
8.00
23.
.06
323
001
506
<
.01
75.75
23.
.01
323
102
100
.
8.00
23.
.03
323
009
118
8.00
23.
.03
323
007
•
100
,
.
,
.58
.18
.21
.25
. .07
.25
8.00
.03
90.18
9.02
.
-
-
<
3,086.16
.
940.21
960.25
901.80
90.18
.02
3,757 5O
23.
23.
23.
23.
23.
23.
23.
23.
.07
.05
.11
.04
.08
.02
323
186
210
210
107
107
323
323
UNK
>
>
.15
.31
3.00
4.00
8.00
<
<
.02
.02
23.
23.
23.
23.
23.
.05
.07
.05
.03
.03
186
186
303
210
323
1,764.52
783.56
22.
22.
TEFLON
069
510
VITON
009
118
2-Chtoro-1,3-butadiene (Chioroprene)
001269980 NEOPRENE
.05
.05
.07
.11
3,164.32 22.
2,329.65 22.
2,077.15 . 22.
22.
669.34 22.
851.70 22.
954.91 22.
A- 18
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
PRODUCT VENDOR BREAKTHROUGH TIME
DESC CODE HOURS
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEG C CM NUM
3-Chtoro-2-methytpropene
3.27
.60
.03
> 8 0O
Ch Lorodi bromomethane
001244810 BUTYL
PV ALCOHOL
-PVC
VITON
ChLoroform (Trichtoromethane)
000676630 CPE
NATURAL RUBBER
NEOP+NAT RUBBER
NEOP/NAT RUBBER
NEOPRENE
149.75 23.
.02 23.
1,106.21 ‘23.
23
.10 323
.07 323
.02 323
.04 323
031
NITRILE 019
.50
. 8
25.
.07
302
.20
23.
.05
004
.03
4,008.00
25.
.03
222
.01
, 15,030.00
25.
.02
222
.04
7,615.20
25.
.05
222
.05
5,611.20
25.
.05
222
•
.05
7,014.00
25.
.06
222
.05
.11
.O2
.01’
.36
.16
,
‘
7,014.00
4,408.80
2,705.40
6,813.60,
2,004.00
3,206.40
2,805.60
2,505.00
4,408.80
•,
9,418.80
25.
25.
25. ,
25.
25.
25.
25.
25.
25:
23.
25. ,
.05
.05
.08
.07
.08
.05
.07
.05
.03
‘ .04
‘ .04
222
222
222
222
222
222
222
222
222
187
222
.07
.16
.01
•
5,611.20
9,919.80
2,116.22
7,014.00’
1,603.20
‘25.
25.
23.
25.
23.
25.
.06
.04
.04
‘.03
.05
.01
222
222
227
222
187
222
.05
,
25.
.01
222
UNK
100
012 118
004 100
003 100
009 118
060 113
070 UPIK
017 100
120
502
504
026 ‘102
008 114
002 100
120
018 118
120
118
503
033 UNK
006 100
505
056 UNK
076 100
127
004 100
102 100
003 120
500
501
049 UNK
061 127
122 , 118
069 510
009 118
112 113
.23
.17
.06
.20
.08
.21
.04
.07
PE
PV ALCOHOL
PVC
SARANEX
SILVER SHIELD
TEFLON
VITON
VI TON/CHLOROBUTYL
.07
.10
.02
> 6.00
> 8.00
.01
.01
.01
.01
.01
.01
.01
.14
.02
.17
>, 3.60
9.50
> 3.OO
23. p.01 187
9.02 - 90.18 23. 107
348.70 23. 104
.90 ‘ 23. S 107
23. .03 323
15,030.00 25. .01 222
> 16,699.98 25. ‘ .01 222
5,410.80 25. .03 222
11,022.00 25. .02 222
15,030.00 25. .01 222
12,024.00 ‘ 25. ‘ .01 222
13,026.00 25. .02 222
23. .03 187
201.40 23. ‘ 104
.05 23. .01 227
<‘ .0223. .05 303
2.77 23. .02 227
25. .04 302
A- 19
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT PRODUCT VENDOR BREAKTHROUGH TIME PERMEATION RATE TEMP THICKNESS REF
CASNO MATERIAL DESC CODE HOURS UG/CM**2/MIN DEG C CM NUM
005634730 BUTYL 014 118 .50 120.24 23. .06 323
PV ALCOHOL 004 100 .03 80.16 23. . .04 .323
PVC 007 100 .01 120.24 23. .02 323
VITON 009 118 . 3.83 30.06 23. .03 323
ChLoronaphthatenes (aLL isomers)
255864300 NITRILE 019 118 2.90 7.93 23. .04 227
PV ALCOHOL 004 100 > 6.00 .90 23. 107
SILVER SHIELD 122 118 > 8.00 23. .01 227
VITON 009 118 > 16.00 < •1,669.98 23. .02 227
2-Chtoro-2-nitropropane
005947180 BUTYL 012 118 > 8.00 .02 23. .09 323
NATURAL RUBBER 017 506 .02 270.54 23. .02 323
PV ALCOHOL 004 100 > 8.00 .02 23. .07 323
VITON 009 . 118 2.05 120.24 23. .04 323
1Chtoro-2-propanot
001270040 BUTYL . 014 118 > 8.00 23. .06 323
NATURAL RUBBER 001 506 .01 23. .01 323
PVC . 003 100 .02 230.86 23. .02 323
VITON 009 118 > 8.00 23. .03 323
3-Chtoro-1-propanot
006273050 BUTYL 014 118 > 8.00 23. .06 323
PV ALCOHOL 102 100 .80 92.58 23. .04 323
PVC 003 100 .18 409.42 23. .02 323
VITON 009 118 > 8.00 23. .03 323
ChLorosutfonic Acid
077909450 PE 076 127 1.05 23. 104
SARANEX 061 127 5.83 23. 104
o-Chtorototuene
000954980 NITRILE 005 229 .29 1,163.99 23. .11 210
019 120 .88 988.64 23. .04 210
VITON 009 118 > 4.00 23. .03 210
p-Chtorototuene
001064340 NITRILE 005 229 .25 1,224.11 23. .11 210
019 120 .42 890.11 23. .04 210
VITON 009 118 > 4.00 23. .03 210
Chromic Acid
111157450 NATURAL RUBBER 001 210 1.17 23. .080
NEOPRENE 002 210 1.25 23. 08
NITRILE 005 210 6.00 .02 23. 080
NITRILE+PVC 057 210 6.00 .02 23. 080
058 100 6.00 23. 107
PE 076 100 > 6.00 23. 107
PVC 007 aio 6.00 .02 23. 080
077 100 > 6.00 23. 107
> 6.00 23. 107
A- 20
-------�
Chromic Acid, 30-70%
111157452
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME/ RESISTANT
CASNO MATERIAL
PRODUCT
DESC CODE
VENDOR
BREAKTHROUGH
HOURS
TIME
PERMEATION RATE TEMP
UG/CM**2/MIN DEG C
THICKNESS
CM
REF
NUM
Chromic Acid, <30%
111157451 NEOP+NAT RUBBER
026
121
>
8.00
<
.02
23.
.05
237
NITRILE
019
100
4.00
23.
.06
107
PVC
007
100
>
6.00
23.
107
Citric Acid, <30%
000779291 NATURAL RUBBER
017
100
>
6.00
23.
.05
107
NEOPRENE
NITRILE
002
018
019
100
100
100
‘>
>
>
6.00
6 00
6.00
23.
23.
23.
.04
.06
107
107
107
NITRILE+PVC
058
100
>
6.00
•
23.
107
PE
076
100
>
6.00
23.
107
PV ALCOHOL
004
100
.83
23.
107
PVC
007.
077
100
100
>
>
>
6.00
6.00
6.00
23.
23.
23.
107
107
107
Creosote
.
.
080015890 BUTYL
034
UNK
>
90.00
22.
.08
078
NEOPRENE
031
UNK
4.50
22.
.08
078
VITON
032
UNK
>
96.00
.
22.
.04
078
Creosote, Wood
.
080213940 NEOPRENE
018
100
>
4.00
23.
.05
123
VITON
.
009
118
>
1900
23.
.03
123
m-CresoL
.
001083940 NATURAL RUBBER
017
100
120
502
504
>
>
.60
.23
.50
1.00
1.00
‘
15.03
2.00
1.00
1.00
25.
25.
25.
25.
25.
.03
.02
.05
.05
.06
222
222
222
222
222
NEOP+NAT RUBBER
026
102
.50
2.00
25.
.05
222
NEOP/NAT RUBBER
008
114
•
>
1.00
1.00
25.
.05
222
NEOPRENE
002
018
100
118
120
>
>
>
>
>
>
1.00
1.00
1.00
1.00
1.00
1.00
1.00
1.00
1.00
1.00
1.00
1.00
25.
25.
25.
25.
25.
25..
.08
.08
.05
.07
.05
.03
222
222
222
222
222
222
NITRILE
PE
019
.
006
100
503
100
505
>
>
>
>
>
>
1.00
1.00
1.00
1.00
1.00
1.00
<
1.00
1.00
1.00
1.00
1.00
.10
25.
25.
25.
25.
.25.
25.
.04
.06
.04
.03
.01
.01
222
222
222
222
222
222
PVC
003
120
>
.20
.23
1.00
.23
. .
67.13
59.12
1.00
63.13
25.
25.
25.
25.
.01
.01
.03
.02
222
222
222
222
A- 21
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
001083940 PVC
Cresots
TEFLON
PRODUCT VENDOR
DESC CODE
003 500
069
501
510
BREAKTHROUGH TIME
HOURS
.13
.13
.12
> 4.00
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEG C CM NUM
44.09 25. .01 222
55.11 25. .01 222
56.11 25. .02 222
.02 23. .05 303
Crotonatdehyde (Butenat,trans-2)
041703030 BUTYL
Cumene (Methytethyt Benzene)
000988280 CPE 070
.67 - 1.00
> 2.00
.40 23.
.13 23.
013197730 PE
SARANEX
076. 127
061 127
014 118
CPE
NEOPRENE
PV ALCOHOL
TEFLON
VITON
070
018
102
069
009
UNK
‘100
100
510
118
8.00
.63
.35
.01
> 3.10.
.12
Cyc L ohexane
001108270
BUTYL
NATURAL RUBBER
NEOP+NAT RUBBER
NEOPRENE
NITRILE
NITRILE+PVC
RE
PV ALCOHOL
PVC
104
23.
.07
323
23.
.05 004
<
209.22
23.
.05
323
57.72
23.
.03
323
.02
23.
.05
303
313.83
23.
.03
323
UPIK
1.30
23.
.
.05
004
.
1.15
1.10
122.04
122.04
23.
23.
.07
.04
323
227
•
>
.10
.03
.13
.16
.30
.08
.16
.10
.95
1.00
.48
‘1.20
6.00
•
<
.
<
2,044.08
10.02
1,503.00
1,302.60
1,102.20
801.60
1,402.80
70.14
1,082.16
.18
10.02
100.20
100.20
.02
23.
25.
25.
25.
25.
25;
25.
25.
23.
23.
25.
25.
25.
23.
.03
.02
.05
.05
.06
.05
.07
.04
.05
.05
.03
080
222
222
222
222
222
222
222
080
323
222
222
222
080
>
>
>
>
>
6.00
1.00 -
‘‘1.00
1.00
1.00
1.00
3.00
.03
<
<
<
<
<
‘
10.02
1.00
1.00
1.00
10.02
12.02
100.20
23.
25.
25.
25.
25.
25.
23.
25.
.04
.04
.06
.04
.03
.03
.01
323
222
222
222
222
222
080
222
.17
.78
<
28.06
.02
25.
23.
.01
.03
222
323
.03
.06
.27
501.00
340.68
100.20
25.
25.
25.
.01
.01
.03
222
222
222
.09
200.40
25.
.02
222
500
.03
310.62
25.
.01
222
501
.01
450.90
25.
.01
222
014 118
001 210
017 100
120
502
504
026 102
002 120
210
018 100
120
005 210
019 100
181
503
057 ‘ 210
006 100
505
102 . 100
003 120
A- 22
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
NEOP+NAT RUBBER
NITRILE
PV ALCOHOL
SILVER SHIELD
VITON
> 16.00
> 16.00
.28
.48
> 7.00
> 6.00
.48
23. .05 323
23. .04 227
132.26 23. .05 237
518.84 23. .03 227
23. .03 323
23. .01 227
518.84 23. .03 323
Decanat (aLL isomsers)
001123120 BUTYL
064 117
> 8.00
> 8.00
•> 8.00
23. .02 213
23. .01 213
23. .02 213
RESISTANT
MATERIAL
PVC
SILVER SHIELD
TEFLON
VITON
BREAKTHROUGH TIME PERMEATION RATE TEMP THICKNESS REF
HOURS UG/CM**2/MIN DEC C CM NUM
PRODUCT VENDOR
DESC CODE
003 501
007 210
122 118
069 510
009 118
014 118
BUTYL
300.60 25.
216.43 23.
23.
.02 23.
23.
23.
CHEMICAL NAME/
CASNO
.001108270
Cyc I ohexano L
001089300
NEOPRENE
NITRILE
NITRILE+PVC
PE
PV ALCOHOL
PVC
SILVER SHIELD
VITOM
Cyc I ohexanone
001089410 BUTYL
017
100
002
100
210
018
100
UNK
031
511
005
210
019
100
118
.04
.55
> 6.00
> 3.40
7.00
> 7.00
> 11.00
> 11.00
.42
.25 9.02
3.00
• 3.00
2.50 .90 -
‘ 8.00
8.00 ********
6.00
> 6.00
> 16.00
> 16.00
6.00
.25 .90
> 6.00
6.00
16.00
6.00
6.00
1.00
> 6.00
> 6.00
> 8.00
> 8.00
.O2 222
080
.01 227
.05 303
.02 323
.02 227
.07 323
.04 227
080
.05 107
107
080
.04 107
.08 323
.01 323
080
.06 107
.03 323
.04 227
080
107
107
107
.03 323
107
080
107
107
.01 227
.03 323
.02 • 227
72.14
90.18
.90
60.12
9.02
-1,669 .98
.02
.90
.02
9.02
.90
.90
9O
.02
.90
.90
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
-23.
23.
23.
23.
23.
057 210
058 100
076 100
004 100
102 100
007 • 100
210
077 100
122 118
009 118
014 118
026 121
019 118
102 100
122 118
009 118
CycLohexytamine
001089180
•
118
2.93
290.58
20.
.06
323
NATURAL
RUBBER
• 001
250 .
.02
8,977.92
20.
.02
323
NEOPRENE
018
100
.60
1,322.64
22.
.05
323
NITRILE
019
100 •
1.02
A—23
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME/ RESISTANT PRODUCT VENDOR BREAKTHROUGH TIME PERMEATION RATE TEMP THICKNESS. REF
CASNO MATERIAL DESC CODE HOURS UG/CM**2/MIN DEG C CM NUM
001123120 BUTYL/NEOPRENE 110 117 2.50 23. .02 213
NEOPRENE 093 117 4.00 23. .02 213
138 117 > 8.00 23. .03 213
139 117 > 8.00 23. .02 213
PE 076 117 8.00 23. .01 213
PVC 049 117 .08 23. .01 213
SARANEX 061 117 > 8.00 23. .01 213
VITON 145 117 > 8.00 23. .01 213
VITON/NEOPRENE 111 117 > 8.00 23. .02 213
Diall.yamine
001240270 BUTYL 014 118 3.33 90.18 21. .09 323
PV ALCOHOL 004 100 7.08 20.04 23. .08 323
PVC 007 100 .02 2,364.72 22. .02 323
VITON 009 118 4.62 19. .03 323
1,3 -0 iaminopropane
C01097620 BUTYL 014 118 8.00 .02 22. .06 323
NATURAL RUBBER 001 250 .05 440.88 25. .02 323
NEOPRENE 018 100 4.53 33.40 23. .05 323
PVC 007 100 .11 103.54 21. .02 323
Di -n-amyt amine
020509220 NEOPRENE 018 100 2.15 110.22 16. .05 323
NITRILE 019 100 8.00 .02 20. .04 323
PVC 007 100 .12 280.56 13. .02 323
VITON 009 118 > 8.00 .02 16. .03 323
Dibutylamine
001119220 NITRILE 019 100 > 8.00 .02 24. .04 323
PV ALCOHOL 102 100 8.00 .02 23. .08 323
PVC 007 100 .05 741.48 20. .02 323
VITON 009 118 8.00 .02 20. .03 323
DichLoroacetyl Chloride
000793670 BUTYL 014 118 3.92 72.14 23. .09 323
PV ALCOHOL 102 100 3.47 23. .07 323
PVC 003 100 .03 438.88 23. .02 323
VITON 009 118 > 8.00 23. .03 323
Di th orobenzene
253212260 CPE 070 UNK .65 23. .05 004
2D ich1o:abenzerie
DCO 5 0i0 NITRILE 005 229 .33 1,015.36 23. .11 210
019 120 .63 1,140.61 23. .04 210
VITON 009 118 4.00 23. .03 210
- Ci .h orobenzene
NITRILE 005 229 .28 1,130.59 23. .11 210
019 120 .50 1,157.31 23. .04 210
VITON 009 118 4.00 23. .03 210
A- 24
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME/ RESISTANT PRODUCT VENDOR BREAKTHROUGH TIME PERMEATION RATE TEMP THICKNESS REF
CASNO MATERIAL DESC CODE HOURS UG/CM**2/MIN DEG C CM NUM
Dichtorobromomethane
000752740 BUTYL 014 118 .68 1,897.80 23. .07 323
PVC 007 100 .02 6,943.86 23. .02 323
VITON 009 118 7.83 .37 23. .03 323
VITON/BUTYL 100 102 1.78 .02 23. .08 323
1,4Dichtoro-2-butene
001105760 BUTYL 064 UNK > 24.00 23. .07 334
CPE 060 UNK .58 400.80 23. .05 334
070 UNK .75 23. .05 004
NEOPRENE 002 UNK 1.10 22. .12 333
.77 22. .10 333
.22 22. .08 333
.17 22. .07 333
.57 118.24 22. .11 333
.36 51.10 22. .08. 333
.45 31.06. 23. .10 335
.68 27.05 23. .12 335
.80 27.05 23. .14 335
018 UNK .49 126.25 22. .05 333
.37 22. .05 333
.35 22. .05 333
.26 22. .04 333
.23 41.08 22. .05 333
.30 38.08 23. .04 335
031 UNK 1.38 80.16 23. .14 334
.97 80.16 23. .13 334
1.23 121.24 23. .13 334
081 UNK 1.97 101.20 23. •15 335
3.35 40.08 23. .18 335
2.97 41.08 23. .20 335
1.60 121.24 23. .14 335
.92 113.23 23. .14 335
NITRILE 019 UNK .43 156.31 23. .04 335
.33 22. O4 333
.27 22. .04 333
.33 22. .04 333
.44 156.31 22. .04 333
078 UNK .04 330.66 23. .03 334
PE 006 . UNK > 24.00 23. .01 334
075 UNK .04 33.07 23. .03 334
076 127 1.25 23. 104
UNK > 24.00 23. .01 334
PV ALCOHOL 004 UNK 83.33 22. .09 333
PVC 007 UNK .37 22. .11 333
.58 72.14 22. .11 333
.52 108.22 22. .10 333
.58 87.17 22. .11 333
.60 22. .12 333
.58 31.06 23. .10 335
.50 30.06 23. .11 335
049 UNK .10 38ü.76 23. .05 3.4
A-25
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
cis-DichLoroethytene
001565920 BUTYL
1 ,2-Dichtoroethytene
005405900 NITRILE
trans-1,2DichLoroethytene
001566050 BUTYL
PV ALCOHOL
> 5.70
> 3.00
.12
.23
.01
.95
781.56 29.
.50 23.
841.68 23.
50.10 23.
23. .05 204
480.96 23. .05 204
23. .05 004
.02 23. .05 303
Dichtoropropane (aLL isomers)
266381970 CPE
TEFLON
070 UNK
069 510
.60
> 3.10
23. .05 006
.02 23. .05 303
D ichLoropropane-D I chLoropropene
080031980 TEFLON
069 510
3.00
.02
23. .05 303
2,3 DichLoro1-propene
000788860 BUTYL
PV ALCOHOL
PVC
VITON
BREAKTHROUGH TIME
HOURS
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
001105760 PVC
SARANEX
VITON
DichLoroethane
013002160 TEFLON
PERMEATION RATE TEMP THICKNESS REF
UG!CM**2,IMIN DEC C CM HUM
.05
2.87
.06
.09
.13
.02
6.43
2.73
> ‘24.00
> 8.30
> 24.00
370.74 23.
144.29 23.
400.80 23.
250.50 23.
330.66 23.
430.86 23.
81.16 23.
122.24 23
23.
23.
23.
.02 23.
.02 25.
2,925.84 23.
3,547.08 23.
3,316.62 23.
30.06 23.
PV ALCOHOL
PVC
VITON
PRODUCT VENDOR
DESC CODE
049 UNK
053 UNK
077 ‘‘ UNK
083 UNK
061 UNK
009 UNK
090 UNK
069 510
014 118
004 100
007 100
009 118
019 ‘ 100
004 100
007 ‘ 100
009 118
014 118 .13
004 100 ‘ 2.63
007 100 .02
009 118 1.18
060 113 1.20
1.45
070 LiNK 1.33
069 510 > 3.00
.32
.08
.02
1.68
.04 334
.20 334
.03 334
.05 334
.05 334
.02 334
.26 335
.20 335
.02 334
.03 335
.02 334
.05’ ‘ 303
.05 303
.07 323
.05 ‘ 323
.02 323
.03 323
.04 323
.04 323
.02 323
.03 323
.06 323
.09 323
.02 323
.03 323
PV ALCOHOL
PVC
VITON
PVC
VITON
2,2’-Dichtoroethyt Ether
001114440 CPE
TEFLON
14,739.42
1,142.28
6,262.50
20.04
23.
23.
23.
23.
014
118
1.90
102
100
>
8.00
<
.02
23.
.09
323
007
‘
100
.02
5,330.64
23.
.02
323
009
118
>
8.00
<
.02
23.
.03
323
A- 26
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
014 118
019 118
102 100
009 118
> 8.00
8.00
> 8.00
> 8.00
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
PERMEATION RATE
UG/CM**2/MI N
TEMP THICKNESS REF
DEG C CM NUM
320.64
.02
6,513.00
.02
23.
23.
23.
23.
014
102
007
009
014
018
019
069
009
014
001
125
019
.07 323
.07 323
.02 323
.03 323
118
100
100
118
118
100
100
510
118
118
103
103
100
1.30
> 8.00
.02
8.00
> 8.00
> 8.00
> 8.00
> 3.00
> 8.00
.78
24. .09 323
22. .05 323
26. .04 323
.02 23. .05 303
27. .03 323
.75 90.18
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
1,3-Dichtoropropene
005427560 BUTYL
PV ALCOHOL
PVC
VITON
Diethanotamine
001114220 BUTYL
NEOPRENE
NITRILE
TEFLON
VITON
Diethytamine
001098970 BUTYL
NATURAL RUBBER
NEOPRENE
NITRILE
PE
PVC
SARANEX
SILVER SHIELD
VITON
VITONICHLOROBUTYL
DiethytaminoethanoL
001003780 BUTYL
NITRILE
PV ALCOHOL
VITON
Diethytenetriamine
001114000 BUTYL
NEOPRENE
PVC
VITON
Di isobutytamine
001109630 NEOPRENE
NITRILE
PV ALCOHOL
VI TON
Diisobutyl. Ketone
001088380 NATURAL RUBBER
NEOPRENE
NITRILE
NITRILE+PVC
.20
.08
.02
103
076 100
007 100.
103
061 127
122 118
009 118
112 113
460.92
23.
.09
323
534.40
23.
045
396.79.
23.
045
•
901.80
23.
.06
107
1,332.66
24.
.04
323
583.16
23.
045
90.18
.
901.80
23.
107
3,707.40.
.24.
.02
323
414.83
23.
045
.73
38.08
23.
104
>
8.00
.58
8,537.04
23.
20.
.01
.03
227
323
.45 -
.50
25.
.04
302
.02 22. .07 323
.02 22. .04 323
.02 23. .09 323
.02 22. .03 323
014 118
018 100
007 100
009 118
.02
.02
3.01
.02
24. .08 323
22. .05 323
22. .02 323
23. .03 323
018
019
102
009
001
002
005
019
057
> 8.00
> 8.00
.63
> 8.00
.87
> 8.00
> . 8.00
> 8.00
.25
.25
4.75
2.00 90.18
1.25
100
100
100
118
210
210
210
100
210
138.28 22. .05 323
20. .04 323
23. .08 323
22. .02 323
583.16
450.90
30.06
901.80.
3.01
23.
23.
23.
23.
23.
080
080
080
.06 107
080
A- 27
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT PRODUCT VENDOR BREAKTHROUGH TIME PERMEATION RATE TEMP THICKNESS REF
CASNO MATERIAL DESC CODE HOURS UG/CM**2/MIN DEG C CM MUM
001088380 PE 076 100 .08 9.02 - 90.18 23. 107
PV ALCOHOL 004 100 > 6.00 .90 23. 107
PVC 007 210 1.00 8.42 23. 080
Diisobutyl Ketone, >70%
001088383 BUTYL 014 118 3.27 247.69 23. .04 323
3.30 247.69 23. .04 227
NITRILE 019 118 2.93 294.59 23. .03 323
3.00 293.99 23. .03 227
PV ALCOHOL 102 100 > 16.00 23. .03 323
SILVER SHIELD 122 118 > 6.00 23. .01 227
VITON 009 118 1.13 544.69 23. .03 323
1.20 544.69 23. .02 227
Diisopropylamine
001081890 NEOPRENE 018 100 .67 450.90 12. .05 323
NITRILE 019 100 3.25 90.18 10. .04 323
PvC 007 100 .03 1,322.64 11. .02 323
TEFLON 069 510 > 4.50 .02 24. .05 303
VITON 009 118 > 8.00 .02 12. .03 323
N,N-Dirnethy [ acetarnide
001271950 CPE 070 UNK .67 23. .05 004
SARANEX 061 127 1.07 2.00 23. 104
D methyLamine
001244030 BUTYL 014 118 > 8.00 .02 22. .06 323
NATURAL RUBBER 001 250 .03 80.16 20. .02 323
NEOPRENE 018 100 > 8.00 .02 22. .05 323
PV ALCOHOL 102 100 .28 40.08 23. .07 323
PVC 007 100 .10 20.04 20. .02 323
D irnethylaminopropytamine
001095570 BUTYL 014 118 > 8.00 .02 16. .09 323
NATURAL RUBBER 001 250 .01 2,114.22 16. .02 323
NEOPRENE 018 100 .48 470.94 20. .05 323
PVC 077 100 .03 2,189.37 20. .02 323
atpha,atpha-Dimethytbenzyl Hydroperoxide
000801590 TEFLON 069 510 > 3.50 .02 23. .05 303
Dimethylbutylamine
001080980 BUTYL 014 118 1.68 320.64 24. .06 323
NITRILE 019 100 1.35 711.42 19. .04 323
PV ALCOHOL 102 100 .33 140.28 23. .08 323
PVC 007 100 .05 2,575.14 21. .02 323
Dimethytethanotamine -
001080100 BUTYL 014 118 > 8.00 .02 12. .09 323
NATURAL RUBBER 001 250 .08 100.20 19. .02 323
NEOPRENE 018 100 3.92 30.06 21. .05 323
NITRILE 019 100 > 8.00 .02 9. .04 323
A- 28
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL .NAME/ RESISTANT
CASNO MATERIAL
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEG C CM NUM
O imethytformarnide
000681220 BUTYL
NATURAL RUBBER
NEOP+NAT RUBBER
NEOPRENE
NITRILE
NITRILE+PVC
PE
PV ALCOHOL
PVC
012
UNK
22.00
<
.02
25.
.04
273
23.00
<
.02 . 25.
.04
273
>
71.00
<
.02
25.
.06
273
>
71.00
<
.02
25.
.06
273
>
24.00
<
.02
25.
.04
273
>
24.00
<
.02
25.
.04
273
>
24.00
<
.02
25.
.06
273
>
24.00
<
.02
25.
.06
273
>
6.00
1.20
25.
.04
273
>
>
>
6.00
7.00
7.00 -
<
<
1.20
-1,669.98
-1,669.98
25.
25.
25.
.04
.06
.06
273
273
273
014
118
>
8.00
23.
.04
323
>
8.00
23.
.04
227
107
UNK
>
8.00
25.
.04
149
>
>
8.00
8.00.
•
25.
25.
.04
.04
149
149
001
210
1.00
721.44
23.
080
017
100
.50
90.18
-
901.80
23.
.05
107
026
121
.62
66.13
23.
.05
237
002
100
1.00
9.02
.
90.18
23.
107
210
.13
96 19
23.
080
018
100
.85
66.13
23.
.05
323
.17
9.02
.
90.18
23.
.04
107
UNK
3.00
1.20
25.
.04
273
>
3.50
5.50
<
1.20
.02
25.
25.
.04
.06
273
273
>
6.00
<
.02
25.
.06
273
031
UNK
.02
.
18.04
25.
.04
149
.57
47.09
25.
.04
149
1.10
74.15
25.
.04
149
.10
20.04
25.
.04
149
125
103
54.11
23.
045
005
120
.58
54.11
23.
.06
236
210
1.00
120.24
23.
080
019
103
114.23
23.
045
118
.15
.22
>
90.18
90.18
23.
23.
.04
.04
323
227
UNK
3.50
10.82
25.
.04
273
3.50
12.02
25.
.04
273
>
5.00
10.82
25.
.
.06
273
>
5.00
1.50
10.22
132.26
25.
23.
.06
273
080
.50
<
.90
23.
107
.08
.37
.33
900.80
1,057.78
48.10
25.
25.
25.
.07
.07
.07
149
149
149
.
.12
2,191.37
25.
.07
149
102
100
.33
78.16
23.
.04
323
.20
24.65
23.
.03
323
007
210
1.00
138.28
23.
080
057
076
035
210
100
UNK
A- 29
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
000681220
SILVER SHIELD
TEFLON
VITON
VI TON/CHLOROBUTYL
PRODUCT VENDOR
DESC CODE
122 118
069 510
009 , 118
112 113
BREAKTHROUGH TIME
HOURS
> 8.00
> 11.20
.13
.13
> 3.00
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEG C CM NUM
23. .01 227
.02 23. .05 303
39.08 23. , .03 323
39.08 23. .02 227
25. .04 302
PV ALCOHOL
PVC
034 LINK
052 .,, ,. 205
060 113
017 , 100
101
110
008 114
002 100
053 189
054 189
077 168
212
009 118
> 1.50
> 1.50’
1.50
27.00
1.50
.50
.17
.23
.06
.18
.06
.10
.22
.03
.15
.15
1.12
> 1.50 -
.63
.67
.15
.23
.10
.12,
.13
.22
.68
.03
.47
.58
.28
.05
.16
.33
.53
.02
.17
.08
.20
23. .03 001
23. .04 001
23. .08 001
2.91 22. .08 078
23. .05 001
23. .05 001
23. .04 001
23. .05 001
.02 001
.04 001
.02 001
.05 001
.05 001
.04 001
.04 001
.04 001
.12 001
.13 001
.05 001
.08 078
.04 001
.04 001
.03 001
.03 001
.09 001
.05 001
.10 001
.03 001
.09 001
.11 001
.10 001
.06 001
.07 001
.05 001
.05 001
.05 001’
.04 078
.03 001’
.03 , 001
DimethyL Sulfoxide
000676850 CPE
> 3.00
1.33
1.50 . 2.00
> 1.00
1.00
25.
721.44 23.
25.
10.02 25.
.90 . 9.02 23.
.07 302
080
.02 276
.03 222
.05 107
1,1-Dimethythydrazjrie (DimethyLhydrazine,unsym-)
000571470 BUTYL , 014 ‘118
CHLOROBUTYL
CPE
NATURAL RUBBER
NEOP/NAT RUBBER
NEOPRENE
NI TR I LE
018
031
019
100
UNK
100
>
23.00
.42 -
.08
118
004 - 100
003 120
007 100
23.
23.
23.
23.
23.
23.
23.
23.
23.
23..
23.
450.90 22.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
190.38 22.
23.
23.
VITON
NATURAL RUBBER
060 113
001 210
- UNK
017 100
A-30
-------�
D i -n-octyt Phthatate
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION T ST
058 100
076 100
077 100
• .42
.08
.42
> 6.00
23.
23.
23.
.90 23.
1 ,4-Dioxane (Diethytene Dioxide,1,4)
001239110 BUTYL
NEOP+NAT RUBBER
NEOP/NAT RUBBER
NEOPRENE
.08 90.18
.04
.20
.17
107
107
107
107
23. .07 323
23. .04 227
420.84 25. .03 222
901.80 23. .05 107
801.60 25. .02 222
340;68 25. .05 222
280.56 25. .05 222
.06 222
.05 222
.05 222
.08 222
.07 222
.05 323
BREAKTHROUGH TIME
HOURS
> 1.00
> 1.00
1.00
4.00
> 8.00
PRODUCT VENDOR
DESC. CODE
017 120
203
008 114
002 100
120
210
UNK
018 100
120
005 210
019 100
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEG C CM - NUM
10.02 25. .02 222
10.02 25. .05 222
10.02 25. .06 222
25. .05 276
25. .05 276
> 3.00 9.02 90.18 23.
> 1.00 10.02 25.
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
000676850 NATURAL RUBBER
NEOP/NAT RUBBER
NEOPRENE
NITRILE
VI TONICHLOROBUTYL
DimethyLvinytchioride
005133710 . NITRILE
PV ALCOHOL
PVC
VITON
NITRILE+PVC
PE
PVC
057
006
003
191
210
100
120
107
.07 222
080
.05 186
.04 107
.05 222
.05 222
.03 222
080
.04 222
.04 276
.06 107
.03 222
080
.01 222
.01 222
.03 222
.02 222
107
6.00
1.77
> 6.00
> 1.00
1.00
> 1.00
4.33
> 1.00
2.00 . 3.00
> 4.00
.47
1.33
> 1.00
.05
.70
.57
1.17
.83
> 3.00
.15
1.18
.02
2.22
.02 23.
23.
.90 23.
10.02 25.
10.02 25.
10.02 25.
.5.41 23.
10.02 25.
25.
.90 - 9.02 23.
350.70 25.
4.81 23.
10.02 25;
380.76 25.
300.60 25.
320.64 25.
.90 • 9.02 23.
6.01 23.
354.71 23.
6.01 23..
420.84 23.:
24.05 23.
007 100
210
112 113
019 100
004 100
003 100
009 118
080
25. .04 302
001178400 NITRILE+PVC
PE
PVC
.05 323
.08 323
.02 323
.04 323
NATURAL RUBBER
014 118 20.00
> 20.00
017 100 • .15.
120
502
504
026 102
008 114
002 100
120
018 100
.45
.28
.30
.14
.09
.27
150.30 25.
340.68 25.
220.44 25.
220.44 25.
330.66 25.
560.92 23.
A- 31
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
Dipropytamine
001428470 TEFLON
1,430.86
1,430.86
2,703.60
23. .05 323
23. .04 227
23. .04 323
23. .03 323
23. .01 227
23. .02 323
23. .02 227
23. .04 291
23. .04 291
23. .04 291
23. .04 291
.07 323
.07 323
.08 078
.02 323
.02 323
BREAKTHROUGH TIME
HOURS
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEG C CM NUM
PRODUCT VENDOR
DESC CODE
018 118
120
125 103
019 100
103
118
503
006 100
505
076 100
102 100
003 120
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
001239110 NEOPRENE
NITRILE
PE
PV ALCOHOL
PVC
SARANEX
SILVER SHIELD
TEFLON
VITON
150.30 25’.
300.60 25.
240.48 25.
370.74 25.
551.10 25.
360.72 23.
861.72 25.
3.01 25.
821.64 25.
2,068.13 23.
463.53 23.
463.53 23.
711.42 25.
300.60 25.
60.12 25.
.90 ‘ 9.02 23.
23.
3,707.40 25.
4,008.00 25.
1,503.00 25.
1,102.20 25.
5,010.00 25
3,807.60 25.
4,008.00 25.
402.80 23.
17.43 23.
23.
.02 23.
161.12 23.
161.12 23.
.08 222
.05 222
.07 222
.05 222
.03 222
045
.04 222
.06 222
.04 222
045
.04 323
.04 227
.03 222
.01 222
.01 222
107
.03 323
.01 222
.01 222
.03 222
.02 222
.01 222
.01 222
.02 222
045
104
.01 227,
.05 303
.03 323
.02 227
500
501
103
127
‘118
510
118
510
007
061
122
‘069
009
069
1.78
.73
.73
.47
.25
.42
1.05
.45
.40
.47
.28
.02
.17
.05
> 16.00
.03
.01
.11
.06
.02
.02
.02
.83
> 8.00
> 3.20
.38
.38
> 3.00
2.22
2.20
1.00
> 18.00
> 8.00
> 17.00
> 17.00
24.00
24.00
24.00
24.00
> 8.00
> 8.00’
79.00
.02
.02
014 , 118
Divinyt Benzene
013217400 BUfl’L
NITRILE
PV ALCOHOL’
‘SILVER SHIELD
VITON
Epichtorohydrin
001068980 BUTYL
.02 23. .05 303
019
102
122
009’
100
100
118
118
014 118
034 ‘ UNK
NATURAL RUBBER 001 250
< -1,669.98 ‘ 23.
< -1,669.98 23.
.20 22.
5O4 34 23.
504.34 , 23.
A- 32
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME/ RESISTANT.
CASNO MATERIAL
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEG C CM NUM
Ethanotamine (Aminoethanot,2)
001414350 BUTYL
NATURAL RUBBER
NITRILE
NITRILE+PVC
PE
PV ALCOHOL
PVC
014 118
001 210
017 100
002 100
210
018 100
> 8.00
4.50
3.50
> 6.00
6.00
>• 6.00
> 8.00
6.00
> 6.00
5.00
> 6.00
> 6.00
2.50
> 6.00
> 8.00
2.00
> 6.00
> 6.00
•> . 8.00
.90 -
.04 107
20. .05 323
080
.06 107
080
107
107
107
107
.02 323
7.82 23. 080
035
102
UNK
100
.08
.05
PV ALCOHOL
SARANEX
TEFLON
VITON
001068980
NATURAL RUBBER
017
UNK
.05
130.26
23.
.02
291
.06
138.28
23.
.02
291
NEOPRENE
018
100
.33
362.72
23.
.04
291
:
.25
314.63
23.
.04
291
031
UNK
1.00 -
1.33
110.22
22.
.08
078
NITRILE
PE
020
006
503
100
.
.42
.33
.05
.05
1,252.50
1,152.30
9.45
9.74
23.
23.
23.
23
.04
.04
.01
.01
291
291
291
291
130.26
22.
.01
078
.02
127.25
105.21
23.
.23.
..05
.05
291
291
5.82
.30
23.
.07
323
5.82
.30
23.
.07
323
061
127
1.00
1.00
3.32
3.44
23.
23.
•
.02
.02
291
291
.
.95
7.00
52.30
.02
23.
23.
.
.01
104
291
7.00
.02
23.
.01
291
>
3.40
<
.02
23.
.05
303
.
1.00
51.20
23.
.02
291
1.00
51.90
23.
.02
291
1.00
50.70
23.
.02
291
2.05
2.05
6.13
6.13
23.
23.
.03
.03
323
323
1,2-Epoxybutane
001068870
BUTYL
014
118
.75
20.04
23.
.06
323
•
NEOPRENE
PV ALCOHOL
VITON
018
004
009
100
100
118
.07
8.00
.03
<
20.04
.02
20.04
23.
23.
23.
.05
.04
.03
323
323
323
036
069
009
214
510
118
NEOPRENE
26.
6.61 23.
9.02 23.
.90 23.
.02 23.
90 23.
.07 323
080
.05 107
107
080
005
019
057
058
076
004
007
210
100
210
100
100
100
100
• .02 23.
.90 23.
4.21 23.
23.
23.
.90 - 9.02 23.
.9O 23.
25.
VITON
210
077 100
009 118
23. 107
23. • 107
22. .05 323
A- 33
-------�
SUMMARYOF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME!
CASNO
RESISTANT
MATERIAL
• PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
PERMEATION RATE
UG/CM**2/MIN
TEMP THICKNESS REF
DEC C CM NUM
Ethyt Acrytate
001408850
PE
PV ALCOHOL
PVC
110 117
060 113
UNK
070 UNK
093 117
138 117
139 117
076 117
102 100
003 100
049 , 117
.02
> 8.00
.67
.88
.67
1.00
1.08 - ‘1.17
.50
1.42
.40
.08
.08
.25
.08
> 8.00
.03
.05
23.
23..
23.
23.
23.
23.
1,040.08 23.
23.
.05 004
.02 213
.03 213
.02 213
.01 213
.08 323
.02 323
.01 213
EthyL Acetate
001417860
BUTYL
014
118
7.60
CPE
060
113’
.97 -
1.17
NATURAL RUBBER
001
210
.18
017
100
‘
.08
NEOPRENE
002
100
.33
210
.20
‘
018
100
.25
NITRILE
005
210
.50
019
118
.13
NITRILE+PVC
057
210
.50
PE
076
100
.07
PV ALCOHOL
004
100
>
6.00
PVC
007 ‘
210
.33
SARANEX
061
127
.60
,
SILVER SHIELD
TEFLON
122
069
118
510
>
>
6.00
3.10
‘
VITON/CHLOROBUTYL
.
112
>
.33 .
4.30
.66
EthyL Cettosotve’ (Ethoxyethanot, 2)
001108050 BUTYL
.04 227
.07 302
080
‘.05 107
107
080
.04 107
080
.04 227
080
107
‘107
080
104
.01 227
.05 303
.05 303
.04 302
20.44 23.
25.
54.11 23.
9.02 . 90.18 23.
9.02 - 90.18 23.
48.10 23.
9.02 90.18 23.
66.13 23.
871.74 23
48.10 23.
9.02 - 90.18 23.
.90 23.
78.16: 23.
6.61 23.
23.
.02 23.
.02 24.
25.
1.20 23.
72.14 23.
49.30 23.
18.64 23.
6.01 23.
56.51 23.
54.11 23.
132.26 23.
162.32 23.
6.01 23.
113
014 118
001 103
250
506
018 100
125 103
019 100
103
102 100
007 100
103
250 250
014 • 118
064 117
23. .06 323
23. .08 323
> 8.00
> 8.00
.02
.01
4.08
1.53
.05
.07
NATURAL RUBBER
NEOPRENE
NITRILE
PV ALCOHOL
PVC
BUTYL
BUTYL/NEOPRENE
CPE
NEOPRENE
045
.02 323
.01 323
.06 323
045
.04 323
045
.08 323
.02 323
045
1,040.08 23. .02 323
23. .09 323
23. .02 213
23. • .01 213
23. .02 213
23. .02 213
25. .07 302
23. 142
23. 142
A- 34
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT PRODUCT VENDOR BREAKTHROUGH TIME PERMEATION RATE TEMP THICKNESS REF
CASNO MATERIAL DESC CODE HOURS UG/CM**2/MIN DEG C CM NUM
001408850 SARANEX 061 117 1.33 23. .01 213
TEFLON 069 510 > 17.00 .02 23. .05 303
VITON 145 117 .08 23. .01 213
VITON/CHLOROBUTYL 112 113 .23 - ‘.53 25. .04 302
UNK > 3.00 23. 142
VITON/NEOPRENE 111 117 .20 23. , .02 213
Ethyl Alcohol (EthanoL)
000641750 NATURAL RUBBER 001 210 1.50 6.01 23. 080
017 100 .47 4.01 25. .03 222
.50 .90 - 9.02 23. .05 107
120 .20 14.03 25. .02 222
• 502 1.00 4.01 25. .05 222
504 1.00 4.01 25. .05 222
• ‘ 1.00 4.01 25. .06 222
NEOP+NAT RUBBER 026 121 .37 .33 ‘ 23. .05 237
NEOP/NAT RUBBER 008 114 1.00 4.01 25. .05 222
NEOPRENE 002 100 3.00 .90 - ?.02 23. 107
1.00 4.01 25. .08 222
• 120 1.00 4.01 25. .07 ‘222
210 2.00 3.01 23. 080
018 100 1.50 .90 - 9.02 23. .04 107
118 1.00 • 4.01 25. .08 222
120 ‘ • > 1.00 4.01 25. .05 222
1.00 4.01 25. .07 222
1.00 4.01 25; .05 222
1.00 4.01 25. .03 222
031’ 511 - .82 - 1.80 23. 323
NITRILE ‘ 005 210 ‘ 6.00 .02 23. 080
019 100 1.00 4.01 25. .04 222
4.00 ‘.90 - 9 02 23. .06 107
1.00 4.01 25. .06 222
1.00 • 4.01’ 25. .04 222
503 1.00 4.01 25. .03 222
NITRILE+PVC 057 210 • 6.00 .02 23. 080
058 100 .25 .90 - 9.02 23. 107
PE 006 505 1.00 • 4.01 25. .01 222
076 100 .05 > 9,018.00 23. 107
PV ALCOHOL 004 100 1.67 55.11 23. 123
1.67 5.51 21. 124
PVC 003 120 .05 ‘ 43.09 25. .01 222
.08 37.07 25. ‘.01 222
.33 28.06 25.’ .03 222
.18 43.09 25. .02 222
500 .06 28.06 25. 01 222
501 .05 34.07 25. .01 222
.03 57.11 25. .02 222
007 100 1.00 .90 - 9.02 23. 107
210 2.50 6.01 23. 080
• 077 100 .25 .90 23. 107
.50 .90 - 9.02 23. , 107
TEFLON , 069 510 > 3.00 .02 23. .05 303
A - 35
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME!
CASNO
RESISTANT
MATER IAL
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
PERMEATION RATE
UG/CM**2/M IN
TEMP THICKWESS REF
DEG C CM NUM
Ethyl Benzene
001004140
Ethyl n butyt amine
133606390
PVC
VITON
019 100
102 100
007 100
009 118
1.22
6.72
.06
3.80
23. .08 323
.02 23. O5 303
24. ‘.04 323
23. .09 323
24. .02 323
23. .03 323
EthyL Cyanide (Propionitrite)
001071200 BUTYL
NATURAL RUBBER
PV ALCOHOL
PVC
014 118
001 506
102 100
003 100
.40
.01
> 8.00
.01
.06 323
.01 323
.03 323
.02 323
Ethylene Chlorohydrin (Chtároethanol)
001070730 BUTYL
NEOPRENE,
PV ALCOHOL
VITON
(Diaminoethane,1,2)
BUTYL
CPE
NATURAL RUBBER
NEOPRENE
PE
PVC
SARANEX
TEFLON
014 118
060 113
001 250
018 100
076 127
007 100
061 127
069 510’
> 8 O0
2.00
2.67
.08
6.65
.25
.17
> 8.00
> 3.20
36.07
501.00
20.04
10.22
80.16
.02
.02
014
019
122
069
118
118
118
510
Ethylamine, 30-70%
000750472 BUTYL
‘WITRILE
SILVER SHIELD
TEFLON
PV ALCOHOL
TEFLON
NEOPRENE
PV ALCOHOL
PVC
VITON
NITRILE
PV ALCOHOL
< -1,669.98
180.96’
36.07
.02
Ethyl Bromide
000749640
102 100
069 510
23. .04 227
23. .04 227
23. .01 227
23. .05 303
> 12.00
•1.10
‘.47
> 3.00
.55
> ‘3.00
.07
1.07
.02
1.43
018
102.
003
009
100
100
100
118
23. .04,
23. .08
23. .02
23. .04
323
323
323
323
1,322.64
.42
2,104.20
30.06
210.42
20.04
2,648.62
1,482.96
167.73 23.
79.36 23.
23.
18.04 23.
014 118
018 100
102 100
009 118
Ethylenediamine
001071530
> 8.00
‘4.98
1.85
> 8.00
.02
.70
20.04
.112
23. .06 323
23. .05 323
23. .09 323
23. .05 323
Ethylene Dibromide (Dibromoethane,1,2)
001069340 BUTYL
.02 18. .07 323
23. ‘, .05 204
23. .05 204
20. , .01 323
18. .05 323
23. 104
16. .02 323
23. 104
23. .05 303
014 118
064 117
1 .70
1 .83
3.33
.55
.38
.38
75.15
79.16
36.07
23.
23.
23.
23.
23.
23.
.04 291
.04 291
.07 323
.02 213
.01 213
.02 213
A-36
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CPE
NATURAL RUBBER
UNK
064 UNK
070 UNK
001 250
017 100
• 120
502
504
UNK
026 102
008 114
002 100
120
018 118
120
2.98
2.90
2.33
1.17
.25
.01
.01
.02
.08
.06
.16
.03
.08
.01
.03
04
.70
.27
531.06 23. .06 •323
318.64 23. .04 227
23. .06 326
23. .04 326
.05 004
.02 323
.03 222
.02 222
.05 222
.05 222
.06 222,
23. ‘ .02 326
25. .05 222
25. .05 222
25. .08 222
25. .07 222
25. .08 222
25. .05 222
RESISTANT
MATERIAL
PRODUCT VENDOR
BREAKTHROUGH TIME
PERMEATION RATE
TEMP
THICKNESS
REF
DESC
CODE
HOURS
UG/CM**2/MIN
DEG C
CM
NUN
CHEMICAL NAME!
CASNO
001069340
EthyLene Dichtoride (Dichtoroethane,1,2)
001070620 BUTYL 014
BUTYL/NEOPRENE
110
117
23.
.02
<
.08
213
CPE
070
UNK
.73
23.
.05
004
NATURAL RUBBER
017
UNK
<
.02
>
731.46
23.
.02
291
.
.
<
.02
>
731.46
23.
.02.
291
NEOPRENE
018
100
.13
>
731.46
23.
.04
291
•
.20
>
731.46
23.
.04
291
093
117
<
.33
23.
.02
213
,
125
139
103
117
.08
354.71
23.
23.
.02
045
213
NITRILE
019
103
583.16
23.
045
•
020
503
•
.58
>
731.46
23.
.04
291
.45 .
>
731.46
23.
.04
291
PE
006
100
<
.03
158.32
23.
.01
291
<
.03
141.28
23.
.01
291
076
117
.75
23.
.01
213
PVALCOH OL
102
100
>
24.00
23.
.05
291
>
24.00
23.
.05
291
.
>
8.00
23.
.08
323
PVC
007
100
.03
1,406.81
23.
.02
323
•
103
294.59
23.
045
SARANEX
049
061
117
117
.12
.55 .
‘
‘
‘23.
23.
.01
.01
213
213
.
127
.17
49.10
‘23.
.02
291
.
.13
49.10
23.
.02
291’
TEFLON
036
214
1.00
23.
.01
291
>
24.00
23.
.01
291
.
069
510
>
>
24.00
3.40
<
• .02’
23.
23.
.01
.05
291
303
.
VITON •
,
009
118
.
>
>
24.00
24.00
23.
23.
•
.02
.02
291
‘291
•
>
8.00
23.
.03
323
VITON/NEOPRENE
145. •
111
117
117
‘
.58
1.08
•
23.
23.
.01
.02
213
213
118
NEOP+NAT RUBBER
WEOP/NAT RUBBER
NEOPRENE
23.
350.70 23.
1,603.20 25.
3,106.20 25.
1,302.60 25.
2,505.00 25
801 .60 25.
1,302.60
1,302.60
701.40
801.60
• 501.00
701 .40
A- 37
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT
CASNO
MATER I AL
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
PERMEATION RATE TEMP THICKNESS REF
UGICM**2/MIN DEC C CM NUM
001070620 NEOPRENE
SILVER SHIELD
TEFLON
NEOP+NAT RUBBER
NEOP/NAT RUBBER
NEOPRENE
UNK
019 100
118
503
UNK
020 UNK
006 100
505
042 UNK
076 100
004 100
102 100
UNK
003 120
500
501
122 118
036 UNK
044 UNK
009 118
UNK
026 102
121
008 114
002 100
210
018 100
118
120
.47
.14
.06
.33
.11
.28
.12
.13
.08
.04
.04
.02
.09
.04
.05
> 3.00
> 8.00
> 8.00
5.50
.37
.01
.01
.03
.02
.01
.01
.01
> 6.00
> 24.00
1.50
6.90
> 8.00
13.67
6.00
1.00
> 6.00
> 1.00
> 1.00
> 1.00
> 1.00
> 1.00
> 8.00
> 1.00
> 6.00
> 1.00
6.00
> 6.00
> 1.00
>• 1.00
> 1.00
> 1.00
.90
.90 -
3,807.60
2,605.20
3,907.80
1,869.73
3,907.80
23.
23.
23.
• 11,022.00 25.
9,719.40 25.
4,509.00 25.
6,913.80 25.
25.
13,026.00 25.
‘7,815.60 25.
23.
23.
23.
4.88 23.
.02 23.
23.
.02 23.
<• 10.02 25.
.90 23.
< 10.02 25.
10.02 25.
10.02 25.
10.02 25.
10.02 25.
.02 23.
10.02 25.
.90 23.
10.02 25.
.02 23.
.90 23.
10.02 25.
10.02 25.
10.02 25.
10.02 25.
.02 227
.03 323
.03 326
080
.03 222
.05 107
.05 237
.05 222
107
.08 222
.04
.08
.07 222
.05 222
018 120
NITRILE
PE
PV ALCOHOL
PVC
801.60 25. .07 222
1,002.00 25. .05 222
1,803.60 25. .03 222
23. .06 326
25. .04 222
25. .06 222
25. .04 222
23. .04 227
25. .03 222
23. .02 326
23. .03 326
10.02 25. .01 222
10.02 25. .01 222
23. .01 326
9.02 23. 107
9.02 23. 107
.02 23. .03 323
.04 323
.05 • 323
.04 326
.01 222
.01. 222
.03 222
.02 222
.01 222
.01 222
.02 222
.01 227
.01 326
.01 326
VITON
Ethylene Glycot
001072110 NATURAL RUBBER
001 210
017 100
120
502
504
.02
.05
.05
.06
.05
222
222
222
222
222
080
107
222
222
A- 38
-------�
Ethylene Oxide (Oxirane)
000752180 NITRILE
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME/
CASNO
001072110
BREAKTHROUGH TIME
HOURS
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEG C CM NUM
RESISTANT
MATERIAL
NEOPRENE
NITRILE
NI TR I LE+PVC
PE
PV ALCOHOL
PVC
TEFLON
25.
23.
25.
23.
25.
25.
23.
23.
25.
25.
.23.
23.
25.
25.
25.
25.
25.
25.
25.
23.
23.
23.
23.
23.
.03 222
080
.04 222
.06 107
.04 222
.03 222
080
107
.01 222
.01 222
107
107
.01 222
.01 222
.03 222
.02 222
.01 222
.01 222
.02 222
107
080
107
107
.05 303
PRODUCT VENDOR
DESC CODE
018 120
005 210
019 100
503
057 210
058 100
006 100
505
076 100
004 100
003 120
500
501
007 100
210
077 100
069 510
019 103
034 UNK
010 - 120
014 118
001 210
002 100
210
018 100
125 103
005 210
019 100
103
118
057 210
076 100
004 100
102 100
007 210
122 118
069 510
009 118
10.02
.02
10.02
.90
10.02
10.02
.02
.90
10.02
.10
.90
.90 - 9.02
10.02
10.02
10.02
10.02
10.02
10.02
.90
.02
.90 - 9.02
.90
.02
554.31
1,563.12
9.02 - 90.18
1,232.46
9.02 - 90.18
330.66
84.17
9.02 - 90.18
264.53
131.06
1,863.72
90.18 . 901.80
.90
Ethylenimine
001515640
Ethyl Ether
000602970
> 1.00
6.00
> 1.00
> 6.00
> 1.00
> 1.00
6.00
> 6.00
>- 1.00
> 1.00•
> 6.00
2.00
> 1.00
> 1.00
> 1.00
> 1.00
> 1.00
> 1.00
> -1.00
> 6.00
6.00
.75
6.00
> 16.80
10.00 . 16.00
.08
.13
.17
.17
.20
.17
2.30
2.00
.23
.42
.03
> 6.00
8.00
.33
> 6.00
3.00
> 3.00
.20
.20
.37 23. 045
4.51 22. .08 078
22. .02 078
(Aziridine)
BUTYL
NEOPRENE
BUTYL
NATURAL RUBBER
NEOPRENE
MITRILE
NITR I LE+PVC
PE
PV ALCOHOL
PVC
SILVER SHIELD
TEFLON
VITON
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
2,104.20 23.
23.
23.
23.
23.
23.
.04 227
080
107
080
.04 107
045
080
.06 107
045
.04 227
p80
107
107
.04 323
080
.01 227
.05 303
.05 303
.03 323
.02 227-
.02
.02
129.26
129.26
A-39
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
000602970 VITON/CHLOR OBUTYL
PRODUCT VENDOR
DESC CODE
112 113
BREAKTHROUGH TIME
HOURS
.02 - .17
PERMEATION RATE
UG/CM**2/MIN
25.
2-Ethythexanoic Acid
001495750
PVC
BUTYL
NEOPRENE
PV ALCOHOL
VI TON
018 100
019 100
003 215
014 118
018 100
102 100
009 118
> 4.00
4.00
> 4.00
> 8.00
> 8.00
> 8.00
> 8.00
23. .05 123
23. .04 123
23. .04 123
23. .07 323
•23. .05 323
23. .09 323
23. .03 323
VI TON
186.37 23. .09 323
23. .08 323
1,902.46 23. .02 323
1,929.85 23. .02 323
36.07 23. .04 323
Ethyl Methacrylate
000976320 BUTYL
CPE
NITRILE
PV ALCOHOL
PVC
Formaldehyde, <37% (Formalin)
000500000 BUTYL
CPE
NATURAL RUBBER
NITRILE+PVC
PE
PVC
SILVER SHIELD
TEFLON
VITON
014 118
070 UNK
001 506
017 100
UNK
002 100
018 100
125 103
019 100
103
118
UNK
058 100
076 100
127
003 100
007 100
103
077 100
122 118
069 510
009 118
> 16.00
> 16.00
> 3.00
.20
1.00
.10
2.00
2.00
> 21.00
> 21.00
> 6.00
.50
> 6.00
> 8.00
.07
1.33
-33
6.00
> 600
> 3.00
> 16.00
23.
23.
23.
26.
23.
23.
23.
23.
23.
23.
23.
26.
23.
23.
23.
23.
23.
23.
23.
23.
23.
.02 23.
23.
.05 004
.02 323
.05 107
.02 148
107
.04 107
045
.06 107
045
.04 323
.04 227
.03 148
107
107
104
.02 323
107
045
107
107
.01 227
.05 303
.02 323
NEOPRENE
NITRILE
TEMP THICKNESS REF
DEG C CM MUM
2-Ethyl-i -Hexanol
001047670
.04 302
Ethyl idéne Dichloride (Dichtoroethane,1,1)
000753430 BUTYL 012
PV- ALCOHOL 004
PVC 003
118 1.52
100 273
100 .02
.03
009 118 2.43
014 118
070 UNK
019 100
102 100
003 100
6.57
.53
.38
> 8.00
.03
12.02 23. .09 323
23. .05 004
186.37 23. .05 323
23. .06 323
84.17 23. .02 323
23. .04 323
- 23. .04 227
NEOPRENE
NITRILE
.02
.90 - 9.02
3.34
.90 - 9.02
.90
.02
6.00 < .90
.02
.02
.90 - 9.02
.90
.02
.05
.90 - 9.02
.02
9.02
90.18
.90
9.02
A- .40
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
Formic Acid (Methanoic Acid)
000641860 PE
• PERMEATION RATE •TEMP THICKNESS REF
UG/CM**2/MIN DEG C CM NUM
23. .02 227
CHEMICAL NAME/
CASNO
RESI STANT
MATERIAL
000500000 VITON
BREAKTHROUGH TIME
HOURS
Formic Acid, >70%
000641863
Freon IF
000761310
PRODUCT VENDOR
DESC CODE
009 118 > 16.00
076 127 .07
017 100 2.00
026 121 3.20.
002 100 > 6.00
018 100 > 6.00
019 100 4.00
058 100 .50
076 • 100 .20
007 100 > 6.00
077 100 .67
1.25
017 100
.03 23. 104
•23.
12.02 23.
23.
23.
23.
• 23.
23.
- 23.
23.
23.
.05 107
.05 237
107
.04 107
.06 107
107
107
107
107
107
NATURAL RUBBER
NEOP+NAT RUBBER
NEOPRENE
NITRILE
NITRILE+PVC
PE
PVC
NATURAL RUBBER
NEOP+NAT RUBBER
NEOP/NAT RUBBER
NEOPRENE
NITRILE
NITRILE+PVC
PE
PV ALCOHOL
PVC
026
008
002
102
121
114
100
120
.04
3,006.00
25.
.02 222
502
• .28
821.64
25..
.05 222
504
.27
701.40
25.
.05 222
.48
591.18
.25.
.06 222
.27
701.40
25.
.05 222
.27
474.95
23.
.05 237
.27
791.58
25.
.05 222
2.00
.90
-
9.02
.23.
107
>
1.00
<
10.02
25.
.08 222
018
120
100
118
120
>
>
>
> .
>
3.00
4.00
• 1.00
1.00
1.00
1.00
1.00
.
•
<
<
<
<
<
<
20.04
.90
10.02
10.02
• 10.02
10.02
10.02
25.
23.
25.
25.
25.
25.
25.
.07 222
.04 107
.08 222
.05 .222
.07 222
.05 222
.03 222
.
O19
058
006
.
100
503
100
100
505
.
.
>
>
>
>
>
>
1.00
6.00
1.00 .
1.00
1.00
.25
.08
1.00
90.18
<
<
<
<
<
-
<
10.02
.90
10.02
10.02
10.02
901.80
10.02
1.00
. 25.
23.
25.
25.
25.
23.
25.
25.
.04 222
.06 107
.06 222
.04 222
.03 222
. 107
.01 222
.01 222
076
100
.13
9.02
.
90.18
23.
107
004
100
.50
.90
-
9.02
23.
107
003
120
.04
3,406.80
25.
.01 222
.
.09
.18
.13
2,204.73
190.38
240.48
25.
25.
25.
.01 222
.03 222
- .02 222.
077
500
501
100
.04
.04
.05
.30
9.02
-
2,605.20
3,006.00
1,903.80
90.18
25.
25.
25.
23.
.01. 222
.01 222
.02 222
107
A- 41
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
BUTYL
NEOPRENE
PVC
VITON
014 118
018 100
003 100
009 118
> 8.00
> 8.00
1.17
> 8.00
.02
.02
6.01
.02
23. .09 323
23. .05 323
23. .02 323
23. .04 323
CHEMICAL NAME!
CASNO
PRODUCT VENDOR
BREAKTHROUGH TIME
PERMEATION
RATE
DESC
CODE
HOURS
UGJCM**2/MIN
RESISTANT
MATERIAL
PVC
NATURAL RUBBER
NEOPRENE
NITRILE
PV ALCOHOL
.17
.05
.17
> 6.00
901.80
90.18
901.80
901.80
- 9,018.00
- 901.80
9,018.00
- 9,018.00
.90
1.35
1.89
.02
.33
60.12
.08
2,951.89
138.28
000761310
Freon TMC
577623190
Furan (Furfuran)
001100090
Furfura
000980110
GasoLine
080066190
G Lutara Idehyde
001113080
210
018
005
019
100
210
118
077
100
TEMP
DEG C
90.18 23.
THICKNESS
CM
REF
NUM
107
1.00
9.02
-
017
100
23.-
.05
107
002
.100
23.
107
018
100
23.
.04
107
019
100
23.
.06
107
004
100
23.
107
BUTYL
014
118
23.
.09
323
PV ALCOHOL
102
100
23.
.09
323
PVC
003
100
.
23.
.02
323
VITON
009
118
23.
.05
323
BUTYL
014
118
>
16.00
23.
.04
323
,
>
16.00
23.
.04
227
NATURAL RUBBER
001
210
.25
30.06 23.
080
017
100
. .25
9.02
-
90.18 23.
.05
107
NEOPRENE
002
100
2.00
9.02
-
90.18 23.
107
.
18.04 . 23.
080
9.02
-
90.18 23.
.04
107
NITRILE
156.31 23.
080
.47
1,591.38 23.
1,593.18 23.
.03
.04
323
227
NITRILE+PVC
057
210
.
.67
144.29 .23.
080
PE
.
076
1.00
•
.08 .
<
.90 23.
107
PV ALCOHOL
004
100
>
6.00
<
.90 23.
107
102
100
>
16.00
23.
.03
323
PVC .
007
210
1.17
.
108.22 23.
080
SILVER SHIELD
122
118
>
8.00
23.
.01
227
TEFLON
069
510
>
1.00
<
.02 23.
.05
303
VITON
009
118
3.50
88.98 23.
.03
323
3.60
88.98 23. .
.02
227
BUTYL
064
117
.58
23.
.02
213
BPJTYL/NEOPRENE
110
117
.33
23.
.02
213
NEOP+NAT RUBBER
026
121
.07
1,076.15 23.
.05
237
NITRILE
019
100
>
.6.00
<
.90 23.
.06
107
NITRILE+PVC
058
100
.08
90.18
-
901.80 23.
.
107
PE
076
100
.05
90.18
-
901.80 23.
107
PV ALCOHOL
004
100
>
6.00
<
.90 23.
107
PVC
077
.
100
.
.07
. .08
9.02
90.18
-
-
90.18 23.
901.80 23.
.
107
107
VITON/NEOPRENE
111
117
>
8.00
23.
.02
213
.50
.33
.92
.40
A- 42
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
PERMEATION RATE TEMP THICKNESS REF
UGi CM**2!MIN DEG C CM NUM
BUTYL
NITRILE
PE
034 UNK 1.00 -
033 UNK 1.00 -
006 209 .25 -
1.50
1.50
.42
• Hatothane
001516770
NATURAL RUBBER
001 210
UNK
NEOP/NAT RUBBER
NEOPRENE
017 UNK
• 008
002
018
UNK
210
UNK
Heptane
001428250
Hexach I orocyc I opentadi ene
000774740 BUTYL
NITRILE
.08
.75
> 1.00
005 210
019 UNK
NITRILE+PVC
PVC
> 1.00
6.00
> 1.00
1.00
VITON
057 210
007 210
UNK
009 UNK
3.00
.50
.25
> 1.00
NITRILE
PV ALCOHOL
VITON
014 118
019 100
102 100
009 118
Hexamethy I phosphoami de
006803190
> 8.00
> 8.00
> 8.00
> 8.00
BUTYL
014
118
3.07
138.28
23.
.09
323
PV ALCOHOL
102
100
>
8.00
23.
.07
323
PVC
007
100
.03
4,064.11
23.
.02
323
VITON
009
118
.62
432.86
23.
.05
323
.10
703.07
23.
080
.02
>
521.04
23.
.12
274
.03
>
531.06
23.
.04
274
>
526.05
23.
.05
274
• 499.00
23.
080
23.
.06
274
.
•
23.
.09
274
<
.02
23.
080
23.
.05
• 274
•
23.
:05
274
18.04
23.
080
180.36
23. •
•
080
>
450.90
23.
.16
274
23.
.03
274
<
• .02
23.
.06
323
<
.02
23.
.04
323
<
.02
23.
.08
323
.
<
.02
23.
.03
323
.
.02
•22.
.08
078
•
.
•
13.03
22.
.09
078
4.01
22.
.01
078
Hexane
•
001105430
BUTYL
CPE
NATURAL
NEOPRENE
RUBBER
012
014
107
060
001
002
•
UNK
UNK
UNK
113
210
100
>
.13
.17
.33
.42
.03
.17
.50
.50
.12
.17
.33
.33
.04
.35
.17
3.00
.08
1.50
>
>
•
>
>
•
9.02 -
2,344.68
1,923.84
1,833.66
1,238.47
2,344.68
2,314.62
1,370.74
1,226.45
2,344.68
2,344.68
1,172.34
1,490.98
256.11
751.50
90.18
25.
25.
25.
25.
25.
25.
25.
25.
25. •
25.
25.
25.
25.
23.
45.
25.
23.
23.
.04
.04
.06
.06
.04
.04
.06
.06
.04
.04
.06
.06
.04
.04
.07
273
273
273
273
273
273
273
273
273
273
273
273
287
094
094
302
080
107
A- 43
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
014 118
018 100
019 118
003 100
014 118
017 100
002 100
018 100
019 100
118
> 8.00
> 16.00
> 8.00
> 8.00
.02 23.
.90 23.
.90 23.
.90 23.
.90 23.
<• .02 23.
323
323
323
323
.04 227
.05 107
107
.04 107
.06 107
.04 227
CHEMICAL
CASNO
001105430
NAME/ RESISTANT
MATERIAL
NEOPRENE
PRODUCT VENDOR
DESC CODE
002 210
BREAKTHROUGH
HOURS
TIME
PERMEATION RATE
UG/CM**2/MIN
TEMP
DEG C
23.
THICKNESS
CM
REF
NUM
.67
576.15
UNK
.86
080
.06
23.
.05
186
.
018
100
UNK
.75
.75
1.00
1.00
1.00’
90.18 -
27.66
.03
901.80
121.44
75.15
91.38
25.
•23.
23.
25.
25.
25.
.05
.04
.04
.04
287
323
107
273
273
.
031
125
UNK
103
1.00
.33
52.91
12.02
25.
37.
23.
.06
.06
.04
273
273
187
‘
NITRILE
005
210
6.00
•
.02
23.
045
NITRILE+PVC
019
033
057
058
100
103
UNK
UNK
210
100
>
>
>
>
>
>
4.00
6.00
7.00
18.00
17.00
17.00
1.31
1.50
‘ .07
<
<
<
<
<
90.18 -
.90
6.01
.02
.02
.02
.02
42.08
901.80
23.
23.
23.
25.
25.
25.
25.
37.
23..
23.
.04
.06
.04
.04
.06
.06
.05
080
323
107
045
273
273
273
273
187
080
PE
056
UNK
.07
37.
107
076
100
.01
90.18 -
901.80
23.
.01
187
PV ALCOHOL
004
100
>
6.00
<
.90
23.
107
.
PVC
102
007
UNK
100
103
>
8.17
14.00
90.18
25.
23.
23.
.03
287
323
SILVER SHIELD
049
122
210
UNK
UNK
118
‘
>
.42
.31
.62
.48
6.00
270.54
23.
23.
23.
37.
.05
.07
.03
045
080
186
186
187
TEFLON
069
510
•
>
>
5.00
5.00
<
.02
.02
23.
.01
.05
227
303
VITON
009
118
>
>
11.00
11.00
23.
23.
.05
.02
303
323
VITON/CHLOROBIJTyL
112
113
>
3.00
25.
.02
227
>
3.00
25.
.04
.04
302
302
Hydrazine
(Diamine)
003020120
BUTYL
NEOPRENE
.04
NITRILE
23.
.05
• PVC
23.
.03
Hydrazine,
30-70%
003020122
BUTYL
- NATURAL RUBBER
NEOPRENE
NITRILE-
> 8.00
> 6.00
> 6.00
> 6.00
>‘ 6.00
> ‘ 8.00
A-44
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
Hydrochloric Acid, <30%
076470101 NATURAL RUBBER
NEOP/NAT RUBBER
NEOPRENE
NI TRI LE
NITRILE+PVC
PE
PVC
017 100
102
Hydrochloric Acid, 30:70%
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
058
076
007
077
100
100
100
100
TEMP THICKNESS REF
DEG C CM HUM
122 118
064 117
CHEMICAL NAME/ RESISTANT
CASNO MATERIAL
003020122 NITRILE+PVC
PE
PVC
SILVER SHIELD
Hydrochloric Acid
076470100 BUTYL
BUTYL/NEOPRENE
CPE
NATURAL RUBBER
NEOP+NAT RUBBER
NEOPRENE
NEOPRENE+PVC
NITRILE
NITRILE+PVC
PVC
SARANEX
VITON.
VI TON/NEOPRENE
110
070
001
026
002
093
138
127
005
057
058
007
049
053
077
117
UNK
210
121
210
117
117
117
210
210
117
210
117
117
117
> 6.00
> 6.00
> 6.00
> 6.00
> 6.00
2.10
> 8.00
> 8.00
> 8.00
‘ 8.00
> 3.00
6.00
4.42
6.00
8.00
> 8.00
> 8.00
6.00
6.00
1 .75
6.00
> 8.00
> 8.00
5.17
< 5.00
2.92
4.33
5.00
> 8.00
> 8.00
> 6.00
> 8.00
> 8.00
> 8.00
> 8.00
8. 00
> 8.00
> 8.00
>.. 8.00
>• 6.00
> 6.00
> 6.00
> 6.00,
> 6.00 :
> 6.00
>. 6.00
> 6.00
PERMEATION RATE
UG/CM**2/MIN
23.
23.
.90 23.
23.
23.
6.01 23.
23.
23.
23.
23.
23.
.02 23.
12.02 23.
.02 23.
23.
23.
23.
< .02 23.
.02 23.
23.
.02 23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
144 117
061 117
145 117
111 117
107
107
107
107
107
.01. 227
.02 213
.01 213
.02 213
.02 213
.05 004
080
.05 237
080
.02 213
.03 213
.02 213
080
080
•.O1 213
080
.01 213
.01 213
.02 213
.01 213
.01 213
.02 213
.01 213
.02 213
.02 213
.05 107
.05 026
.05 026
.05 026
.05 026
.06 026
.04 026
:05 ‘026
026
107
.04 107
.06 107
107
107
107
107
107
NEOP+NAT RUBBER
O26 102.
008
002
018
019
058..
076
007
077
102
100
100
100
100
100
100
100
A- 45
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
Hydrochloric Acid, >70%
076470103 NATURAL RUBBER
NEOP+NAT RUBBER
NEOP/NAT RUBBER
017 102
026 102
008 102
> 6.00
5.50
> 6.00
5.50
> 2.50
5.50
> 6.00
> 6.00
23. .05 026
23. .05 026
23 .05 026
23; .05 026
• 23. .06 026
23. .04 026
23. .05 026
23. 026
Hydrocyanic Acid
000749080
034 UNK
076 UNK
049 UNK
1.00
1.00
.50
.02
.12 *****
.28 *****
.04 148
.02 148
.08 148
Hydrofluoric Acid (Hydrogen Fluoride)
076643930 BUTYL
BUTYL/NEOPRENE.
NEOPRENE
NEOPRENE+PVC
NITRILE+PVC
PE
PVC
> 8.00
> 8.00
7.08
> 8.00
> 8.00
4.25
> 8.00
3.50
1 .08
1.50
> 8.00
2.17
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
076470102 NATURAL RUBBER
PRODUCT
DESC CODE
001
VENDOR
UNK
•
BREAKTHROUGH
HOURS
TIME
•
PERMEATION RATE
UG/CM**2/MIN
TEMP
DEG C
23.
THICKNESS
CM
REF
NUM
052
>
1.00
015
UNK
>
1.00
23.
.04
052
017
100
>
5.00
23.
.05
107
102
>
8.00
23.
.05
026
5.50
23.
.05
026
>
8.00
23.
.05
026
>
8.00
23.
.05
026
NEOP+NAT RUBBER
026
102
>
2.50
•
23.
.06
026
>
8.00
•
23.
.04
026
>
8.00
. 23.
.05
026
NEOP/NAT RUBBER
008
102
>
8.00
23.
•
026
UNK
>
1.00
‘
23.
052
NEOPRENE
002
100
>
6.00
•
23.
107
018
100
>
6.00
23.
.04
107
UNK
>
1.00
23.
.06
052
NITRILE
019
100
.
>
6.00
•
23.
.06
107
UNK
> .
1.00
23.
.05 052
PE
076
127
•
.58
•
23.
•
•
.104
PVC
003
UNK
.40
23.
.02
052
007
100
>
5.00
23.
107
UNK
>
1.00
.
23.
052
SARANEX
061
127
>
46.67
<
.02
23.
104
SILVER SHIELD
122
118
>
6.00
23.
.01
227
VITON
009
UNK
>
1.00
23.
BUTYL
PE
PVC
064 117
110
093
138
139
127
058
076
049
117
117
117
117
117
117
117
117
23. .02
23. .01
23. .02
23. .02
23. .02
23. .03
23. .02
23. . .02
23. .01
23. .01
23. .01
23. .01
213
213
213
213
213
213
213
213
213
213
213
213
A- 46
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
PERMEATION RATE
UG!CM**2!MIN
TEMP THICKNESS REF
DEG C CM HUM
Hydroftuoric Acid, 30-70%
076643932 NATURAL RUBBER
-NEOP/NAT RUBBER
NEOPRENE
NITRILE
NITRILE+PVC
PE
PVC
017 100 3.50
102 > 8.00
1.50
> 8.00
4.50
3.00
3.50
> 8.00
> 8.00
> 8.00
1 .25
1.00
2.00
.08
> 6.00
> .50
.67
2.00
1.50
> .50
23. .05 107
23. .05 026
23. .05 026
23. .05 026
23. .05 026
23. .06 026
23. .04 026
23. .05 026
.02 23. .05 237
23. 026
23. ‘107
23. .04 107
23. .06 107
23. 107
23. 107
.10 23 104
23. 107
23. 107
23., 107
.10 23. 104
076643930
PVC
053
077
117
‘‘
117
<
2.08
1.67
.08
23.
23.
23.
:02
.02
.01
‘213
213
213
‘
,
.92
23.
.01
213
144
117
.42
23.
.02
213
SARANEX
061
117
3.17
23.
.01
213
VITON
VITON/NEOPRENE
145
111
117
117
>
->
8.00
8.00
23. ,
23.
.01
‘
213
NEOP+NAT RUBBER
026 ‘ ‘ 102
008
002
018
019
058
076’
121
102
100
100
100
100
100
127
007 100
077 100
061 127
SARANEX
Hydroftuoric Acid, >70%
076643933 NATURAL RUBBER
NEOP+NAT RUBBER
NEOP/NAT RUBBER
Hydrogen Peroxide, 30-70%
077228412 NATURAL RUBBER
NEOP+NAT RUBBER
NEOP/NAT RUBBER
NEOPRENE
017
102.
4.00
23.
.05’
026
1.50
‘
23.
.05 ‘
026
4.00
23.
.05
026
1.50
23.
.05
026
026
102
,
1.50
23.
.06
026
1.50
4.00
‘
23.
23.
.04’
:05
026
026
008
102
4.00
- 23.
‘
026
017’
‘100
>
6.00
23.
.05
107
102
>
8.00
23
.05
026
>
8.00
‘
23.
.05
026
>
8.00
23.
.05
026
>
8.00
•
23.
.05
026
026
102
>
8.00
23.
•
.06
026
>
8.00
23.
.04
026
>
8.00
23.
.05
026
008
102
>
8.00
23.
026
002
100
.12 -
23.
107
018
100
.08
23.
A- 47
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME/ RESISTANT
CASNO MATERIAL
077228412 NITRILE
087 UNK
031 , UNK
093 UNK
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN ‘ DEG C CM ‘ NUM
.02 23. .04 173
.02 23. .02 173
‘.02 23. .02 173
Hydroquinone, <30%
017 100
002 100
018 100
019 100
007 100
> 6.00
> 6.00
> 6.00
6.00
> 6.00
.90 23. .05 107
.90 23. , 107
.90 23. .04 107
.90 23. .06 107
.90 23. 107
I minobi spropyt amine
NEOP+NAT RUBBER
NEOP/NAT RUBBER
‘NEOPRENE
107 120
108 120
017 100
502
504
026 102
008 114
002 100
120
018 , 118
120
019 100
1,903.80 25. .02 222
350.70 25. .05 222
1,102.20 25. .03 222
791.58 25. .05 222
661.32 25. .05 222
120.24 25. .07 222
25. .08 222
310.62 25. .05 222
541.08 25. .03 222
25. .04 222
25. .06 222
PRODUCT ‘ VENDOR
DESC CODE
019 ‘ ‘ 100
007 , ‘ 100
BREAKTHROUGH TIME
HOURS
> 6.00
> 6.00
.50
.42
.17
‘PVC
Hydrogen Phosphide (Phosphine)
078035120 NATURAL RUBBER
NEOPRENE
PE
PVC
Hydroquinone
001233190 NITRILE+PVC
PE
PVC
23. .06
23.
107
107
091 UNK ‘ .33
.42
054 UNK ‘ 1.67
.67
.02 23.
.02 ‘23.
.02 23.
.02 23.
.05 173
.05 173
.03 173
.04 173
058 ‘ 100
076 100
077 100
001233191 NATURAL RUBBER
NEOPRENE
NITRILE
PVC
>
6.00
23.
107
>
6.00
23.
107
>
6.00
23.
107
>
6.00
23.
107
000561880
BUTYL
014
118
>
8.00
28.
.09
323
NATURAL RUBBER
•
001
250
.10
84.17
26.
.02
323
NEOPRENE
018
100
>
8.00
‘
27.
.05
323
VITON
,
009
118 ,
>
8.00
‘‘27.’
.04
323
b-Ionone
‘
‘
149010760
BUTYL
014
118
>
9.00
‘
‘ ‘
23.
.06
323
PV ALCOHOL
102
100
>
14.00
8.00
23.
23.
.04
.03
323
323
118
>
8.00
•
23.
.03
323
Isoamyt Acetate
001239220 BUTYL
HYPALON
NATURAL RUBBER
.03
.50
.09
.16
.17
NITRILE
.16
761.52
25.
.05
222
.20
731.46
25.
.05
222
.20
140.28
25.
.08
222
.09
>, 1.00
.50
.27
> 1.00
> - 1.00
A- 48
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
NEOPRENE
NITRILE
PV ALCOHOL
VITON
018 100 .78
019 100 2.93
102 100 > 8.00
009 118 1.13
224.25 23. .05 000
9.62 23. .04 323
23. .03 323
55.31 23. .02 323
Isobthyt Acrytatè
001066380
014 118
001 210
017 . 100
002 100
210
018 100
005 210
019 100
118
057 210
058 100
076 100
007 100
210
077 100
> 8.00
2.00
.42
> 6.00
6.00
.17
> 8.00
..OO
> 6.00
> 8.00
4.00
.12
- .05
.17
2.00
.50
2.00. .90 -
> 8.00
.07 323
080
.05 107
107
• 080
.04 107
23. .05 323
.02 23. 080
.90 23. .06 107
23. .05 323
23. 080
23. 107
23.. 107
23. 107
4.51 23. 080
.90 23. 107
9.02 23. 107
23; .05 323
RESISTANT
MATERIAL
NITRILE
PE
PVC
BREAKTHROUGH TIME
HOURS
CHEMICAL NAME!
CASNO
001239220
Isoamytnitrite
001104630
‘PERMEATION RATE
UG/CM**2/M IN
PRODUCT VENDOR
DESC CODE
019 • 100
191
• 006’ 100
505
003 120
500
• 501
TEMP THICKNESS REF
DEG C CM NUN
1.08
.70
.03
•
63.13
‘ . 130.26
20.04
25.
25.
25. •
.04
.03
.01
222
‘ 222
222
•
>
1.00
.02
<
10.02
3,306.60
25.
25.
.01
.01
.222
222
.02
.08
‘
‘
3,306.60
1,603.20
25
25.
•
.01
.03
.222
222
;O6
2,505.00
4,509.00
2,104.20
25.
25
25.
25.
.02
.01
.01
.02
222
222
222
222
.02
.02
.03
014
019
102
003
118
100
100
100
> 8.00
1.13’
> 8.00
.02
23. .09 •323
126.25 23. .05 323
23. .08 323
204.41 23. .02 323
BUTYL
NITRILE
PV ALCOHOL
PVC
BUTYL
NATURAL RUBBER
NEOPRENE
NI TRI LE
NITRILE+PVC
PE
PVC
23.
4.51 23.
9.02 . 90.18 23.
.90 23.
.02 23.
.90’ 23.
Isobutyt ALcohoL
000788310
IsobutyL Nitrite
005425630
I sobutyra Ldehyde
000788420
4.81
.90 9.02
.90 . 9.02
.90
VITON
• 009
118
BUTYL
014
118
1.30
132.26
23. •
.04
323
NITRILE
019
100
1.63
6.01
23.
.06
323
PVC ‘
003
100
•
.03
1,454.90
‘ 23.
.02
323
VITON
009
118
.33
619.24
• 23.
‘
.04
323
BUTYL
014
118
> 8.00
‘
23.
.06
323
NEOPRENE
018
100
.42
48.70
23.
.05
323
A- 49
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT PRODUCT VENDOR BREAKTHROUGH TIME PERMEATION RATE TEMP THICKNESS REF
CASNO MATERIAL DESC CODE HOURS UG/CM 2/MIN DEG C CM HUM
000788420 PV ALCOHOL 102 100 .02 1.57 23. .04 323
VITON 009 118 .07 69.14 23. .03 323
Isooctane
266356430 NATURAL RUBBER 001 103 294.59 23. 045
NEOPRENE 002 100 6.00 .90 23. 107
018 100 1.00 9.02 - 90.18 23. .04 107
125 103 .02 23. 045
NITRILE 019 100 6.00 . .90 23. .06 107
103 .02 23. 045
NITRILE+PVC 058 100 .28 .90 . 9.02 23. 107
PE 076 100 .23 9.02 . 90.18 23. 107
PV ALCOHOL 004 100 .67 .90 . 9.02 23. 107
PVC 007 103 3.01 23. 045
077 100 .25 .90 . 9.02 23. 107
1.25 .90 - 9.02 23. 107
Isoprene
000787950 NEOPRENE 018 100 .27 192.38 23. .05 323
NITRILE 019 . 100 .87 27.66 23. .04 323
PV ALCOHOL 102 100 > 12.00 23. .03 323
VITON 009 118 6.20 . 1.14 23. .03 323
Isopropyt ALcohoL (PropanoL, 2-)
000676300 CPE 060 113 > 8.00 .05 204
NATURAL RUBBER 001 210 1.50 12.63 23. 080
017 100 .12 . .90 23. .05 107
102 .25 .12 23. .05 026
.17 1.80 23. .05 026
.25 .12 23. .05 026
.37 . 1.20 23. .05 026
NEOP+NAT RUBBER 026 102 .15 1.20 23. .06 026.
.23 1.20 23. .04 026
.25 .12 23. .05 026
121 . .52 6.01 23. .05 237
NE9P/NAT RUBBER 008 102 .25 .12 23. 026
NEOPRENE 002 100 > 6.00 .90 23. 107
210 2.00 - 4.81 23. . 080
018 100 6.00 .90 23. .04 107
NITRILE 005 210 - 6.00 .02 23. 080
019 100 . 6.00 .90 23. .06 107
NITRILE+PVC . 057 210 6.00 .02 23. 080
058 100 .58 .90 - 9.02 23. 107
PE . 076 100 .17 .90 - 9.02 23. 107
PVC 007 100 2.50 .90 23. - 107
210 2.17 12.02 23. - 080
077 100 .50 .90 - 9.02 23. 107
.50 .90 - 9.02 23. 107
TEFLON 069 510 - 3.00 .02 23. .05 303
I sopropyL amine
000753100 BUTYL 014 118 4.08 36.07 24. .09 323
NEOPRENE 018 100 - .23 - - 913.82 21. .05 323
A- 50
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
007
069
009
100
510
118
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEC C CM NUN
070 UNK
017 UNK
008 UNK
018 UNK
019 UNK
004 UNK
007 UNK
009 UNK
4,671.32
18.
.02
323
<
.02
23.
.05
303
3,342.67
26.
.04
323
>
480.96
23.
23.
.05
.04
.004
274
>
501.00
23.
23.
.05
.09
274
274
>
10.02
23.
23.
.06
.05
274
274
23.
.12
274
>
501.00
23.
.16
274
23.
.03
274
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
000753100 PVC
TEFLON
VITON
IsopropyL Ether
001082030 CPE
NATURAL RUBBER
NEOP/NAT RUBBER
NEOPRENE
NITRILE
PV ALCOHOL
PVC
VITON
I sopropyLmethacryt ate
046553490 BUTYL
NITRILE
PV ALCOHOL
PVC
Kerosene
080082060 NATURAL RUBBER
NEOP+NAT RUBBER
NEOPRENE
NITRILE
NITRILE+PVC
PE
PV ALCOHOL
PVC
Lactic Acid, >70%
000793343 NATURAL RUBBER
NEOPRENE
NITRILE
NITRILE+PVC
PE
PV ALCOHOL
PVC
Lauric Acid, 30-70%
001430772 NATURAL RUBBER
NEOPRENE
NITRILE
PVC
23. .09 323
36.07 23. .05 323
23. ‘ .09 323
354.71 23. .02 ‘ 323
014
019
102
003
017
026
002
018
019
058
076
004
007
077
118
100
100
100
100
121
100
100
100
100
100
100
100
100
.03
> 3.00
.18
> 3.00
.06
.12
> 1.00
.71
> 1.00
> 1.00
.25
> 1.00
> . 8.00
1.88
>‘ 8.00
.02
.50
.60
> 6.00
> 6.00
> 6.00
1.25
.20
> 6.00
> 6.00
.50
3.00
> 6.00
> . 6.00
> 6.00
> 6.00
> 6.00
> 6.00
> ‘ 6.00
> 6.00
> 6.00
> 6.00
> 6.00
> 6.00
> 6.00
> 6.00
.25
.90 9.02
12.02
.90
.90
.90
9.02 - 90.18
9.02 . 90.18
.90
.90
9.02 90.18
9.02 - 90.18
23.
23.
23.
23.
23.
23.
23.’
23.
23.
23.
23.
017 . 100
002 100
018 100
019 100
058 100
076 100
004 100
007 100
077 100
.05 , 107
.05 237
107
.04 107
.06 107
107
107
107
107
107
107
.05 107
107
.04 107
.06 107
107
107
107
107
107
.107
.05 107
107
.04 107
.06 107
107
.90 23.
.90 23.
.90 23.
.90 23.
.90 23.
.90 23.
.90 23.
.90 23.
.90 23.
.90 23.
23.
23.
23.
23.
23;
017
002
018
019
007
100
100
100
100
100
A- 51
-------�
d•Limonene (Menthadiene)
059892750 BUTYL
NEOPRENE
NITRILE
PV ALCOHOL
014 118
018 100
019 100
102 100
Mesityt Oxide (Methytpentenone, 4-,3-,2-)
001417970 CPE 060
> 8.00
1.08
> 20.00
> 8.00
1 .83
.33
> 3.00
RE F
HUM
23. .02 323
23. .05 323
23. .04 323
23. .03 323
Methacryloriitrite
001269870
MethanoL (MethyL ALcohoL)
000675610 BUTYL
BUTYL/NEOPRENE
CPE
NATURAL RUBBER
014 118
001 250
102 100
003 100
110 117
060 113
001 210
017 100
102
120
502
504
UNK
026 102
> 8.00
> 8.00
> 8.00
>‘ 8.00
> 3.00
6.00
.33
.22
.25
.25
.25
.25
.03
> 1.00
.30
> 1.00
> 1.00
.25
t, 803.60
.48
1,142.28
23.
23.
23.,
23.
25.
.02 23.
8.02 25.
23.
23.
23.
23.
23.
25.
25.
25.
25.
23.
1.20 23.
23. .09 323
23. .02 323
23. .06 323
23. .02 323
.02 213
.01 213
.02 213
.02 213
.07 302
080
.03 222
.05 107
.05 026
.05 026
.05 026
.05 026
.02 222
.05 222
.05 222
.06 222
.04 274
.06 Q26
SUMMARY, OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME/
RESISTANT
PRODUCT VENDOR
BREAKTHROUGH TIME
PERMEATION RATE
TEMP
THICKNESS
CASNO
MATERIAL
DESC
CODE
HOURS
UG/CM**2/MIN
DEG C
CM
Mateic Acid, >70%
001101673
NATURAL RUBBER
NEOPRENE
NITRILE
NITRI LE+PVC
PE
PVC
017 100
002 100
018 100
019 100
058 100
076 100
007 100
077 100.
> 6.00
> 6.00
> 6.00
> 6.00
> 6.00
> 6.00
> 6.00
> 6.00
> 6.00
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
UNK
VITON/CHLOROBUTYL 112 UNK
.05 107
107
.04 107
.06 107
107
107
107
107
107
142
142
142
BUTYL
NATURAL RUBBER
PV ALCOHOL
PVC
Acid
NEOPRENE
PVC
MéthanesUtfonic
000757520
> 8.00
.02
.40
.03
> 4.00
> 4.00
018 100
003 ‘ 215
064 117
23. .05 123
23. .05 123
NEOP+NAT RUBBER
.90
1.20
1.20
1.20
1.20
18.04
4.01
4.01
4.01
A-- 52
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
PRODUCT VENDOR BREAKTHROUGH TIME
DESC CODE HOURS
049 117
UNK
077 100
.25
.30
.25
.40
> 1.00
.25
.29
.38
6.00
1.00
> 1.00
> 1.00
> 1.00
> 1.00
> 1.00
> 1.00
> 1.00
1 .03
5.92
5.00
> 8.00
6.00
1.15
.18
> 1.00
.90
.65
> 1.00
.91
6.00
.33
> 1.00
> 1.00
.22
> .8.00
.02
.02
.04
.03
.03
.05
.05
.03
.02
.04
.75
6.00
> 1.00
1.50
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEC C CM NUM
1.20 23. .05 026
6.01 23. .05 237.
1.20 23. . 026
4.01. 25. .05 222
23. .05 274
.90 23. 107
6.01 25. .08 222
5.01 25. .07 222
.02 23. 080
.90 23. .04 107
4.01 25. .08 222
4.01 . 25. .05 222
4.01 25. .07 222
4.01 25. .05 222
4.01 25. .03 222
23. .09 274
23. .06 274
23. .04 187
23. .02 213
23 .03 213
23. .02 213
.02 23. 080
23.05 25. .04 222
90.18 . 901.80 23. .06 107
4.01 25. . O6 222
36.07 25. .04 222
29.06 25. .03 222
23. .05 274
23. .05 187
.02 23. 080
9O 9.02 23. 107
4.01 25. .01 222
4.01 25. .01 222
.90 23. 107
23. .01 213
124.75 23. 123
124.75 21. 124
> 30.06 23. .12 274
36.07 25. .01 222
34.07 25. .01 222
18.04 25. .03 222
23.05 25. .02 222
34.07 25. .01 222
38.08 25. .01 222
30.06 25. .02 222
9.02 90.18 23. 107
.02 23. 080
23. .16 274
23. .07 186
• • 23. .05 186
23. .01 213
23. .03 187
.90 23. 107
CHEMICAL NAME/ RESISTANT
CASNO MATERIAL
000675610
•
NEOP+NAT RUBBER
026
102
.
•
121
NEOP/NAT RUBBER
008
102
•
114
•
UNK
NEOPRENE
002
100
120
210
•
018
100
118
120
•UNK
031
UNK
093
117
138
117
139
117
NITRILE
005
210
019
100
503
UNK
033
UNK
NITRILE+PVC
057
210
058
100
PE
006
100
•
505
076
100
117
PV ALCOHOL
004
100
UNK
PVC
003
120
•
500
501
007
•
100
•
210
UNK
.77
.83
.68
.17
A- 53
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
PERMEATION RATE
UG/CM**2!MIN
TEMP THICKNESS REF
DEGC CM NUM
000675610
PVC
SARANEX
TEFLON
VITON
VI TON/CHLOROBUTYL
VITON/NEOPRENE
077 100
117
061 117
069 510
009 UNK
145 117
112 113
111 117
5.
.08
> 8.00
> 14.20
> 5.00
> 1.00
.83
> 3.00
> 8.00
9.02 90.18 23. 107
23. .01 213
23 .01 213
.02 23. .05 303
.02 24. .05 303
23. .03 274
23. .01 213
25. .04 302
23. .02 213
Methytamine (Monomethytamine)
000748950 NATURAL RUBBER
NEOPRENE
23. .07 323
33.07 23. .05 323
23. .03 323
116.03 23. .03 323
9.02 . 90.18 23. .05 107
.90 23. 107
9.02 . 90.18 23. .04 107
.90 23. .06 107
90 9.02 23. 107
4-Methoxy-4-methyt -2-pentanone
001077000 BUTYL
NEOPRENE
PV ALCOHOL
VITON
Methyl Acetate
000792090 BUTYL
NATURAL RUBBER
PE
PV ALCOHOL
PVC
Methyl Acrytate
000963330 BUTYL
NATURAL RUBBER
NEOPRENE
PV ALCOHOL
TEFLON
014
018
102
009
014
001
076
102
003
014
0o1
018
102
069
017
002
018
019
007
118
100
100
118
118
250
100
100
•100
118
250
100
100
510
100
100
100
100
100
.
23.
.09
323
.
6,012.00
23.
.02
323
.90
9.02
23.
.
107
12.02
6,012.00
23.
23.
•
.07
02
323
323
•
625.25
3,168.32
1.80
23.
23.
23.
23.
.09
.02
.05
.07
323
323
323
323
<
.02
23.
.05
303
> 13.00
1.65
> 14.00
.40
> 8.00
.02
.07
.68
.02
> 8.00
.02
.25
1.50
> 3.00
.42
6.00
4.50
> 6.00
2.25
> 15.00
> 8.00
.50
.17
.17
1.00
1.90
> 16.00
> 8.00
.05
1.05
.03
NITRILE
PVC
Methylamin , 30-70%
000748952 BUTYL
NITRILE
NITRI LE+PVC
PE
PVC
SILVER SHIELD
VITON
3-MethyL ami nopropytami ne
062918450 BUTYL
NATURAL RUBBER
NEOPRENE
PVC
014 118
019 118
058 100
076 100
077 100
122 118
009 118
014 118
001 250
018 100
007 100
< .02
23.
.04
227
•
23.
.04
227.
9.02 - .
90.18
23.
107
9.02 -
<
90.18
.90
23.
23.
‘
107
107
.90 -
<
9.02
12.02
02
23.
23.
23.
•
.01
.02
107
227
227
.02
731.46
160.32
671.34
20. .07
16. .02
16. .05
14. .02
323
323
323
323
A- 54
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
Methyl Bromide (Bromomethane)
000748390 SARANEX
Methyl Celtosolve (Methoxyethanol, 2)
001098640 BUTYL
NEOP+NAT RUBBER
NITRILE
Methyl Chloroacetate
000963440 SARANEX
23. 104
CHEMICAL NAME/ RESISTANT
PRODUCT VENDOR
BREAKTHROUGH TIME
HOURS
PERMEATION
RATE
TEMP
THICKNESS
REF
CASNO
MATERIAL
DESC CODE
UG/CM**2/MIN
DEG C
CM
NUM
061
127
>
8.00
014
118
>
20.00
23.
.05
123
026
121
•
.58
6.01
23.
.05
237
019
100
.67
60.12
23.
123
061
.127
>
8.00
18.04
23.
Methyl Chloroform (Trichtoroethane,1,1,1)
000715560 BUTYL 014
118
UNK
.48
.48
064
UNK
•
•
.42
NATURAL RUBBER
001
210
.13
017.
100
.06
120
.03
502
.12
504
.12
.
NEOP+NAT RUBBER
.
026
‘
UNK
102
.22
.07
.13
NEOP/NAT RUBBER
008
114
.17
NEOPRENE
.
002
010
018
100
120
210
100
100
120
.
UNK
,
.
.07
.04
.20
.40
.32
.32
.80
.42
.27
.40
.75
NITRILE
005
019
.
210
100
>
2.00
. .18
2.00
1.00
.93
.
NITRILE+PVC
.
..
020
057
058
.
118
181
503
UNK
100
210
100
.
.
.
.
•
.62
.68
.60
.06
.50
.28
.28
.83
.15
.10
PE
006
100
.03
918.50 25.
91984 23.
25.
25.
901.80 23.
2,605.20 25.
5,711.40 25.
3,106.20 . 25.
1,803.60 25.
1,202.40 25.
25.
3,006.00 .25.
2,404.80 25.
1,002.00 25.
701.40 25.
781.56 23.
895.12 25.
745.49 23.
1,002.00 25.
801.60 25.
901.80 25.
1,002.00 25.
895.79 23.
25.
601.20 23.
4,108.20 25.
9,018.00 23.
10.02 25.
50.10 25.
459.32 23.
459.32 23.
25.
2,605.20 25.
25.
282.56 23.
282.23 25.
96.19 23.
901.80 23.
9,018.00 23.
130.26 25.
.04 288
.04 100•
.05 326
.04 326
080
.03 222
.02 . 222
.05 222
.05 222
.06 222
.02 326
.05 222
.05 . 222
.08 222
.07 222
080
.05 288
.05 323
.05 222
.07 222
.05 222
.03. 222
.05 100
.06 326
080
.04 222
.06 107
.06 222
.04 222
.04 323
.04 227
.03 222
.03 222
.02 .326
.03 . 100
.03 288
080
107
107
.01 222
901 .80
9O 18 -
901.80 -
A—5 5
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
PERMEATION RATE TEMP
UG/CM**2/MIN DEG C
THICKNESS REF
CM HUM
POLYURETHANE
PV ALCOHOL
SILVER SHIELD
TEFLON
VITON
Methylene Bromide (Dibromomethane)
000749530 PE
CPE
NATURAL RUBBER
UNK
050 UNK
004 100
102 100
UNK
003 118
500
501
UNK
210
100
UNK
118
510
118
014 118
UNK
060 113
001 210
UNK
017 100
120
502
504
.02
.05
.13
.02
.20
.03
1.00
> 8.00
6.00
> 8.00
.02
.01
.01
.02
.50
.10
.25
.03
.05
> 6.00
> 3.00
> 15.17
> 15.00
> 6.00
> 8.00
> 24.00
.17
.17
.42
.10
.03
.02
.01
.05
.03
.05
1,593.18
3,206.40
4,008.00
1,593.18
120.24
90.18
90.18
901.80
696.39 23.
25.
1,803.60 23.
> 140.28 23.
.01 288
.01 222
.01 100
.01 326
107
107
.01 326
107
.03 323
25. .05 288
23. .05 100
25. .01 288
25. .01 222
25. .02 222
23. .01 100
23. 080
23. 107
23. 107
23. 107
.04 100
.07 302
080
.12 274
000715560 PE
006 100
505
UNK
042 UNK
076 100
.02
.20
154.48 25.
30.06 25.
154.48 23.
25.
9.02 23.
901.80 23.
25.
.90 23.
23.
PVC
25. .01 326
.90 -
90.18 -
9.02 -
9.02
9O’.18 -
007
077
122
069
009
UNK
076 100
004 100
PV ALCOHOL
Methylene Chloride (Dichtoromethane)
000750920 BUTYL
25. .03 326
23. .01 227
.02 23. .05 303
23. .03 323
23. .02 .227
25. .02 288
23. .02 100
25. .03 326
90.18 23. 107
.90 23. 107
698.06 25. .04 288
.03
.6.00
9.02
.25 -
NEOP+NAT RUBBER
NEOP/NAT RUBBER
NEOPRENE
8,216.40 25. .03 222
13,026.00 25. .02 222
4,308.60 25. .05 222
4,809.60 25. .05 222
3,807.60 25. .06 222
UNK
.03
>
120.24
23.
.04
274
026
102
.05
4,609.20
25.
.05
222
121
.03
1,274.54
23.
.05
237
008
114
.07
.
3,406.80
25.
.05
222
UNK
.03
>
160.32
23.
.05
274
002
100
.13
1,102.20
25.
.08
222
120
.01
2,805.60
25.
.07
222
210
.08
1,803.60
23.
080
010
100
<
.02
2,688.70
25.
.05
288
A- 56
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT PRODUCT VENDOR BREAKTHROUGH TIME PERMEATION RATE TEMP THICKNESS REF
CASNO MATERIAL DESC CODE HOURS UG/CM**2/MIN DEG C CM NUM
000750920 NEOPRENE 018 118 .22 2,004.00 25. .08 222
120 .07 3,507.00 25. .05 222
.15 2,605.20 25. .07 222
.11 2,805.60 25. .05 222
.03 4,809.60 25. .03 222
UNK .02 2,687.36 23. .05 100
.21 > 150.30 23. .09 274
.08 > 140.28 23. .06 274
125 103 1,881.76 - .02 .23. 045
NITRILE 005 210 3.00 5,410.80 23. 080
019 100 .04 12,024.00 25. .04 222
.11 8,216.40 25. .06 222
.04 13,026.00 25.. .04 222
103 4,016.02 23. 045
118 .07 4,605.19 23. .04 227
503 .03 1,903.80 25. .03 222
UNK .02 5,639.26 23. .03 100
.04 > 125.25 23. .05 274
.03 > 150.30 23. .05 274
020 100 .02 5,644.60 25. .03 288
NITRILE+PVC 057 210 .20 2,645.28 23. 080
PE 006 100 .01 300.60 25. .01 222
.02 420.84 25. .01 288
505 .03 100.20 25. .01 222
UNK .02 420.84 23. .01 100
076 100 .02 90.18 - 901.80 23. 107
PV ALCOHOL 004 100 .28 .90 23. 107
UNK 1.00 23. .12 274
102 100 8.00 23. .04 323
6.00 25. .05 288
UNK 8.00 23. .05 100
PVC 003 118 .02 . 25. .01 288
120 .01 25. .01 222
.01 > 16,699.98 25. .01 222
.02 12,024.00 .25. .03 222
.01 > 16,699.98 25. .02 222
500 .01 > 16,699.98 25. .01 222
501 .01 > 16,699.98 25. .01 222
.01 . > 16,699.98 25. .02 222
UNK .02 23. .01 100
007 103 2,555.10 23. 045
• 210 .10 3,486.96 23. 080
• UNK .17 > 150.30 23. .16 274
SILVER SHIELD • 122 118 1.90 .02 23. .01 227
TEFLON 069 510 . .78 .02 23. .05 303
.84 02 23. .05 303
.92 .02 23. .05 303
.62 24. .05 303
.62 . 24. .05 303
.58 24. .05 303
.75 24. .05 303
VIT0N 009 118 1.00 44.00 23. .02 227
1.38 23.38 25. .02 288
A- 57
-------�
009 UNK
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
112 113 .42 -
1.03 -
.30
.15 -
n-MethyLethanotami ne
001098310 BUTYL
CELLULOSE ACETATE
NATURAL RUBBER
NEOPRENE
MethyL EthyL Ketone (Butanone 1 2)
000789330 BUTYL
014 118
216
064 117
210
250
017 100
120
502
504
026 102
121
008 114
002 100
093 117
125 103
138 117
139 117
005 210
019 100
103
.10
.02
.04
.27
.09
.08
.15
.28
.04
.12
.22
.65
.13
.45
.17
.07
.08
.08
.08
33
.11
.20
.10
.02 .19.
.02 20.
150.30 20.
.02 20.
.06 323
.07 123
124
.02 213
.01 213
.02 213
.02 213
.07 302
045
045
080
.01 323
.03 222
.05 107
.02 222
.05 222
.05 222
.06 222
.05 222
.05 237
.05 222
.08 222
.07 222
080
.05 323
.08 222
25. .05 222
25. .07 222
25. .05 222
25. .03 222
23. .02 213
.60 23. 045
23. .03 . 213
23. .02 213
23. 080
25. .04 222
25. .06 222
25. .04 222
23. 045
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
000750920 VITON
VI TON/CHLOROBUTYL
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
• .1.38 22.85 23.
.95 10.02 23.
.60
1.12
.47
.23
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEG C . CM NUN
.02 100
.03 274
25. .04 302
15. .04 302
25. .04 302
35. .04 302
014
099
001
018
118
118
250
100
> 8.00
> 8.00
.08
> 8.00
> 8.00
> 4.00
> 4.00
1.67
.07
.03
.02
.06
323
323
323
323
.02 23.
23.
21.
23.
110
060
001
117
113
103
.47
2.33 23.
2.00 23..
.08 23.
.58 25.
925.85 23.
517.03 23.
1,022.04 23.
100.20 23.
601.20 25.
.17 901.80 9,018.00 23..
.02 801.60 25.
.12 320.64 25..
.13 400.80 25.
BUTYL/NEOPRENE
CPE
NATURAL RUBBER
NEOP+NAT RUBBER
NEOP/NAT RUBBER
NEOPRENE
NITRILE
120
210
018 100
- 118
120
200.40 . 25.
310.62 25.
1,004.00 23.
230.46 25.
200.40 25.
501.00 25.
721.44 23.
3,066.12 23.
230.46 25.
601.20
330.66
601.20
901.80
492.98
3,106.20
1,903.80
2,204.40
1.20
A- 58
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME/ RESISTANT
CASNO MATERIAL
000789330 NITRILE
NITRILE+PVC
PE
Pvc
SARANEX
TEFLON
VITON
VI TON/CHLOROBUTYL
VI TON/NEOPRENE
Methyl Ethyl Ketone Peroxide
013382340
BUTYL
NATUR LL RUBBER
NEOPRENE
VITON
PRODUCT VENDOR
DESC CODE
019 ‘181
5O
057 210
006 100
505
076 100
117
004 100
102 100
007 103
210
049 117
061 117
127
510
117
113
117
BREAKTHROUGH TIME
HOURS
.06
.16
> .02
.05
.03
.50
5.37
.27
.08
.15
.48
> 3.00
.16
.42 . .66
07
25.
25.
23.
25.
25.
23.
23.
23.
23.
23.
23.
23.
23.
7.82 23.
.02 23.
23.
25.
23.
.03 222
.03 222
080
.01 222
.01 222
107
• .01 213
107
.07 323
045
080
.01 213
.01 213
104
.05 303
.01 213
.04 302
.02 213
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEC C CM NUM
PV ALCOHOL
.16
2,805.60
1,503.00
607.21
10.02,
3.01
9.02 - 90.18
9.02 - 90.18
.15
4.81
721.44
• 069
145
112
111
014
001
018
009
014 118
Methythydrazi ne
000603440
MethyL Iodide
000748840
BUTYL
CHLOROBUTYL
CPE
CR 39
PVC
TEFLON
VITON
BUTYL
NATURAL RUBBER
NEOP+NAT RUBBER
.
118
250
>
4.00
.75
6.01
23.
23.
.07
.02
323
323
•
100
118
>
>
4.00
4.00
23.
23.
.05
.04
323
323
‘>
2.00
22.
.23
321
.
064
085
052
113
211
205
•
>
• >
2.00
.01
2.00
2.00
22.
22.
22.
23.
.04
.03
.11
.04
321
321
321
321
060
070
‘095
113
113
122
•
>
.87
1.10
2.00
22.
22.
22.
.05
.05
.17
321
321
321
003
103
.52
1.90
22.
22.
.13
.13
.321
321
053
.126
>
2.00
22.
.05
321
083
211
>
2.00
22.
.20
321
055
210
<
.01
22.
.02
321
062
UNK
<
.01.
22.
.02
321
067
UNK
<
.01
22.
.02
321
068 •
069
UNK
UNK
•
<
<
.01
.01
• •
22.
22.,
.02
.02
321
321
009
118
1.50
22.
.05
321
014
118 •
.92
492.98
23.
.09
323
017
100
120
502,
504
•
.
.03
.03
.05
.04
.06
• 13,026.00
>‘ 16,699.98
8,116.20
9,218.40
6,913.80
25.
25.
25.
25.
25.
.03
.02
.05
.05
.06
222
222
222
222
222
026
102
.03
8,917.80
25.
A- 59
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
NI TRI LE+PVC
PE
005 210
019 100
118
120
UNK
BREAKTHROUGH TIME
HOURS
PERMEATION RATE TEMP
UG/CM**2/MIN DEG C
THICKNESS REF
CM NUM
CHEMICAL NAME!
RESISTANT
PRODUCT VENDOR
CASNO
MATERIAL
DESC CODE
000748840
NEOP/NAT RUBBER
NEOPRENE ‘
008
002
114
100
018
120
100
,
118
120
NITRILE
019
100
•
181
503
PE
006
100
505
PV ALCOHOL
102
100
VITON
009
118
Methyl Isobutyl
001081010
Ketone (Methylpentanone, 4-,2-)
‘ BUTYL 012
UNK
>
V
.09
5,310.60
25.
.05 222
.25
1,402.80
25.
.08 222
.01
4,6Ô9.20
25.
.07 222
.10
•
7,893.76
‘23.
.05 323
.28
2,905.80
25.
.08 222
.07
6,312.60
25.
.05 222
.20
3,707.40
25.
.07 222
.07’
5,611.20
25.
.05 222
.04
7,915.80
25.
.03 222
.01
6,613.20
25.
.03 222
.13
8,016.00
25.
.05 222
.09
6,012.00
25.
.04 222
8,216.40
25.
.03 222
.03
•
11,022.00
25.
.03 222
.01
1,102.20
25.
.01 222
.04’
300.60
25.
.01 222
8.00,
23.
.07 323
6.35
4.21
23.
.04 323
1.50
19.24
25.
.04
2.67
,
5.00
52:30
25.
‘25.
.04 273
.06
4.50
39.08
25.
‘ .06 273
1.50
36.07
25.
.04 273
2.17
40.88
25.
.04 273
5.00
4.81
‘25.
.06 273
‘5.67
1.20
25.
.06 273
.17
30.06
25.
.04 273
.83
‘
70.34
25.
.04’ 273
3.00 “
‘
16.83
25.
.06 273
3.75
7.82
25.
.06 273
014
118
4.07
6.01
23.
.05 086
001
210
.25
420.84
23.
080
017
100
,
.10
90.18 .
901.80
23.
.05 107
002
210
.25
541.08
23.
080
010
120
.62
277.22
23.
.06 086
018
•
‘
100
UNK
,
‘
V
.47
.33
.33
.50
.53
1.67
.80
.20
.35
.50
.50
1.17
1.17
‘
•
529.39
303.61
284.37
298.80
‘ 277.75
841.68
402.47
492.65
848.36
304.81
‘ 290.38
290.38
256.71
23.
25.
25.
25.
25.
23:’
23.
23.
23.
.25.
25.
25.
25.
.06 086
.04 273
.04 273
.06 273
.06 273
, 080
.06 086
;O4 086
.05 086
.04 273
.04 273
.06 273
.06 V
020
503
•
.32
1,033.73
23.
.04 086
057
.
210
.30
23.
006
512
.01 “
781.56,
‘23.
080
NATURAL RUBBER
NEOPRENE
NITRILE
A- 60
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
Methyl-vinyt-ketone
000789440 CPE
Monoi sopropanotami ne
000789660
VI TON/CHLOROBUTYL
.72
1,012.00
.01
.02
.01
.02
> 8.00
> 8.00
.02
.07
.06 323
.07 323
.02 323
.01 323
20. .05 323
23. .04 323
23. .03 323
23. .05 323
21. .03 323
1,212.42 23. .03 323
CHEMICAL NAME!
CASNO
BREAKTHROUGH TIME
HOURS
PERMEATION RATE
UG/CM**2/MI N
TEMP THICKNESS REF
DEG C CM NUM
9.02
.03
> 6.00
.50
> 3.00
.20
90.18
.90
991.98
.02
1,743.48
23.
23.
23.
23.
23.
10?
107
080
.05 303
.04 086
13.
90.18: 23..
20.
10,641.24 23.
2,254.50
.02
.02
RESISTANT . PRODUCT VENDOR
MATERIAL DESC CODE
001081010 PE 076 100
PV ALCOHOL 004 100
PVC 007 210
TEFLON 069 510
VITON 009 118
Methyl Isocyanate
006248390 BUTYL 014 118
NATURAL RUBBER 001 250
NEOPRENE 018 100
PV ALCOHOL 004 100
VITON 009 118
Methyl Methacrylate
000806260 BUTYL 014 118
NATURAL RUBBER 001 250
PE 076 100
PV ALCOHOL 004 100
102 100
PVC 003 100
TEFLON 069 510
060 UNK
112 UNK
026 121
002 100
018 100
019 100
058 100
076. 100
127
004 100
007 100
077 100
061 127
014 118
018 100
007’ 100
009 118
Mineral Spirits
080524130
23.
23.
23.
23.
23.
23.
23.
23.
23.
.09 323
.02 323
107
107
.06 323
.02 323
.05 303
142
142
24.05
9,619.20
9.02 - 90.18
.90
9,619.20
.02
138.28
.90
.90 - 9.02
.90
9.02 - 90.18
9.02 - 90.18
7.01
.90
.90 - 9.02
.90 - 9.02
.9.02 . 90.18
23. 142
NEOP+NAT RUBBER
NEOPRENE
NITRILE
NITRILE+PVC
PE
PV ALCOHOL
PVC
SARANEX
4.98
.02
.03
> 6.00
> 8.00
.02
> 3.10
.50
1.67
> . 3.00
.22
6.00
1.50
> 6.00
.10
.10
.08
> 6.00
2.50
.10
.10
> .17
> 8.00
> 8.00
> 8.00
> 8.00
23.
23.
23.
23.
23.
23.
23.
.05 237
107
.04 107
.06 107
107
107
104
107
107
107
107
104
BUTYL
NEOPRENE
,PVc
VI TON
23.
23.
23.
23.
.20 23.
Morpholine
25. .07 323
24. .05 323
25. .02 323
25. .04 323
A— 61
-------�
Nitric Acid.
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
BREAKTHROUGH TIME
HOURS
PRODUCT VENDOR
DESC CODE
014 118
017 100
019 118
004 100
102 100
122 118
009 118
001
125
019
007
070
026
002
018
019
058
076
004
007
077
CHEMICAL NAME/ RESISTANT
CASNO MATERIAL
001109180 BUTYL
NATURAL RUBBER
NITRILE
PV ALCOHOL
SILVER SHIELD
VITON
• N-Methyt-2-pyrratidone
008725040 NATURAL RUBBER
NEOPRENE
NITRILE
PVC
Waphtha, V.M.& P (Ligroine)
080323240 CPE
NEOP+NAT RUBBER
NEOPRENE
NITRILE
NITRILE+PVC
PE
PV ALCOHOL
•PVC
BUTYL
BUTYL/NEOPRENE
CPE
NATURAL RUBBER
NEOP+NAT RUBBER
NEOPRENE
NEOPRENE+PVC
NI TRI LE
NITRILE+PVC
PE
PVC
103
103
103
103
UNK
121
100
100
100
100
100
100
100
100
076973720
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEG C CM HUM.
> 16.00 23. • .04 323
> 16.00 23. .04 227
.50 • .90 - 9.02 23. .05 107
.73 1,240.28 23. .03 323
.80 1,238.47 23. .04 227
3.00 .90 23. 107
6.17 25.25 23. .03 323
> 8.00 23. .01 227
1.80 581.36 23. .02 323
• 1.90 •,583.16 23. .92 227
3.61 23. 045
6.01 23. 045
24.05 23. 045
24.05 23. 045
> 3.00 23. .05 004
• .07 96.19 23. .05 237
> 6.00 .90 23. 107
.25 90.18 - 901.80 23. .04 107
• 6.00 .90 23. .06 107
.15 9.02 . 90.18 23. 107
• .05 90.18 - 901.80 23. —107
• 7.00 .90 23. 107
2.00 .90 23. 107
.08 .90 - 9.02 23. 107
.33 9.02 . 90.18 23. 107
8.00 23. .02 213
8.00 23. .01 213
8.00 23. .02 213
> 8.00 • 23. .02 213
• 3.00 23. • .05 004
2.00 23. 080
8.00 .02 23. .05 237
2.00 23. 080
2.67 23. .01 213
1.33 23. .03 213
3.08 • 23. .02 213
1.08 23. .02 213
4.00 23. 080
4.50 23. 080
.42 23. .01 213
8.00 23. .01 213
3.75 23. 080
3.00 • ?3 - .01 213
- .42 23. .01 213
.33 23. .02 213
< .08 23. .01 213
.75 23. .01 213
064 117
110 117
070 •, UNK
001 210
026 121
002 210
093
138
139
127
005
057
058
076
007
049
117
117
117
117
210
210
117
117
210
117
053 117
077, 117
A- 62
-------�
SUMMARY OF PERFORMANCE DETAIL.TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT-
• CASNO MATERIAL
076973720 PVC
PRODUCT VENDOR
DESC CODE
144 117
•
BREAKTHROUGH
HOURS
TINE
‘
.58
PERMEATION RATE
UG/CM**2/MIN
TEMP
DEG C
23.
THICKNESS
CM
.02
REF
NUM
213
•
SARANEX
061
117
5.00
23.
.01
213
- SILVER SHIELD
122
118
>
6.00
23.
•
.01
227
VITON
145
117
>
8.00
23.
.01
213
VITON/NEOPRENE
111
117
>
8.00
23.
.02
213
Nitric Acid, <30%
-
.
076973721 NATURAL RUBBER
017
100
>
6.00
23.
.05
107
.
102
>
8.00.
23.
.05
026
.
>
8.00
?3.
.05
.
>
>
8.00
8.00
23.
23.
.05
.05
026
026
NEOP+NAT RUBBER
026 -
102
>
8.00
23.
.06
026
.
>
8.00
23.
.04
026
>
8.00
23.
.05
026
NEOP/NAT RUBBER
008
102
>
8.00
23.
026
, NEOPRENE
002
100
>
6.00
23.
107
018
100
‘
>
6.00
23.
.04
107
NITRILE
019
100
>
6.00
23.
.06
107
NITRILE+PVC
058
100
>
6.00
23.
107
PE
076
100
.75
23.
107
PVC
007
100
>
6.00
23.
107
.
077
100
>
6.00
4.75
23.
23.
107
107
Nitric Acid, 30-70%
.
.
076973722 NATURAL RUBBER
017
102
>
6.00
23.
.05
026
3.00
23.
.05
026
.
>
5.50
8.00
23.
23.
.05
.05
026
026
NEOP+NAT RUBBER
026
102
>
3.00
23.
.06-
026
2.00
23.
.04
026
.
> -
6.00
23.
.05
026
NEOP/NAT RUBBER
008
102
>
6.00
23.
026
NEOPRENE
002
100
> •
- 6.00
.
23.
.
018
100
2.33
23.
.04
107
PE
076
127
.83
23.
•
104
PVC
007
100
5.75
23.
107
SARANEX
061
127
46.67
<
02
23.
104
Nitric Acid, >70%
076973723 NATURAL RUBBER
.
001
01-5
UNK
UNK
>
> -
1.00
1.00
23.
23.
.04
052
052
NEOP/NAT RUBBER
• 008
UNK
>
1.00
23.
052
NEOPRENE
018
UNK
>
>
1.00
LOD
23.
23.
.09
.06
052,
052
NITRILE
019
UNK
>
1.00
23.
.05
052
NITRILE+PVC
058
100
.10
23.
107
PE
076
100
•
.22
23.
107
PVC
003 - UNK
007 UNK
>
.10
1.O ,
23.
23.
.02
052
052
SARANEX
061
127
.
-
1.78
23.
VITON
009- -
UNK
>
1.00
‘-23.
104
A- 63
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
PERMEATION RATE
UG/CM**2/MIN
TEMP THICKNESS REF
DEGC CM HUM
Nitric Acid, Fuming Red
080075870 BUTYL
CHLOROBUTYL
CPE
NATURAL RUBBER
PV ALCOHOL
PVC
SILVER SHIELD
VITON
014 118
052 205
060 113
017 100
101
110
008 114
002 100
018 . 100
019 100
118
004 100
003 120
007 100
053. 189
054 189
077 212
122 118
009 118
> 1.50
1.50
>. 1.50
1.50
.45
> 1.50
> 1.50
- 1.50
> 1.50
1 5O
> 1.50.
> 1.50
1.50
1.50
> 1.50
> 1.50
> 1.50
> 1.50
> 1.50
1.50
.01•
.20
.57
.07
.92
.67
.43
.37
.07
.25
.04
.01
.12
.58
> 1.50
23.. .03 001
001
001
001
001
001
001
001
001
001
001
001
001
001
001
001
001
001
23. .03 001
23. .03 001
23. .09 001
23. .05 001
23. .10 001
23. .03 001
23. .09 001’
23. . .11 001
23. . .10 001
23. .07 001
23. .06 001
23. . .07 001
23. .05 001
NEOP/NAT RUBBER
NEOPRENE
NI TR I LE
23. .04
23. .08
23. .05
23. .05
23. .04
23. .05
23. .04
.23. .05
23. .05
23. .04
23. .04
23. .04
23. .13
23. .13
23. .05
23. . .04
23. .04
Ni trobenzene
000989530
23. .05
23. .03
23. .01
23. .03
001
001
227
•O01
BUTYL
014 .
.
118
>
>
23.00
. 23.00
.
23.
23.
.06
4.00
323 -
227
064 .
117
.
8.00
23.
.01
213
CPE
NATURAL RUBBER
NEOPRENE
NITRILE
060
070
017
018
031
019
113
UNK
100
100
511
118
.
1.03
1.03
.08
.75
.67
.48
9.02
-
.
90.18
1.14
132.26
10.22
25.
23.
23.
23.
? •
23.
.07
.05
.05
.05
.04
302
004
107
323
323
323
PV ALCOHOL
004
102
100
100
>
>
.55
6.00
16.00
<
10.22
.90
23..
23.
23.
.04
.03
227
107
323
SILVER SHIELD
-TEFLON
122
069
118
510
>
8.00
3.00
.02
.23.
23.
.01
.05
227
A- 64
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
069 510
009 118
>
112 113 2.83 -
Nitrogen •Tetroxide
105447260 BUTYL 014 118 2.00
.68
064 113 .60
085 211 > 2.00
CHL OROBUTYL 052 205 > 2.00
CPE 060 113 1.15
070 113 1.25
CR 39 095 . 122 > 2.00
091 UNK 1.17
PVC 003 103 . .33
.20
053 126 .65
083 211 > 2.00
062 UNK .01
067 UNK .01
069 UNK .01
.01
009 118 .77
CHEMICAL NAME!
CASNO
RESISTANT
MATER IAL
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
PERMEATION RATE
UG/CM**2/MI N
000989530 TEFLON
VITON
VI TON/CHLOROBUTYL
Nit roethane
000792430 BUTYL
NATURAL RUBBER
NEOPRENE
PV ALCOHOL
TEMP THICKNESS REF
DEGC CM NUM
.02 24.
23.
23.
25.
3.00
8.00
8.00
3.00
> 8.00
.03
.82
3.52
.05
.03
.02
.04
014 118
001 250
018 100
102 100
303
323
227
302
186.37
102.20
2.40
23. .09 323
23. .02 323
23. .04 323
23. .07 323
TEFLON
VITON
22. .23
22. .05
22. .03
22. .11
23. .04
22. .05
22. .06
22. .17
22. .04
22. .13
22. .13
22. .05
22. .19
23. .02
23. .02
23. .02
23.. .02
22. .03
321
321
321
321
321
321
321
321
321
321
321
321
321
321
321
321
321
321
Ni tromethane
000755250
Ni tropropane
253220140
BUTYL
014
118
>
8.00
23.
.09
323
NATURAL RUBBER
001 .
250
<
.02
%.19
23.
.02
323
017
., 100
. .07
<
.90
23.
.05
107
NEOPRENE
002
018
100
100
1.50
1.00
.90
<
.
.90
9.02
23.
23.
.04
107
107
.
1.07
3.01
23.
.05
323
NITRILE
019
100
.50
90.18
.
901.80
23.
Mo
107
PE .
076
100
>
6.00
<
.90
23.
107
PV ALCOHOL
004
100
>
6.00
<
.90
23.
107
102
100
.17
30.06
23.
.07
323
BUTYL
014
118
>
8.00
<
.02
23.
.04
227
034
UNK
>
101.00
•
22.
.08
078
NITRILE
019
033
118
UNK
.42
.
. .27
.83
177.35 .
200.40
23.
22.
.04.
.09
227
078
NITRILE+PVC
•
058
100
<
08
9.02
.
90.18
23.
107
PE
076
100
.05
9.02
.
90.18
23.
107
PV ALCOHOL
035
UNK
<
.08
44.09
22.
.02
078
SILVER SHIELD
122
118
>
8.00
23.
.01
227
VITON
009
118
.35
73.41
23.
2.00
227
A- 65
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
n-Octanot
290632830 NATURAL RUBBER
NITRILE
NITRILE+PVC
PV ALCOHOL
PVC
210
018 100
005 210
019 100
057 210
004 100
007 100
210
6.00
7.00
6.00
> 6.00
6.00
4.00
> 6.00
6.00
CHEMICAL NAME!
CASNO
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
PERMEATION RATE
UG/CM**2/MIpl
014
019
102
069
009
TEMP THICKNESS REF
DEG C CM NUM
118
118
100
510
118
23.
177.35 23.
23.
.02 23.
156.91 23.
RES I STANT
MATERIAL
1-Nitropropane
001080320 BUTYL
NITRILE
PV ALCOHOL
TEFLON
VITON
2-Ni tropropane
000794690 BUTYL
NATURAL RUBBER
NEOPRENE
PV ALCOHOL
n-Ni trosodimethytamine
000551850 CPE
NonyL henoL
251545230 NEOPRENE
NITRILE
n-Octane
001116590 ‘ NATURAL RUBBER
NEOPRENE
NITRILE
NITRILE+PVC
PVC
.04 323
.04 323
.03 323
.05 303
.03 323
014 118
001 250
018 100
102 100
060 113
> 8.00
.20
> 15.00
> 3.00
.28
> 8.00
.03’
.72
> 8.00
- so
.70
> 20.00
> 4 O0
-33
7:00
6.00
4.75
92
.75
1.00
> 7.00
23. .08 323
192.38 23. .02 323
144.29 23. .04 323
23. .06 323
23. .05 204
438.88 23. .05 204
23. .05 123
23. .04 123
018
019
001
002
005
057
007
001
017
002
100
100
210
210
210
210
210
210
100
100
NEOPRENE
Oteic Acid
001128010
120.24
216.43
.02
72.14
108.22
10.22
.90
.90
.02
.90
.02
.90
.02
.90
.90
.02
.90 - 9.02
.90
.90 - 9.02
.90
.90
.90
.90
.90 - 9.02
.90
.90
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
080
‘080
080
080
080
080
.05 107
107
080
.04 107
080
.06 107
• 080
107
• 107
080
.05 107
107
.04 107
.06 107
107
.107
107
107
107
107
NEOPRENE
002
100
018
100
NITRILE
019
100
NITRILE+PVC
058
.
100
:
PV ALCOHOL
PVC
076
‘004
007
077
100
100
100
.50
2.50
1.00
> 6.00
> 6.00
> 6.00
1.00
1.50
> 600
> 6.00
A- 66
-------�
SUMMARY OF PERFoRMANcE DETAIL TESTS
PERMEATION TEST
Oxatic Acid
001446270
Pentach Lorophenot
000878650 NEOPRENE
NITRILE
PV ALCOHOL
PVC
118
210
100
100
210
100
> 8.00
6.00
> 6.00
6.00
6.00
> 6.00
> 8.00
6.00
> 6.00
8.00
6.00
> 6.00
> 6.00
> 6.00
6.00
> 6.00
6.00
> 8.00
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEG C CM MUM
.07 323
080
.05 107
107
080
.04 107
.05 323
080
.06 107
.02 19. .04 323
.02 23. 080
23. 107
23. 107
23. 107
.02 23. 080
23. 107
23. 107
.02 20. .03 323
CHEMICAL NAME!
CASNO
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
014
001
017
002
018
005
019
RESISTANT
MATERIAL
BUTYL
NATURAL RUBBER
NEOPRENE
NITRILE
NITRILE+PVC
PE
PVC
VITON
NATURAL RUBBER
NEOPRENE
NITRILE
PVC
210
100
.02 19.
.02 23.
23.
23.
.02 23.
23.
.02 19.
.02 23.
23.
057 210
• 058 100
076 100
007 100
210
077 100
009 118
Patmitic Acid
000571030
017
002
018
019
007
100
100
100
100
100
Pentane
001096600
NATURAL RUBBER
NEOP+NAT RUBBER
NEOP/NAT RUBBER
NEOPRENE
.08
> 6.00
> 6.00
.50
1.25
.10
.10
6.00
.12
3.00
.05
.03
.01
.06
.06
.09
.07
.03
.75
.11
.11
50.
.08
.50
> -1.00
1 .08
> 1.00
002 100
018 100
019 100
004 100
007 100
001 210
017 100
120
502
504
026 102
008 114
002 100
120
210
018 100
118
120
23.
23.
23.
23.
23.
23.
23.’
23.
23.
23.
23.
25.
25.
25.
25.
25.
25.
25.
23.
25.
25.
23.
23.
23.
25.
25.
25.
.05 107
107
.04 107
.06 107
107
107
.04 107
.06 107
107
107
080
.03 222
.02 222
.05 222
.05 222
.06 222
.05 222
.05 222
107
.08 222
.07 222
080
.05 000
.04 107
.08 222
.05 222
.07 222
.90
.90
.90
90.18 ‘ 90L80
.90
913.82
2,705.40
5,711.40
1,803.60
1,803.60
1,603.20
1,803.60
2,304.60
.90 - 9.02
25.05
24.05
667.33
.28
90.18 - 901.80
2.00
10.02
2.00
A- 67
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
SILVER SHIELD
VITON
NATURAL RUBBER
NEOPRENE
NITRILE
NI TRI LE+PVC
PE
PVC
018 120
005 210
019 100
503
057 210
058 100
006 100
505
076 100
004 100
102 100
003 120
500
501
007 210
122 118
009 118
.63
.33
6.00
.03
> 1.00
> 6.00
> 01.00
> 1.00
.09
1.25
.18
.01
.05
.08
> 6.00
.25
.01
.01
.15
.04
.01
.01
.02
.33
>• 6.00
> 8.00
> 8.00
16.03 25. .05 222
21.04 25. .03 222
.02 23. 080
.02 23. .04 323
2.00 25. .04 222
.90 23. .06 107
2.00 25. .06 222
2.00 25. .04 222
10.02 25. .03 222
90.18 23. 080
90.18 23. 107
400.80 25. .01 222
70.14 25. .01 222
901.80 23. 107
.90 23. 107
.02 23. .03 0 323
1,102.20 25. .01. 222
811.62 25. 0 .01 222
100.20 25. 0 .03 222
250.50 25. .02 222
721.44 25. .01 222
1,603.20 25. .01 222
1,603.20 25. .02 222
210.42 23. 080
23. .01 227
23. .02 323
23. .02 227
23.
23.
23.
23.
23.
23.
.02 23.
• 23.
23.
080
080
080
080
107
107
080
107
107
.02
.02
.02
-.02
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME PERMEATION RATE
TEMP
THICKNESS
REF
HOURS UG/CM**2/MIN
DEG C
•
CM
HUM
9.02
90.18
CHEMICAL NAME/ RESISTANT
•CASNO MATERIAL
001096600 NEOPRENE
NITRILE
NITRILE+PVC
PE
PV ALCOHOL
Pvc
Perchtoric Acid
076019030
Perchtoric Acid, 30-70%
076019032 • NATURAL RUBBER
NEOPRENE
NITRILE
PVC
PhenoL (CarboLic Acid)
001089520 CPE
NATURAL RUBBER
001
002
005
057
058
076
007
077
017
002
018
019
007
210
210.
210
210
100
100
210
100
100
• 100
100
100
•100
6.00
6.00
6.00
6.00
> 6.00
> 6.00
6.00
> 6.00
> 6.00
> 6.00
> 6.00
> 6.00
> 6.00
> 6.00
3.40
2.92
.58
> 1.00
1.00
.27
060 • 113
001 210
017 100
120
23.
23.
23.
23.
23.
23.
60.12 23.
23.
3.01 25.
9.02 - 90.18 23.
15.03 25.
.05 107
107
.04 107
.06 107
107
.05 204
.05 204
080
.03 222
.05 107
.02 222
A-6 8
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME!
CASNO
001089520
RESISTANT
MATERIAL -
NATURAL RUBBER
PRODUCT VENDOR
DESC CODE
017 502
BREAKTHROUGH
HOURS
TIME
PERMEATION RATE
UG/CM**2/MIN
TEMP
DEG C
25.
THICKNESS
CM
.05
REF
NUM
222
>
1.67
3.01
504
>
1.00
3.01
25.
.05
222
.
>
1.00
3.01
25.
.06
222
NEOP+NAT RUBBER
026
102
>
1.00
3.01
25.
.05
222
NEOP/NAT RUBBER
008
114
•
>
1.00
3.01
25.
.05
222
NEOPRENE
002
100
>
6.50
.90
- 23.
107
>
1.65
3.01
25.
.08
222
210
.67
23.
080
018
100
3.00
9.02 . 90.18
23. .
.04
107
118
>
1.00
3.01
25.
.08
222
•
120
>
1.00
3.01
25.
.05
222
>
1.00
3.01
25.
.07
222
>
1.00
3.01
25.
.05
222
>
1.00
3.01
25.
.03
222
NITRILE
005
210
.67
23.
080
019
100
.
.93
300.60
25.
.04
222
>
1.00
3.01
25.
.06
222
.53
300.60
25.
.04
222
503
.60
> 250.50
25.
.03
222
NITRILE+PVC
057
210
2.00
23.
080
.PE
006
100
>
1.00
3.01
25.
.01
222
505
1.00
3.01
25.
.01
222
PV ALCOHOL
004
100
.50
9.02 . 90.18
23.
107
PVC
.
003
120
.05
190.38
25.
.01
222
.13
120.24
25.
.01
222
.53
77.15
25.
.03
222
.
.25
100.20
25.
.02
222
500
.10
130.26
25;
.01
222
501
.10
120.24
25.
.01
222
.
.06
120.24
25.
.02
222
007
100
1.25
.90 . 9.02
23.
107
.
TEFLON
069
210
510
>
1.33
3.00
.02
23.
23.
.05
080
.303
PhenoL, >70%
001089523
BUTYL
.
NEOPRENE
NITRILE
NITRILE+PVC
PE
PVC
014
018
125
019
058
076
007
077
118
100
103
103
118
100
1.00
103
100
.
>
>
>
20.00
20.00
10.67
.58
.65
.83
6.00
.50
.02
18.04
1,274.54
> 9,018.00
.90 - 9.02
.90
18.04
.90 - 9.02
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
.06
.04
.05
.03
.04
323
227
000
045
045
323
227
107
107
045.
107
VITON
009
118
>
>
1.50
15.00
15.00
.90 . 9.02
.02
23.
23. .
23.
.03
.02
107
323
227
Phenolphthatein
.
.
000770980
NATURAL RUBBER
NEOPRENE
017
018
506
100
>
>
8.00
8.00
23.
23.
.02
.04
323
323
.
A- 69
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEG’C CM NUN
Phosphorus Oxych toride
100258730 .CPE
NEOPRENE
NITRILE+PVC
NONWOVEN PE
PV ACETATE
PVC
SARANEX
VITON
060 UNK
002 UNK
018 UNK
058 UNK
071 UNK
124 UNK
007 UNK
061 UNK
009 UNK
.83
.01
> 1.00
.57
.48
.08
.03
.01
.84
.26
23. 052
23. 052
23. .09 052
23. .06 052
23. 052
23. 052
23. 052
23. 052
23. 052
23. .03 052
1 -Piperazineethanamine
001403180 BUTYL
014 118
4.00
24.00
> 24.00
> 3.00
1 .00
.08
> 24.00
23. .05 123
BREAKTHROUGH TIME
HOURS
CHEMICAL NAME!
RESISTANT .
PRODUCT
VENDOR
• CASNO
MATERIAL
DESC CODE
000770980
NITRILE
019
.100
.
PVC ,
003
100
Phosphoric
Acid
076643820
NATURAL RUBBER
NEOPRENE
001
002’
210
210
NITRILE
005
210
NITRILE+PVC
057
210
PE
PVC
076
007
127
210
SARANEX
061
127
Phosphoric
Acid,
>70%
076643823
NATURAL RUBBER
017
100
102
026
102
>
8.00 .
•
23.
.04
323
>
8.00
23.
.02
323
6.00 .
<
.
.02
23.
080
6.00
<
.02
. 23.
080
6.00
<
.02
23.
•
080
6.00
.02
23.
080
>
14.00
23.
104
6.00
<
.02
23.
080
>
14.00
23.
104
>
6.00
23.
.05
107
>
6.00
23.
.05
026
>
6.00
23.
.05
026
>
6.00
23.
.05.
026
>
6.00
.
23.
.05
026
>
6.00
23.
.06
026
>
6.00
23. •
.04
026
>
6.00
23
.05
026
>
6.00
23.
026
>
6.00
23.
107
>
6.00
•
•
23.
.04
107
>
6.00
23.
.06
107
>
6.00
23.
107
>
6.00
23.
>
6.00
.
23.
107
107
>
6.00
23.. •
107
NEOP+NAT RUBBER
NEOP/NAT RUBBER
•NEOPRENE
NI TR I LE
NITRILE+PVC
PE
PVC
008
002
018
019
058
076
007
077
102
100
100
100.
100
100
100
100
Potychtorinated Biphenyts (PCBs) (Aroctor)
013363630 BUTYL 014 118
CPE 070 UNK
NATURAL RUBBER 017 UNK
NEOPRENE 010 UNK
23. .04
23. .04
23. .05
23. .02.
23. .02
23. .03
290
290
004
290
290
290
A— 70
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
Propionatdehyde
001233860
BUTYL
014 118
> 13.00
23. .06 323
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
‘PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEGC CM ‘ NUM
CHEMICAL NAME!. RESISTANT
CASNO MATERIAL
013363630 NEOPRENE
PE
PV ALCOHOL
SARANEX
TEFLON
yuaN
Potassium Hydroxide, 30-70%
013105832 ‘ NATURAL RUBBER
‘
‘
010
UNK
>
24.00
“ 23.
.03 290
.
>
24.00
.
23.
.03 290
>
24.00
.
‘23.
.03 290
018
100
24.00
23.
.04 290
,
>
24.00
.
.
24.00
.
23.
.04 290
.04 290
.
24.00
23.
.04 290
006
100
1.00
23.
.01 290
.1.00
23.
.01 .290
076
127
<
1.00
<
.02
23.
: ‘ 104
102
100
>
24.00
23.
.05 290
‘
>
24.00
23.
.05 290
061
127
1.00
.
2.00 ‘
<
.02
23.
‘104
6.00
‘
‘23.
,
7.00
‘
23. ‘
290
.02 290
7.00
•
23.
.02 290
036
‘
UNK
>
24.00
‘
‘
23.
.01
>
‘24.00
‘
23.
290.
.01 290
>
24.00
23.
.
009
118
‘
>
24.00
23.
.01 290
.02 290
>
24.00
23.
‘ .02 ‘290
>
‘ 24.00
.
‘ 23.
.02 290
001
210
1.33
23.
080
017
100
>
‘ 6.00
,
NEOP+NAT RUBBER
‘
026
‘ ,
121
‘
>
8.00
<
.02
‘23.
.05 107
.05 237
NEOPRENE .
002
.,
‘100
210
>
6.00
‘3.00
•
23.
23.
107
080
.
‘
018
100
>
, Qo
23.
.04 107
NITRILE
005.
210
6.00
<
.02
23.
080
.
019
100
‘ >
6.00
23.
.06
NITRILE+PVC
PE
•
057
058
076
‘
210
100
100
>
>
6.00
6.00
6.00
<
.02
23.
23.
.23.
080
107
107
Pvc
007
077
•
.
100
210
100
>
‘
>
6.00
6.00
6.00
‘6.00
“
<
.02
‘23.
23.
23.
23.
107
080
107
107
.
‘
014
018
019
.
118
‘100
100
>
>
8.00
‘8.00
8.00
‘ ‘
<
<
.02
.02
.02
19.
19.
‘22.
.06’ 323
.02 323
‘.02
PVC ,.
007
‘100 ‘
>
.8.00
,
.02
20.
.05 323
NATURAL RUBBER
017
508
.25
.
.33
4.31
22.
,PE
006
209
.17
.
.50
1.20
22.
078
.01078
POLYURETHANE
050
‘
178
‘
Promethazinehydrochtoride
000583330 BUTYL
NEOPRENE
NITRILE
beta-Propi otactone
000575780
A-71
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
001 210
017 100
002 100
210
C18 100
005 210
019 100
057 210
058 100
076 100
007 100
210
077 100
069 510
1.17
.33
> 6.00
1.50
2.50
6.00
> 6.00
6.00
.05
.05
1.50
2.00
.33
.25
> 3.00
9.02
.90 9.02
.90
6.01
.90
.02
.90
.02
.90 9.02
.90 - 9.02
.90 9.02
• 9.02
.90 - 9.02
.90 - 9.02
.02
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
PERMEATION RATE
UG/CM**2/MIN
TEMP THICKNESS REF
DEG C CM NLJM
018
100
.20
•
67.94
23.
.05
.323
102
100
<
.01
27.05
23.
.04
323
009
118
<
.01
85.37
23.
.03
323
076
127
.05
1.62
23.
104
069
510
>
3.00
<
.02
23.
.05
303
076
127
.08
76.35
23.
104
014,
118
‘ 2.70
172O
23.
.04
227
017
100
.08
90.18
.
901.80
23.
.05
107
019
100
.33
9.02
.
90.18
23.
.06
107
118
.28
435.87
23.
.04
227
076
100
‘ .05
: .90
-
9.02
23.
‘ 107
004
100
2.00
‘ 9O
-
9.02
23.
107
122
118
>
6.00
23.
• .01
227
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
001233860 NEOPRENE
• . PV ALCOHOL
VITON
Propionic Acid
000790940 PE
TEFLON
Propionic Anhydride
001236260 PE
Propyl Acetate
001096040 BUTYL
NATURAL RUBBER
NITRILE
PE
PV ALCOHOL
SILVER SHIELD
Propyt Alcohol (Propanot)
000712380 NATURAL RUBBER
NEOPRENE
NITRILE
NI TR I LE+PVC
PE
Pvç
TEFLON
n-PropyL amine
001071080 CPE
TEFLON
Propylenediamine
000789000 BUTYL
NEOPRENE
PVC
VITON
23.
23.
.23.
23.
23.
23.
23.
23.
23
23.
23.
23.
23.
23.
23.
080
.05 107
107
080
.04 107’
080
.06 107
080
107
107
107
080
107
107
.05 303
070
069
014
018
007
009
UNK
510
118
100
100
118
23. .05 004
.02 23. .05 303
.15
> 10.20
> 8.00
> . 8.00
.30
> 8.00
2.15
> ‘8.00
.03
> 8.00
PropyLene Dichloride (Dichloropropane 1,2)
000788750 BUTYL 014 118
PV ALCOHOL 102 100
PVC 007 100
VITON 009 118
17.
24.
17.
25.
.07 323
.05 323
.02 323
.02 323
.02
.02
9.02
.02
190.38
.02
11,452.86
.02
23. .08
23. .07
23. .02
23. ‘.03
323
323
323
323
A—72
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
BREAKTHROUGH TIME
HOURS
PERMEATION RATE
UG/CM**2/M IN
TEMP THICKNESS REF
DEC C CM NUM
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
O6 086
.05 086
.06 086
107
.01 086
107
107
107
.06 323
.02 323
107
107
.03 323
.03 303
.05 303
.03 323
CHEMICAL NAME/ RESISTANT
PRODUCT
VENDOR
CASNO MATERIAL DESC CODE
Propylene GLycoL
000575560 NATURAL RUBBER
001
017
503
120
NEOP/NAT RUBBER
008
114
NITRILE+PVC
058
100
PE
006
512
.
076
100
PVC
077
100
Propylene Oxide
000755690 BUTYL
014
118
NATURAL RUBBER
001
506
.
PE
076
100
PV ALCOHOL
004
100
TEFLON
102
100
069
510
VITON
009
118
1,3-Propylene Oxide
005033000 BUTYL
014
118
NATURAL RUBBER
001
250
PV ALCOHOL
004
100
VITON
009
118
Propylmethacrylate
.
022102880 BUTYL
014
118
NITRILE
019
100
PV ALCOHOL
004
100
PVC
003
100
Pyridine
001108610 NATURAL RUBBER
017
•
100
120
502
504
NEOP+NAT RUBBER
026
102
NEOP/NAT RUBBER
008
114
NEOPRENE
002
100
•
018
.
120
118
120
NITRILE
019
100
> 3.00
> 3.00
> 3.00
> 6.00
> 3.00
> 6.00
> 6.00
> 6.00
2.20
<
.05
.58
.07
2.28
2.83
.02
1.13
.01
.17
.03
6.83
1.00
> 8.00
.03
.04
.03
.13
.20
.43
.14
.23
.65
.03
.85
.33
.63
.43
.07
.18
.25
.16
.09
.17
42.08
1,973.14
9.02 . 90.18
9.02 90.18
.90
.02
.02
10,769.30
561.12
30.06
3.01
30.06
48.10
150.30
.02
462.92
701.40
1,202.40
400.80
501.00
300.60
400.80
300.60
200.40
701.40
400.80
901.80
601.20
701.40
1,703.40
3,206.40
3,006.00
3,507.00
4,008.00
2,404.80
23. .07 323
23. .02 323
23. .03 323
23. 03 323
23. .08 323
23. .04 323
23. .07 323
23. .02 323
25. .03 222
25. .02 222
25. .05 222
25. .05 222
25. .06 222
25. .05 222
25. .05 222
25. .08 222
25. .07 222
25. .08 222
25. .05 222
25. .07 222
25. .05 222
25. .03 222
25. .04 222
25. .06 222
25. .04 222
25. .03 222
25. .03 222
181
503
A-73
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST.
RESISTANT
MATERIAL
PE
PRODUCT VENDOR
DESC CODE
006 100
505
BREAKTHROUGH TIME
HOURS
> 1.00
> 1.00
PERMEATION RATE
UG/CM**2/M IN
< 100.20 25.
10.02 25.
.01 222
.01 222
Cyanide, 30-70%
001433392 PE
076 127
< 4.00
.02 70.
104
Sodium Hydroxide, <30%
013107321. NEOP+NAT RUBBER
Sodium Hydroxide, 30-70%
013107322 BUTYL
BUT.YL/NEOPRENE
NATURAL RUBBER
NEOP/NAT RUBBER
NEOPRENE
064 . •117
110 117
001 210
UNK
015 UNK
017 100
008 UNK
002 100
210
018 100
UNK
093 117
138 117
139 117
127 117
005 210
019 . . 100
UNK
057 210.
058 117
071 127
076 117
127
003 UNK
007 100
210
UNK
049 117
8.00
> . 8.00
> 8.00
6.00
1.00
> 1.00
> . 6.00
> 1.00
> •6.00
6.00
> 6.00
> 1.00
> 1.OO•
> 8.00
> 8.00
> 8.00
8.00
6.00
> 6.00
> 1.00
6.00
> 8.00
.17
> 8.00
> 8.00
> 1.00
6.00
6.00
> 1.00
> 8.00
> 8.00
23.
23.
23.
.02 23.
23.
23.
23.
23.
23.
.02 23.
23.
23.
23.
23.
23.
23.
23.
.02 23.
23.
23.
.02 23.
23.
.63 23.
23.
.02 23.
23.
23.
.02 23.
23.
23.
23.
.02 213
.01 213
.02 213
080
052
.04 052
.05 107
052
107
080
.04 107
.09 052
.06 052
.02 213
.03 213
.01 213
.02 213
080
.06 107
.05 052
080
.01 213
104
.01 213
104
.02 052
107
080
052
.01 213
..01 213
CHEMICAL NAME/
CASNO
001108610
Sodium Cyanide, <30%
001433391 PE
076
TEMP THICKNESS REF
DEG C CM HUM
127
Sodium Hydroxide
013107320
6.00
.02 60.
104
CPE
NITRILE+PVC
PE
PVC
SILVER SHIELD
VI TON/CHLOROBUTYL
060 113
058 100
076 100
077 100
122 118
112 113
026 121
> 3.00
> 6.00
6.00
> 6.00
> 6.00
> 6.00
> 3.00.
> 8.00
25. .07 302
23. 107
23. 107
23. 107
23. 107
23. .01 227
25. .04 302
.02 23. .05 237
NE OPRENE+PVC
NITRILE
NITRILE+PVC
NONWOVEN PE
PE
PVC
A- 74
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
•CHEMICAL NAME! RESISTANT
CASNO
MATERIAL
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
PERMEATION RATE TEMP
UG/CM**2/MIN DEG C
THICKNESS REF
CM NUM
013107322 PVC
053
117
>
•
8.00
•
23.
.02
213
.
SARANEX
144
061
117
117
>
>
•.
8 OO
8.00
23.
23.
.02
.01
213
213
TEFLON
VITON
069
009
127
510
UNK
>
>
8.00
71.00
1.00
<
.02
23.
16.
23.
.05
.03
104
303
052
145
117
>
8.00
23.
.01
213
VITON/NEOPRENE
111
117
>
8.00
•
23.
.02
213
•
Sodium Hypochtorite, 30-70%
076815292 NATURAL RUBBER
NEOPRENE
001
002
210
210
6.00
6.00
<
<
.02
.02
23.
23.
080
080
NITRILE
005
210
6.00
<
.02
23.
080
NITRILE+PVC
057
210
6.00
<
.02
23.
080
PVC
007
210
6.00
<
.02
23.
080
060 113 1.00 . 1.17
001 210 .17
.20
.50
Styrene
001004250
SuLfuric Acid
076649390
002
125
005
019
057
058
076
004
007
210
103
210
103
210
100
100
100
103
210
348.70
517.03
30.06
733.46
456.91
186.37
9.02 - 90.18
9.02 - 90.18
.90
156.31
216.43
69.74
.02
CPE
NATURAL RUBBER
NEOPRENE
NITRILE
NITRILE+PVC
PE
PV ALCOHOL
PVC.
SARANEX
TEFLON
VI TON/CHLOROBUTYL
BUTYL
BUTYL/NEOPRENE
CPE
NATURAL RUBBER
NEOP+NAT RUBBER
NEOPRENE
NEOPRENE+PVC
-NITRILE
-NITRILE+PVC
NONWOVEN PE
PE
PVC
25. .07 302
23. 080
23. 080
23. - 045
23. 080
23. 045
23. 080
23. 107
+ 23. 107
23. . 107
23. 045
23. 080
-23. 104
23. .05 303
25. .04 302
23. .02 213
23. .01 213
23. .02 213
23. .02 213
25. .07 302
23. . .05 004
23. 080
.05 237
080
.02 213
.03 213
.02 213
.02- 213
080
080
.01 213
104
.67
• .07
.17
> 6.00
.33
.72
> 4.00
3.00
> 8.00
> 8.00
> 8.00
> 8.00
> 3.00
> 3.00
1.33
1.53
2.50
1.17
2.25
3.67
1.33
6.00
4.00
.42
.08
8.00
1.75
061 127
069 510
112 113
064 - 117
110 117
060 113
070 UNK
001 210
026 121
002 - 210
093 117
138 117
139 117
127 117
005 210
057 210
058 117
071 . 127
076. - 117
007 210
462.92 23.
23.
23.
23.
23.
23.
.02 23.
23.
23.
3,006.00 23.
- 23
23.
.01 213
080
A-75
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME!
CASNO
RESISTANT
MATERIAL
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
PERMEATION RATE
UG/CM**2/M IN
TEMP THICKNESS REF
DEGC CM NUM
SARANEX
SILVER SHIELD
VITON
VI TON/CHLOROBUTYL
VI TON/NEOPRENE
1.33
.42
> 8.00
> 6.00
> 8.00
> 3.00
> 8.00
23.
.01
213
23.
.01
213
23.
.02
213
23.
.02
213
23.
.01
213
23.
.01
213
23.
.02
213
23.
.01
213
23.
104
23. .01 227
• 23. .01 213
25. .04 302
23. .02 213
Sulfuric Acid, <30%
076649391
NEOP/NAT RUBBER
NONWOVEN PE
PE
SARANEX
058 100
071 127
076 100
127
077 100
061 127
2.00
.50
> 5.00
> 8.00
3.00
2.
> 8.00
> 3.00
> 6.00
)‘ 6.00
> 6.00
-> 6.00
> 6.00
> 6.00
> 6.00
6.00
.10
> 8.00
> 8.00
23.
.92 23.
23.
.02 23.
23.
23.
• .02 23.
.23.
23.
23.
23.
23.
23.
23.
23.
23,
4.51 23.
.02 23.
.02 23.
107
104
107
104
107
107
104
.05 004
.05 026
.05 026
.05 026
.05 026
.06 026
.04 026
.05 026
026
104
104
104
Sulfuric Acid, >70%
076649393 NATURAL RUBBER
NEOP/NAT RUBBER
NEOPRENE
NI TRI LE
NITRILE+PVC
NONWOVEN PE
PE
> • 1.00
> 1.00
.62
.08
> 6.00
> 8.00
> 2.00
23.
23.
23.
23.
23.
23.
052
.04 052
052
107
.04 107
.09 052
23. .06 052
23. .05 052
23. 107
38.38 23. 104
23. • 107
.02 23. 104
.02 65. 104
076649390 .PVC
049 • 117
053 117
077 117
144
061
.42
.42
.08
.33
.42
> 8.00
117
117
127
122 118
145 - 117
112 1.13
111 117
NITRILE+PVC
NONWOVEN PE
PE
PVC
SARANEX
Sulfuric Acid, 30-70%
076649392 CPE
NATURAL RUBBER
NEOP+NAT RUBBER
070
017
UNK
102
026 102
008
071
076
061
102
127
127
127
001 . UNK
015 UNK
008 UNK
002 100
018 100
UNK
> 1.00
> 1.00
> 1.00
> 6.00
3.00
> • 1.00
019
058
071
076
UNK
100
127
100
127
PVC
003 • UNK
007 - 100
.15
3.67
23.
23.
.02 052
107
A-76
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEG C CM NUM
Tannic Acid, 30-70%
014015542 NATURAL RUBBER
017 100
002 100
018 100
019 100
007 100
6.00
> 6.00
6.00
6.OO
6.00
.90 23.
.90 23.
.90 23.
.90 23.
CHEMICAL NAME!
CASNO
RESISTANT
MATERIAL
BREAKTHROUGH TIME
HOURS
076649393 PVC
SARANEX
TEFLON
VITON
Tannic Acid
014015540 NITRILE+PVC
PE
PVC
PRODUCT VENDOR
DESC CODE
007 UNK
077 100
061 127
069 510
009 UNK
058 100
076 100
077 100
> 1.00
.25
1.00
5.50
> 8.00
> 72.00
> 1.00
6.00
> 6.00
> 6.00
‘ . 6.00
23.
23.
23.
65.
.02 23.
.0225.
23.
23.
23.
23.
23.
052
107
- 107
104
104
.05 303
.03 052
107
107
107
107
.90 23. .05 107
107
.01. 107
.06 107
107
NEOPRENE
NITRILE
PVC
1,1,1 2 - Tetrach Loroethane
006302060 BUTYL
PV ALCOHOL
PVC
VITON
1,1 ,2,2-Tetrachtoroethane
000793450 BUTYL
NATURAL RUBBER
NEOP+NAT RUBBER
NEOPRENE
NITRILE
PE
138.28 23.
23.
330.66 23.
23.
014
102
.007
009
014.
017
026
002
018
.07 323
.08 323
.02 323
.03 323
118
100
100
118
118
100
120
502
504
102
100
120
118
120
100
2.30
> 8.00
.05
> 8.00
4.60
.11
.03
.09
.17
.35
.15
.10
.09
1.07
.53
.83
.30
.16
.37
1 .23
.22
.32
.07
.31
> 1.00
> 8.00
.02
.02
.10
019
23.
25.
25.
25.
25.
25.
25.
25.
25.
25.
25.
25.
25.
25.
25.
25.
25.
25.
25.
25.
70.14
2,605.20
5,611.20
2,905.80
1,402.80
1,302.60
3,206.40
501.00
601.20
20.04
1 ,1O2.20
1,002.00
1,402.80
2,204.40
3,206.40
> 300.60
3,106.20
2,204.40
10.02
1,402.80
2.00
.02
5,410.80
6,012.00
503
006 100
114
.07
.03
.02
.05
.04
.06
.05
.08
.07
.08
.05
.07
.05
.03
.04
.06
.04
.03
.01
.05.
.01
.04
.01
.01
.03
323
222
222
222
222
222
222
222
222
222
222
222
222
222
222
222
222
222
222
222
222
323
222
222
22?
.
505
PV ALCOHOL
004
100
PVC
003
120
25.
23.
25.
25:
2,505.00 25.
A- 77
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
cHEMIcAL NAME! RESISTANT
CASNO MATERIAL
• PRODUCT VENDOR BREAKTHROUGH TIME
DESC CODE HOURS
PERMEATION RATE TEMP THICKNESS REF
UG!CM**2/MIN DEG C CM NUM
TEFLON
VITON
UNK
005 210
019 100
118
UNK
020 :. 100
191
UNK
003 100
118
UNK
007 • . 210
061 127
.17
.17
.13
.13
1.07
.10
.02
.02
.05
.12
.20
.10
.13
20
4.00.
5.00
1 .28
1.30
3.52
3.52
7.25
5.33
6.20
.08
.02
.02
.02
.02
.08
5.00
> 16.00
.60
.35
.80
> . 6.00
> 8.00
.01
.02
.02
.75
.27
.08
.03
> 6.00
4,008.00 25. .02 222
25. .01 222
.01 222
.01 222
.02 323
.05 303
.03 323
> .751.50 23.
751.50 23.
895.12 25.
895.79 23.
23.
601.20 23.
> 751.50 23.
751.50 23.
1,478.95 23.
571.14 23.
980.29 25.
641.28 23.
641.28 23.
979.96 23.
6.01 23.
.90 - 9.02 23.
33.07 23.
33.07 23.
28.26 23.
28.22 . 25.
47.09 23.
41.08 23.
90.18 23.
901.80 23.
686.37 23.
686.37 23.
769.87 25.
769.54 23.
901.80 23.
.90 23.
23.
2.00 23.
11.62 23.
1.20 23.
23.
180.96 23.
744.82 25.
745.49 23.
114.23 23.
.1.14 23.
10.02 23.
20.04 23.
23.
.04 291
.04 291
• .04 288
.04 100
.05 004
080
.02 291
.02 291
.05 237
080
.05 288
.04 291
.04 291
.05 100
080
.06 107
.04 323
.04 227
.03 100
.03 288
.04 291
.04 291
080.
107
.01 291
.01 291
.01 288
.01 100
107
107
.04 323
.05 291
.05 291
.05 291
25. .05 288
.05 100
.02 323
.01 288
.01 100
080
104
.02 291
.02 291
.01 • 227
000793450 PVC
.04
- .01
.02
.03
.01
> . 15.20
> • 8.00
003 120
500
501
007 . 100
069 • 510
009 118
014 118
UNK
Tetrachtoroethytene (Perchtoroethylene)
001271840 BUTYL
4,108.20 25.
3,106.20 25.
70.14 23.
.02 .23.
.02. 23.
CPE
070
UNK
NATURAL
RUBBER
001
017
210
UNK
•
NEOP+NAT
RUBBER
026
121
.
NEOPRENE
002
010
018
210
100
100
057
058
006
210
100
100
NITRILE
NITRILE+PVC
PE
PV ALCOHOL
PVC
SARANEX
SILVER SHIELD
90.18 -
>
>
UNK
076 100
004 . 100
102 -. 100
90.18
122 118
A- 78
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME/ RESISTANT
CASNO MATERIAL
001271840 TEFLON
PRODUCT VENDOR
DESC CODE
036 214 .43
> 24.00
069 510 > 10.40
1.80
009 118 > 17.00
> 17.00
3.17
3.00
> 24.00
> 24.00
> 24.00
> 24.00
,> 6.00
UNK 8.00
2.30 23. ‘.01
23. .01
.02 23. .05
.25. .05
23 .03
23. .02
.02
.02
.02
23. .02
10. .02
10. .02
25. .02
23. .02
BREAKTHROUGH TIME PERMEATION RATE TEMP TH!CK•NESS REF
HOURS UG/CM**2/MIN DEG C CM NUM
4.21 45.
4.21 45.
23.
291
291
303
303
323
227
291
291
291
291
291
291
288
100
012
017
018
009
014
018
102
009
VITON
Tetraethytenepentamine
001125720 BUTYL
NATURAL RUBBER
NEOPRENE
VITON
Tetraf tuoroethytene
001161430 BUTYL
NEOPRENE
PV ALCOHOL
VITON
Tetrahydrofurar ,
001099990 BUTYL
BUTYL/NEOpRENE
CPE
NATURAL RUBBER
NEOP+NAT RUBBER
NEOP/NAT RUBBER
NEOPRENE
118
506
100
118
118
100
100
118
.09 323
.02 323
.05 323
.04 323
.06
• .06
.03
.03
323
323
323
323
014 118
064 117
110 117
060 113
070 UNK
017 100
120
502
504
.45 -
> 8.00
1.77
> 8.00
> ‘ 8.00
> 8.00
> 8.00
> ‘ 8.00
> 8.00
.45
.52
.12
.10
.08
.08
.05
.20
.04
.02
.06
.04
.11
.06
.02
.03
.02
.33
.09
.23
.08
.05
.03
.08
25.
12.02 28.
27.
23.
23.
23.
23
23.
671.54 23.
673.34 23.
23.
23.
23.
23.
25.
23.
> 16,699.98 25.
> 16,699.98 25.
>‘ 16,699.98 25.
3,507.00 25.
2,404.80 25.
> 16,699.98 25.
16,699.98 25.
8,016.00 25.
9,619.20 25.
9,018.00 25.
16,O32.OO 25.
.11,022.00 25.
14,028.00 25.
> 16,699.98 25.
23.
829.66 23.
23.
026
008
002
018
093
125
138
.07 323
.04 , 227
.02 213
.01 213
.02 213
.02 213
.07 302
.05 004
.03 222
.02 222
.05 222
.05 222
.06 222
.05 222
.05 222
.08 222
.07 222
.08’ 222
.05 222
.07 222
.05 222
.03 222
.02 213
045
.03 213
102
114
100
120
118
120
117
103
117
A-79
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
1.80
.03
.43
.43
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2.IMIN DEG C CM NUN
90.18 24.
1,923.84 23.
1,725.44 23.
1,725.44 24.
.05 323
.02 323
.04 323
.04 323
PRODUCT VENDOR BREAKTHROUGH TIME
DESC CODE HOURS
139 117
019 100
.10
23. .02 213
.04 222
.06 222
103
118
503
006 100
505
076 100
.10
3,707.40
25.
.10
2,705.40
25.
.08 4,308.60
931.86
1,005.81
1,004.00
3,507.00
200.40
4.01
.90 - 9.02
25.
23.
23.
23.
25.
25.
25.
23.
001099990 NEOPRENE
NI TR I LE
PE
PV ALCOHOL
PVC
SARANEX
TEFLON
VITON
VI TON/CHIOROBUTYL
VITON/NEOPRENE
N,N,N’,N’-Tetramethytenediamine
‘001101890 BUTYL
NITRILE
PVC
VITON
Thiophenol (Benzenethiot)
001089850 BUTYL
PV ALCOHOL
Totuene
001088830 BUTYL
.01
.07
.04
.01
.05
.25
.10
4.72
.01
.01
.03
.02
.01
.01
.16
.03
> 5.50
.01
.07
.08
.15 .18
.17
1.08
1.08
1.80
102
003
049
061
069
009
145
112
111
012
014
019
117
100
120
500
501
117
117
510
118
117
113
117
118
118
100
.04 222
045
.04 323
.04 227
.03 222
.01 222
.01 222
107
.01 213
.03 323
.01 222
.01 222
.03 222
.02 222
.01 222
.01 222
.01 213
.01 213
.05 303
.03 323
.02 227
.01 213
.04 302
.02 213
.07 323
.07 323
.05 323
23.
2.52 23.
25.
25.
25.
25.
25.
25.
23.
23.
.02 25.’,
1,964.09 23.
1,965.92 23.
23.
25.
23.
48.10 20.
48.10 ‘ 23.’
90.18 23.
003 100
009 118
014 118
004 100
012 UNK
.
.28
2,024.04
21.
.05
124
>
4.00
21.
124
.17
273.55
25.
.04
273
.33
254.31
25.
.04
273
.50
277.75
25.
.06
273
.50
276.55
25.
.06
273
.17
267.53
25.
.04
273
.25
304.81
25.
.04
273
.50
281.36
25.
.06
273
.67
251.30
25.
.06
273
.17
.
245.29
25.
.04
273
.17
253.71
25.
.04
273
.33
.
300.60
25.
.06
273
A- 80
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
001088830 BUTYL
060 113
001 210
UNK
017 100
120
502
504
UNK
008 114
UNK
002 100
120
210
UNK
018 100
118
120
.50
.35
.28
.15
.18
.47
.18
.15
.70.
1.15 - 1.25
.15
.01
.28
.30
.03
.01
.06
.05
.07
.01
.08
.07
.03
.02
.15
.21
.20
.53
.23
.43
.28
.07
.52
.46
.21
.08
.08
.25
.33
.08
.12
.02
.37
.12
.31
1.00
.38
.32
.45
.35
1 .20
> 1.00
281.36 25. .06 273
132.87: 23. .06 323
1,503.00 22. .05 122
37. .06 122
25. .04 149
25. .04 149
25. .04 149
25. .04 149
25. .04 149
.07 302
080
.12 274
.19 088
.24 088
.03 222
.02 222
.05 222
.05 222
.06 222
.04 274
.05 222
.05 274
.08 222
.07 222
080
.05 186
.05 323
.08 222
.05 222
.07 222
.05 222
.03 222
.09 122
.09 274
.06 274
.04 273
.04 273
.06 273
.06 273
.04 149
.04 149
.04 149
.04 149
.04 149
.04 187
080
.04 122
.04 222
.06 107
37. .06 122
37. .06 122
400.80 37. .06 122
< 300.60 25. .06 222
PRODUCT VENDOR BREAKTHROUGH TIME
DESC CODE HOURS
012 UNK
014 118
2.16
107 UNK
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEG C CM NUM
59.12
69.14
1,503.00
167.33
141.28
637.27
>, 521.04
649 .30
913.82
4,709.40
9,218.40
2,705.40
3,607.20
2,805.60.
> 521.04
4,709.40
> 541.08
1,002.00
2,605.20
499.00
CPE
NATURAL RUBBER
NEOP/NAT RUBBER
NEOPRENE
NITRILE
25.
23.
23.
25.
25.
25.
25.
25.
25.
25.
23.
25.
23.
25.
25.
23.
23.
23.
25.
25.
25.
25.
25.
22.
23.
531.06 23.
274.75 25.
240.48 25.
274.75 25.
235.67 25.
3,509.00 25.
767.53 25.
400.80 25.
2,143.28 25.
2,732.45 25.
131.06
701.40
1,402.80
1,302.60
901.80
2,505.00
> 1,503.00
> 526.05
509
UNK
031 UNK
005 210
019 100
23.
330.66 23.
300.60 22.
701.40 25.
23.
.17 90.18 . 901.80
A- 81
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
001088830 NITRILE
NITRILE+PVC
PE
181
503
509
UNK
UNK
033 UNK
057 210
006 100
505
056 UNK
076 100
127
004 100
UNK
035 UNK
BREAKTHROUGH TIME
HOURS
.24
.25
.16
.60
.18
.25
• 13
.28
.17
.55
.36
> 1.00
.33
.33
.58
.67
.12
.10
.11
.68
.13
.13
.23
.67
.01
.03
.12
.02
.08
25.00
.25
> 1.00
1.02
2.30
.02
.02
.01
.01
.05
.06
.20
.01
.01
.01
.20
.13
.47
.13
.50
.23
.28
.14
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEG C CM NUM
200.40 34.
300.60 22.
37.
501.00 25.
409.42 23.
200.40 22.
37.
200.40 22.
400.80 25.
801.60 25.
300.60 22.
> 526.05 23.
23.
260.32 25.
201.40 25.
211.62 25.
238.68 25.
601.20 22.
37.
701.40 34.
501.00 22.
1,184.36 25.
1,244.48 25.
23.
365.73 23.
2,204.40 25.
601.20 25.
23.
.90 - 9.02 23.
165.33 23.
22.
.90 - 9.02 23.
23.
11.02 25.
90.18 25.
4.01 25.
317.63 25.
8,817.60 25.
5,110.20 25.
2,104.20 25.
1,803.60 25.
1,503.00 22.
5,310.60 25.
5,911.80 25.
4,809.60 25.
37.
300.60 22.
200.40 22.
300.60 34.
426.85 23.
> 526.05 23.
23.
23.
PRODUCT VENDOR
DESC CODE
019 100
118
020 216
PV ALCOHOL
PVC
.04 122
.04 122
.04 122
.04 222
.04 227
.03 122
.04 122
.04 122
.03 222
.03 222
.06 122
.05 274
.05 274
.04 273
.04 273
.06 273
.06 273
.03 122
.04 122
.04 122
.09 122
.03 088
.03 088
.05 187
080
.01 222
.01 222
.01 187
107
104
.04 122
107
.12 274
.07 149
.07 149
.07 149
.07 149
.01 222
.01 222
.03 222
.02 222
.06 122
.01 222
.01 222
.02 222
.05 122
.06 122
.07 122
.05 122
080
.16 274
.07 186
.05 186
003 120
215
500
501
007 129
210
UNK
A- 82
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
SARANEX
SILVER SHIELD
TEFLON
VITON
VI TON/CHLOROBUTYL
VI TON/NEOPRENE
p-Totuenesutfonic Acid
001041540 CPE
007 UNK .15
.15
.09
.08
.38
.08
> 6.00
> 3.00
> 18.50
> 16.00
.58
> 3.30
> 4.50
> 7.00
UNK > 1.00
PERMEATION RATE •TEMP THICKNESS REF
UG/CM**2/MIN DEG C CM NUM
829.66 25. .13 088
25. .13 088
25. .10 088
25. .11 088
23. .03 187
2O.O4 23. 104
23. .01 227
.02 23. .05 303
.02 25. .05 303.
.02 23. .02 227
37. .02 122
34. .03 122
22. .03 122
22. .03 122
23. .03 274
25. .04 302
37. .06 122
200.40 22. .06 122
.02 23. .05 303
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
049 UNK
061 127
122 118
069 510
009 118
859.72
898.79
829.66
CHEMICAL NAME/ RESISTANT
CASNO MATERIAL
001088830 PVC
Totuene Di isocyanate
264716250 BUTYL
CPE
NATURAL RUBBER
NITRILE
PE
PV ALCOHOL
SILVER SHIELD
TEFLON
V I TON
112
022
014
070
017
005
019
076
004
102
122
069
009
070
018
003
.113
216
118
UNK
100
120
118
100
100
100
118
510
118
UNK
100
215
> 3.00
1.67
4.20
> 8.00
> 8.00
> 3.00
.12
> 8.00
3.86
3.70
1.00
> 6.00
> 16.00
> 8.00
> 3.30
> 16.00
> 16.00
> 3.00
> 4.00
> 4.00
23.
23.
23.
9.02 . 90.18 23.
23.
10.82 23.
10.82 23.
.90 - 9.02 23.
.90 23..
23
23.
.02 23.
23.
23.
.04 323
.04 227
.05 004
.05 107
.06 236
.03 323
.04 227
107
107
.03 323
.01 227
.05 303
.03 323
.02 227
NEOPRENE
PVC
o- Tot uidine
000955340 TEFLON
TriaL Lytamine
001027050 NEOPRENE
NITRILE
PVC
VITON
Trichtoroacetatdehyde (Chtorat)
000758760 BUTYL
PV ALCOHOL
PVC
069 510 > 3.30
23. .05 004
23. .05 123
23. O5 123
018 100
019 100
007 100
009 118
1.05
> 8.00
.08
> .8.00
3.32
> 8.00
.07
014
102
007
19. .05
22. .04
20. .02.
17. .03
118
100
100
323
323
323
323
561.12
.02
621.24
.02.
50.10
.02
2,845.68,
23. .07 323
23. .08 323
23. .02 323
A- 83
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME/ RESISTANT PRODUCT VENDOR BREAKTHROUGH TIME PERMEATION RATE TEMP THICKNESS REF
CASNO MATERIAL DESC CODE HOURS UG/CM**2/MIN DEG C CM NUM
000758760 VITOW 009 118 7.28 .02 23. .03 323
Trichioroacetonitrite
005450620 BUTYL 014 118 1.98 316.23 23. .06 323
NEOPRENE 018 100 1.12 927.65 23. .06 323
PV ALCOHOL 102 100 > 8.00 23. .06 323
VITON 009 118 1.00 184.57 23. .03 323
1 ,2,4 Trichtorobenzene -
001208210 BUTYL 014 UNK .08 23. .04 290
.08 23. .04 290
NATURAL RUBBER 017 UNK .08 23. .02 290
.08 23. .02 290
NEOPRENE 010 UNK 4.00 23. .03 290
5.00 23. .03 290
018 UNK 1.00 23. .04 290
PE 006 UNK .17 23. .01 290
.17 23. .01 290
076 127 .25 5.01 23. 104
PV ALCOHOL 102 UNK 1.00 23. .05 290
1.00 23. .05 290
SARANEX 061 127 .25 - 1.00 .10 23 104
UNK 1.00 23. .02 290
1.00 23. .02 290
TEFLON 036 UNK 1.00 - 23. .01 290
8.00 23. .01 290
VITON 009 UNK .17 23. .02 290
.17 23. .02 290
1 ,1,2-Trichtoroethane
000790050 BUTYL 014 118 5.78 42.08 23. .09 323
UNK .83 23. .06 326
064 UNK .75 23. .04 326
NATURAL RUBBER 017 UNK .02 23. .02 326
NEOPRENE 018 UNK .12 23. .06 326
NITRILE 019 UNK .03 23. .02 326
PE 042 UNK .06 23. .01 326
POLYURETHANE 050 UNK .02 23. .01 326
PV ALCOHOL 102 100 8.00 23. .0.7 323
UNK .25 23. .04 326
PVC 003 118 .03 1,238.47 23. .02 323
TEFLON 036 UNK > 24.00 - 23. .01 326
044 UNK 2.92 23. .01 326
VITON 009 118 > 8.00 23. .05 323
UNK > 24.00 23. .03 326
2,2,2Trfchtoroethanot
001152080 SARANEX 061 127 .32 13.23 23. 104
Trichioroethylene (TrichLbroethene)
000790160 BUTYL 014 118 .23 3,308.40 23. .06 323
.08 > 826.65 23. .04 291
.08 > 826.65 23. .04 291
A-84
-------�
- SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
PERMEATION RAT.E TEMP THICKNESS REF
UG/CM**2!MIN DEG C CM HUM
2,037.40 25. .04 288
3,306.60 23. .04 227
2,044.08 23. .04 100
23.
1,262.52 23.
9,418.80 25.
> 16,699.98 25.
7,615.20 25.
6,813.60 25.
PRODUCT VENDOR BREAKTHROUGH TIME
DESC CODE HOURS
014 118
UNK
070 UNK
001 210
017 100
120
502
504
UNK
026 102
008 114
002 100
120
210
UNK
010 100
018 100
118
120
.08
.22
.08
.20
.10
.03
.01
• 05
.05
.08
.02
.02
.05
.08
.03
.03
.13,
.23
.08
.05
<- .07
.38
.05 004
080
‘.03 222
.02 222
.05 222
.05 222
222
291
291
222
222
222
222
080
.05 186
.05 288
.04 291
.04 291
.08 222
5,310.60 25. .06
> 656.31 23. .02
> 656.31 23. .02
7,314.60 25. ‘.05
5,911.80 25. .05
1,903.80 25. .08
1,803.60 25. .07
1,160.32 23.
23.
2,187.70 25.
> 566.13 23.
> 566.13 23.
1,302.60 25.
000790160 BUTYL
CPE
NATURAL RUBBER
NEOP+NAT RUBBER
NEOP/NAT RUBBER
NEOPRENE
NI TR I LE’
NITRILE+PVC
PE
PV ALCOHOL
UNK
.78
UNK
.25
103
210
100
.33
.15
.43
.16
103
118
503
UNK
.07
.13
.13
.16
.14
2,304.60
25.
.05
222
.25
2,104.20
25.
.07
222
.20
1,903.80
25. ‘
.05
222
.06
.
4,208.40
25.
.03
222
2,194.38
23.
.05
100
031
.17
-
53.11
22.
.08
078
125
823.64
23.
,
045
005
-
1,106.21
23.
080
019
‘
2,004.00
25.
.04
222
901.80
25.
.06
222
2,104.20
1,791.58
25.
23.
.04
222
045
-
1,701.40
23.
.04
323
1,701.40
23.
.04
227
1,603.20
25.
.03
222
‘
1,647.29
23.
.03
100
020
100
503
<
.16
.25
>
1,646.62
826.65
25.
23.
.03
.04
288
291
‘
.
.18
>
826.65
23.
.04
291
033
UNK
.17
-
.25
60.12
22. -
.09
078
057
210
.50
1,244.48
23.
080
058 -
100
.05
901.80 -
9,018.00
23.
107
006
100
<
.02
>
657.31
23.
.01.
291
<
.02
- >
657.31
23.
.01
291
- 076
UNK
100
-
.01
.02
.08
9.02 -
- 1,503.00
1,394.45
1,394.78
90.18
- 25.
25.
23.
23.
.01
.01
.01
‘
222
288
100
107
004
100
.50
<
.90
23.
107
035
UNK
<
.25
8.02
22.
.01
078
102
100
>
16.00
23.
.04
323
-- A-85
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME/ RESISTANT
CASNO MATERIAL
000790160 PV ALCOHOL
SARANEX
SILVER SHIELD
TEFLON
VITON
1,2,3-Trichtoropropane
000961840 BUTYL
NITRILE
PV ALCOHOL
VITON
PRODUCT VENDOR
DESC CODE
102 100
UNK
003 118
120
500
501
UNK
007 103
210
UNK
077 100
061 127
122 118
036 214
069 510
009 118
• BREAKTHROUGH TIME
HOURS
24.00
24.00
24.00
24.00
24.00
24.00
> 6.00
8.00
.02
.01
.01
.05
.01
.01
.01
.01
.02
.33
.16
.08
.07
.05
.02
.02
> 6.00
> 24.00
>‘ 24.00
2.38
2.43
2.60
7.35
> 24.00
> 24.00
.80
.80
7.40
10.00
12.00
> 6 o0
> 8.00
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEGC CM NUM
23. .05 291
23. .05 291
10. .05 291
10. .05 291
45. .05 291
45. .05 291
25. .05 288
23. .05 100
25. .01 288
25. .01 222
25. .01 222
25. .03 222
25. .02 222
25. .01 222
25. .01 222
25. .02 222
.23. .01 100
23. 045.
23. 080
23. .07 186
23. .05 186
23. 107
23. . 107
23. .02 291
23. .02 291
23. .01 227
23. .01 291
23. .01 291
.03 23. .05 303
.03 23. .05 303
O3 23. .05 303
1.44 23. .03 323
10. .02 291
10. .02 291
23.05 45. .02 291
21.04 45. .02 291
1.40 23. .02 227
1.60 23. .02 291
1.70 23. .02 291
25. .02 288
23. .02 100
PVC
1 ,015.36
11,022.00
9,018.00
3,807.60
8, 216. 40
13,026.00
13,026.00
6, 212. 40
1,016.03
901.80
1,256.51
90.18
901.80 -
>
>
901.80
9,018.00
310.62
290.58
UNK
014 118
019 100
004 100
009 118
Tricresyt Phosphate (Tritotyt Phosphate)
013307850 BUTYL 012
NATURAL RUBBER 017
NEOPRENE 002
018
.02
20.04
.02
• .02
> 8.00
.35
> 8.00
> • 8.00
> 8.00
.75
> 6.00
> 6.00
23.
23.
23.
23.
118
100
100
100
.06 323
.04 323
.03 323
.03 323
.07 323
.05 107
107
.04 107
23.
.90 23.
.90 23.
.90 23.
A- 86
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
PRODUCT VENDOR
DESC CODE
BREAKTHROUGH TIME
HOURS
PERMEATION RATE TEMP. THICKNESS REF
UG, CM**2/MIN DEG C CM HUM
CPE
NEOPRENE
NITRILE
PVC
VITON
Tn ethyL enetet raami ne
001122430 BUTYL
NEOPRENE
NITRILE
VITON
070 UNK
018 100
019 118
020 216
007 100
009 118
> 3.00
.62
> 8.00
> 4.00
.07
> 8.00
> 8.00
> 8.00
> 8.00
> 8.00
013307850
Tniethanotamine
001027160
TriethanoLamine,
001027163
Tniethytamine
001214480
NITRILE
019
100
>
6.00
<
.90
23.
.06
107
NITRILE+PVC
058
- 100
>
6.00
.
•
:23..
107
PE
076
100
>
6.00
23.
107
PV ALCOHOL
004
100
>
6.00
<
.90
23.
107
.
.
>
8.00
23.
.08
323
PVC
003
100
>
8.00
23.
.02
323
.
007
077
100
100
.
>
>
>
6.00
6.00
6.00
.
<
.90
23.
23.
23.
107
107
107
VITON
009
- 118
>
8 OO
23.
.04
323
NITRILE+PVC
058
100
>
6.00
23.
107
PE
076
100
>
6.00
23.
107
PVC
077
100
>
>
6.00
6 OO
23.
23.
107
107
>70%
•
.
.
.
.
.
NATURAL RUBBER
017
- 100
1.00
<
:90
23.
.05
107
NEOPRENE
002
100
>
6.00
<
.90
23
107
.
018
100
>
6.00
<
.90-
23.
.04
107
NITRILE
019
100
>
6.00
<
.90
23.
.06
107
PV ALCOHOL
004
100
>
6.00
<
.90
23.
107
PVC
007
100
>
6.00
.
<
.90-
23.
-107
23. .05 004
811.62 20 .05 323
.02 19.L .04 323.
23. .04 123
290.58 20. .02 323
.02 24. .03 323
.02 20. - .06 323
• .02. 19. .05 323
.02 16. .04 323
.02 20. .03 323
TriftuoroethanoL
000758980 NATURAL RUBBER
NEOP+NAT RUBBER
NEOP/NAT RUBBER
NEOPRENE
014 118
018 100
019 100
009 118
017 100
120
502
504
026 102
008 114
002 100
- - 120
018 118
120
>
1.00
•
<
4.01
25.
.03
222
>
1.10
<
4.01
25.
.02
222
>
1.33
<
4.01
25.
.05
222
>
1.07
<
4.01
25.
.05
222
>
1.65
<
4.01
25.
.06
222
>
1.65
<
4.01
25.
.05
222
>
1.02
<
4.01
25.
.05
222
>
1.00
-
<
4.01
25.
.08
222
>
1.00
<
4.01
25.
.07
• 222
>
1.00
<
4.01
25.
.08
222
>
1.00
<
4.01
25.
.05
222
>
1.00
<
4.01
25. -
.07
222
>
1.00
<
4.01
25.
.05
- 222
A- 87
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT PRODUCT VENDOR BREAKTHROUGH TIME PERMEATION RATE TEMP THICKNESS REF
CASNO MATERIAL DESC CODE HOURS UG, CM**2/MIN DEG C CM NUM
000758980 NEOPRENE 018 120 1.00 4.01 25. .03 222
NITRILE 019 100 .33 1,903.80 25. .04 222
.97 1,102.20 25. .06 222
.28 2,304.60 25. .04 222
503 .12 3,106.20 25. .03 222
PE 006 100 1.00 4.01 25. .01 222
505 1.00 4.01. 25. .01 222
076 127 > 8.00 .02 23. 104
PVC 003 120 .08 1,202.40 25. .01 222
.12 1,903.80 25. .01 222
.25 1,302.60 25. .03 222
.11 1,102.20 25. .02 222
500 .04 1,002.00 25. .01 222
501 .07 300.60 25. .01 222
.05 901.80 25. .02 222
Tri-n propyLarnine
001026920 . NEOPRENE 018 100 > 8.00 23. .05 323
NITRILE 019 100 8.00 23. .04 323
PV ALCOHOL 102 100 > 8.00 23. .06 323
VITON 009 118 > 8.00 23. .04 323
Turpentine
080066420 NEOP+NAT RUBBER 026 121 . .07 264.53 23. .05 237
NITRILE 019 100 .50 .90 23. .06 107
PV ALCOHOL 004 100 6.00 .90 23. 107
TEFLON 069 510 3.60 .02 23. .05 303
VaLeronitrite
001105980 BUTYL 014 118 > 8.00 .02 23. .07 323
NATURAL RUBBER 017 506 .03 126.25 23. .02 323
NEOPRENE 018 100 .68 126.25 23. .05 323
PV ALCOHOL 004 100 > 8.00 - .02 23. .07 323
Vinyl Acetate
001080540 TEFLON 069 510 1.23 . .05 23. .05 303
2.28 .05 23. .05 303
Vinyl Chloride (Chloroethene)
000750149 CPE 070 UNK > 3.00 23. .05 004
NITRILE 019 103 .02 23. 045
118 5.70 .84 23. .04 227
SILVER SHIELD 122 118 6.00 23. .01 227
VITON 009 118 4.40 .58 23. .04 227
4-Vinyl-1-cyclohexane
001004030 BUTYL 012 118 .52 354.71 23. .07 323
NITRILE 019 100 6.53 1.20 23. .04 323
PV ALCOHOL 004 100 .90 23. .09 323
VITON 009 118 > 8.00 23. .04 323
Vinytidene FLuoride
000753870 BUTYL 014 UNK > 8.00 23. .07 323
A- 88
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
000753870 NATURAL RUBBER
NEOPRENE
PVC
VITON
PRODUCT VENDOR
DESC CODE
001 250
018 100
BREAKTHROUGH TIME
HOURS
.02
> 5.00
.02
.02
> 8.00
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEG C CM HUM
.02 323
.05 323
.05 323
.02 323
.04 323
Xytene
001332070
NATURAL RUBBER
NEOP+NAT RUBBER
NEOP/NAT RUBBER
NEOPRENE
NITRILE
NITRILE+PVC
PE
PV ALCOHOL
PVC
TEFLON
VITON
6.01
.37
003
100
009
118
•
.
23.
23.
001
210
.12
444.89
017
100
.04
3,406.80
23.
25.
080
120
.02
25.
.03
222
502
.08
3,707.40
.02
222
504
.08
.13
2,805.60.
2,404.80
25.
25.
.05
.05
222
222
026
102
.07
.07
30.06
23.
.06
.06
222
026
008
102
.07
30.06
23.
.05
026
114
.12
2,505.00
23.
026
002
100
.06
501.00
25.
.05
222
120
.05
601.20
222
210
.13
408.82
25.
.07
222
018
118
.73
.
701.40
080
120
.23
.30
.38
•
1,302.60
1,402.80
801.60
25.
25.
25.
.08
.05
.07
222
222
222
.09
3,406.80
25.
.05
222
031
511
.
.27
- 492.98
.03
222
125
103
30.06
23.
323
005
210
1.67
300.60
045
019
100
>
.80
1.25
1.00
.95
.45
100.20
90.18 - 901.80
. 50.10
100.20
168.34
23.
25.
23.
25.
25.
.04
.06
.06
.04
080
222
107
222
222
103
84.17
.05
323
503
.47
300.60
23.
045
210
.75
330.66
.03
222
100
>
.05
9.02
- 90.18
23.
23.
080
505
.07
107
•
100
.08
9.02
100.20
90.18
25.
.01
222
100
>
6.00
.90
23.
23.
107
100
>
8.00
107
100
.02
23
.09
323
120
.03
.02
.08
192.38
3,006.00
3,507.00
23.
25. .
25.
25.
.02
.01
.01
323
222
222
500
.01
4,509.00
25.
.02
222
501
.01
.03
3,507.00
2,104.20
25.
25.
.
.01
.01
222
222
007
103
72.14
.02
222
210
.66
389.11
23.
045
069
510
>
-3.00
.02
23.
080
009
.05
303
057
058
006
076
004
102
003
A- 89
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
PERMEATION TEST
CHEMICAL NAME/ RESISTANT
CASNO MATERIAL
PRODUCT VENDOR BREAKTHROUGH TIME
DESC CODE HOURS
PERMEATION RATE TEMP THICKNESS REF
UG/CM**2/MIN DEG C CM HUM
NEOPRENE
NITRILE
PV ALCOHOL
VITON
014 118
018 100
019 100
118
120
020 503
102 100
009 118
.17
.23
1 .03
1.62
.27
.65
.55
> 12.67
> 16.00
8.00
.06 323
.05 086
.06 086
.04 323
.06 086
.04 086
.05 086
.04 086
.03 323
.03 323
23. .04 086
m-XyLene
001083830 - BUTYL
.65
87.78 23.
228.79 23.
198.55 23.
188.78 23.
72.14 23.
396.79 23.
198.73 •23.
180.36 23.
23.
23.
o-Xytene
000954760
p-Xytene
001064230
014 118
060 113
019 100
102 100
009 118
BUTYL
CPE
NI ’TP.ILE
PV ALCOHOL
VITON
BUTYL
NITRILE
PV ALCOHOL
PVC
VITON
.87
1 .20
1.05
.20
> 12.67
> 8.00
.45
.87
> 14.00
.01
> 16.00
014
019
102
003
009
118
100
100
100
118
116.63 23.
23.
186.37 23.
179.76 23.
23.
23.
90.78 23.
85.97 23.
23.
185.17 23.
23.
.07 323
.05 204
.05 204
.04 323
.03 323
.03 323
.07 323
.04 323
.03 323
.02 323
.03 323
A- 90
-------�
APPENDIX B
WEIGHT CHANGE DATA
B—i
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
CHEMICAL NAME!
CASNO
RESISTANT
MATERIAL
PRODUCT. VENDOR
DESC CODE
PERCENT WEIGHT CHANGE
IMMERSION TIME
HOURS
TEMP THICKNESS REF
DEG C CM NUM
076644171 PE
Acetic Acid, <30%
000641971 PE
041 UNK
042 UNK
048 UNK
.90 8,760.00
.80 8,760.00
.80 8,760.00
Acetic Acid
000641970
.01 8,760.00
.01 8;760.OO
.01 8,760.00
041 UNK
042 UNK
048 UNK
060 113
001 UNK
002 UNK
005 UNK
27.00..
28.00
31.00
-1.00
4.00
-2.00
24.00
24. oO
24.00
1.00
1 .00
1.00
23.
23.
23.
23.
23.
23.
25.
25.
25.
23.
23.
23.
305
305
305
.05 204
.05 204
.05 204
208
208
208
305
305
305
.05 •236
.05 236
.05 236
.05 236
.06 236
.06 236
.06 236
.06 236
.06 236
.06 236
.06 236
.06 236
.08 236
.08 236
.08 236
.08 236
CPE
NATURAL RUBBER
NEOPRENE
NITRILE
Acetic Acid, 30-70%
000641972 NATURAL RUBBER
NEOPRENE
NITRILE
PVC
Acetic Anhydride
001082470 BUTIL
CPE
NATURAL RUBBER
NEOPRENE
PVC
Acetone
000676410 BUTYL
CPE
NATURAL RUBBER
1 .00
4.00
.08
.50 23.
.08 23.
23.
23.
23.
.50 23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
.08 23.
1.00
4.00
.08
.50
1.00
4.00
4.00
1.00
.50
001 120
010 120
005 120
003 120
014 118
060 113
001 250
018 100
007 100
014 UNK
060 113
001 120
1.00
.01
1.00
8.00
.01
2.00
.01
2.00
1.00
3.00
4.00
10.00
3.00
1.00
.01
1.00
1 .00
6.10
2.70
8.20
4.00
16.00
-12.00
.90
50.00
58.00
64.00
3.00
4.00
23. .09 323
23. .05 204
23. .05 204
23. .05 204
20. .02 323
20. .05 323
20. .02 323
8.00
24.00
24.00
24.00
8.00
8.00
8.00
24.00
.58
.25
.25
.08
.50
22..
23.
23.
23.
23.
23.
201
.05 204
.05 204
.05 204
.05 236
.05 236
B— 2
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
CHEMICAL NAME! RESISTANT PRODUCT VENDOR PERCENT WEIGHT CHANGE IMMERSION TIME TEMP THICKNESS REF
CASNO MATERIAL DESC CODE HOURS DEG C CM NUM
000676410 NATURAL RUBBER 001 120 4.00 1.00 23. .05 236
3.00 4.00 23. .05 236
UNK -2.00 1.00 25. . 208
017 . UNK -2.00 24.00 22. 201
NEOPRENE 002 LINK -3.00 1.00 25. . 208
010 120 1.00 .08 23. .06 236
7.00. .50 23. . .06 236
8.00 1.00 23. .06 236
4.00 4.00 23. .06 236
018 UNK -1.40 24.00 22. 201
-.30 24.00 . 22. 201
-8.00 24.00 22. 201
-.70 24.00 22. 201
NITRILE 005 120 9.00 4.00 23. .06 236
55.00 1.00 23. .06 236
32.00 .50 23. .06 236
17.00 .08 .23. .06 236
UNK -3.00 1.00 25. 208
020 UNK 2.70 24.00 22. 201
PE 041 UNK 1.00 8,760.00 23. 305
042 UNK 1.20 8,760.00 23. 305
048 UNK 1.20 8,760.00 23. 305
PV ALCOHOL 102 UNK -15.70 24.00 22. 201
PVC 003 120 2.00 4.00 23. . .08 236
29.00 1.00 23. .08 236
30.00 .50 23. .08 236
14.00 .08 23. .08 236
UNK -16.10 24.00 22. 201
Acetonitrite . .
000750580 NEOPRENE 010 120 .01 .08 23. .06 236
1.00 .50 23. .06 236
.01 1.00 23. .06 236
1.00 4.00 23. .06 236
Attytamine
001071190 BUTYL 014 118 15.00 . 8.00 20. .06 323
NATURAL RUBBER 001 250 34.00 8.00 20. .01 323
PV ALCOHOL 102 100 14.00 8.00 23. .07 323
PVC 007 100 -6.00 8.00 20. .02 323
Attyt Gtycidyl Ether
001069230 . BUTYL 014 UNK 1.00 24.00 22. 201
NATURAL RUBBER 017 UNK 7.00 24.00 22. 201
NEOP/NAT RUBBER 008 UNK 9.40 24.00 22. 201
NEOPRENE 018’ LINK 1.40 24.00 22. 201
12.90 24.00 22. 201
- .50 .50 24.00 22. 201
NITRILE 020 UNK 3.20 24.00 22. 201
PV ALCOHOL 102 UNK 5.20 24.00 22. 201
PVC 003 UNK 6.40 24.00 22. 201
Amonium Hydroxide, <30% . .
B—3
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
CHEMICAL NAME! RESISTANT PRODUCT VENDOR PERCENT WEIGHT CHANGE IMMERSION TIME TEMP THICKNESS REF
CASNO : MATERIAL DESC CODE HOURS DEG C CM NUM
013362161 NATURAL RUBBER 001 120 1.00 4.00 23. .05 236
1.00 1.00 23. .05 236
.01 .50 23. .05 236
.01 .08 23. .05 236
NEOPRENE 010 120 1.00 .08 23. .06 236
.01 .50 23. .06 236
1.00 1.00 23. .06 236
1.00 4.00 23. .06 236
NITRILE 005 120 2.00 4.00 23. .06 236
2.00 1.00 23. .06 236
1.00 .50 23. .06 236
1.00 .08 23. .06 236
PVC 003 120 .01 .08 23. .08 236
1.00 .50 23. .08 236
1.00 1.00 23. .08 236
• 1.00 4.00 23. .08 236
Amonium Hydroxide, 30-70%
013362162 NATURAL RUBBER 001 UNK -1.00 1.00 25. 208
NEOPRENE 002 UNK .01 1.00 25. 208
• NITRILE 005 UNK .01 1.00 25. 208
Amyt Acetate (Pentyt Acetate)
006286370 NATURAL RUBBER 001 UNK -2.00 1.00 25. 208
NEOPRENE 002 UNK -4.00 1.00 25. 208
.NITRILE 005 UNK -1.00 1.00 25. 208
Amyt ALcohoL (Pentanot) -
000714100 BUTYL 014 118 .40 8.00 23. • .07 323
NEOPRENE 018 100 4.00 8.00 23. .05 323
NITRILE • 019 100 9.00 8.00 23. .04 323
VITON 009 118 4.00 8.O 23. .05 323
AniLine (Benzamine)
000625330 NATURAL RUBBER 001 120 2.00 .50 23. .05 236
3.00 1.00 23. .05 236
5.00 •- 4.00 23. .05 236.
2.00 .08 23. .05 234
NEOPRENE 010 120 9.00 4.00 23. .06 236
5.00 1.00 23. .06 236
4.00 .50 23. .06 236
5.00 .08 23. .06 236
• NITRILE 005 • 120 38.00 1.00 23. .06 236
• 126.00 4.00 23. .06 236
• • 24.00 .50 23. .06 236
15.00 .08 23. .06 236
• PVC 003 - 120 4.00 .08 23. .08 236
12.00 1.00 23. .08 236
• 20.00 • 4.00 23. .08 236
- 10.00 • .50 23. .08 236
Benzene
000714320 BUTYL 014 118 117.00 168.00 23. •327
B— 4
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
CHEMICAL NAME/ RESISTANT PRODUCT VENDOR PERCENT WEIGHT CHANGE IMMERSION TIME TEMP THICKNESS REF
CASNO MATERIAL DESC CODE HOURS DEG C CM NUN
000714320 BUTYL 034 UNK 60.00 168.00 22. 078
12.00 3.00 25. 126
064 UNK 55.50 168.00 23. 327
EVA 074 100 254.00 168.00 23. 327
NATURAL RUBBER 017 100 309.00 168.00 23. 327
310.00 168.00 23. 327
214 286.00 168.00 23. 327
508 320.00 168.00 22. 078
UNK 362.00 168.00 23. 327
351.00 168.00 23. 327
346.00 168.00 23. 327
NEOP/NAT RUBBER 008 114 280.00 168.00 22. 078
NEOPRENE 018 100 262.00 168.00 23. 327
120 190.00 168.00 23. 327
UNK 176.00 168.00 23. 327
031 LINK 90.00 168.00 22. 078
NITRILE 019 100 161.00 168.00 23. 327
120 150.00 168.00 23. 327
166 165.00 168.00 23. 327
020 LINK 104.00 168.00 23. 327
104.00 168.00 23. 327
033 UNK 110.00 168.00 22. 078
NONWOVEN PE 071 100 218.00 168.00 23. 327
UNK 162.00 168.00 23. 327
PE 006 209 30.00 168.00 22. 078
042 100 32.70 168.00 23. 327
113.00 168.00 23. 327
075 100 257.00 168.00 23. 327
POLYURETHANE 050 178 60.00 168.00 22 078
PV ALCOHOL 004 100 3.00 168.00 22. 078
PVC 003 100 -15.10 168.00 23. 327
120 -8.00 168.00 23. 327
-12.40 168.00 23. 327
-8.10 168.00 23. 327
214 - .50 168.00 23. 327
SARANEX 061 200 93.00 168.00 23. 327
TEFLON 036 214 4.90 168.00 23. 327
VITON 009 118 20.00 168.00 23. 327
032 LINK 4.00 168.00 22. 078
Boric Acid
100433530 BUTYL 014 118 2.00 8.00 20. .07 323
NEOPRENE 018 100 2.00 8.00 19. .05 323
NITRILE 019 100 2.00 8.00 21. .04 323
VITON 009 118 .20 8.00 20. .03 323
2-Bromoethanot
005405120 BUTYL 014 118 .20 8.00 23. .09 323
NATURAL RUBBER 001 250 2.00 8.00 23. .02 323
PVC 003 100 - .20 8.00 23. .02 323
VITON 009 118 .60 8.00 23. .05 323
Butyt Acetate
B— 5
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
iso-Butytamine (Methytpropytamine, 2-)
000788190 BUTYL
NEOPRENE
PV ALCOHOL
nButyl Chloride
001096930
PVC
PVC
VITON
PERCENT WEIGHT CHANGE IMMERSION TIME
HOURS
TEMP THICKNESS REF
DEG C CM NUM
23. .05 323
23. .80 323
23. .20 323
23. .05 323
CHEMICAL NAME!
CASNO
001238640
Butylarnine
001097390
RESI STANT
MATERIAL
PE
BUTYL
NATURAL RUBBER
NEOPRENE
PVC
sec-Butytamine
139528460
tert-Butylamine
000756490
23. 305
23. 305
23. 305
15. .10 323
20. .02 323
18. .05 323
18. .02 323
28. .09 323
26. .05 323
23. .07 323
28. .02 323
21.. .09 323
25. .05 323
14. .04 323
24. .02 323
15.. .09 323
23. .05 323
21.. .04 323
20. .‘ .02 323
PRODUCT VENDOR
DESC CODE
041 UNK
042 UNK
048 UNK
014 118
001 250
018 100
007 100
014 118
018 100
102 100
007 100
BUTYL 014 118
NEOPRENE 018 100
NITRILE 019 100
PVC 007 100
BUTYL 014 118
NEOPRENE 018 100
NITRILE 019 100
PVC 007 100
(Chtorobutane, 1-)
NITRILE 019 100
PV ALCOHOL 004 100
003 100
009 118
Butyra Idehyde
001237280 BUTYL 034 UNK
Carbon Disutfide (Carbon Bisutfide)
000751500 BUTYL 034 UNK
NITRILE 005 120
..PE 041 UNK
042 UNK
048 UNK
Carbon Tetrachioride (Tetrachtoromethane)
000562350 CPE 060 113
NEOPRENE 010 120
3.40
3.40
4.10
62.00
148.00
166.00
62.00
37.00
50.00
-8.00
13.00
83.00
122.00
108.00
-4.00
23.00
55.00
69.00
-20.00
100.00
-5.00
-11.00
6.00
7.70
12.50
74.00
7.00
21.00
16.00
8.00
12.90
21.40
36.80
107.00
116.00
106.00
38.00
8,760.00
8,760.00
8,760.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
3.00
20.00
3.00
4.00
1.00
.50
.08
8,760.00
8,760.00
8,760.00
1.83
1.83
1.83
1.00
25.
126
25.
126
23.
.06
236
23.
.06
236
23.
.06
236
23.
.06
236
23.
305
23.
305
23.
305
23. .05 204
23. .05 204
23. .05 204
23. .06 236
B— 6
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
Ch Lorodibromomethane
001244810 BUTYL
PV ALCOHOL
PVC
VITON
23. .10 323
23. .07 323
23. .02 323
23. .04 323
28.00
13.00
18.00
21.00
11.00
5.00
3.00’
16.30
22.80
37.90
.06
.06
.06
.06,
.06
.06
.06
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
236
236
236
236
236
236
236
305
305
305
.08
8,760.00
8,760.00
8,760.00
CHEMICAL NAME! RESISTANT
CASNO
MATERIAL
PRODUCT
DESC CODE
VENDOR
‘
PERCENT WEIGHT CHANGE
IMMERSION TIME
HOURS
TEMP
DEG C
THICKNESS
CM
REF
,
000562350 NEOPRENE
010
120
.50
‘
.08
‘ 4.00
NITRILE
005
120
4.00
‘
.
1.00
.50
‘
PE
041
UNK
‘
042
UNK
.
048
UNK
‘
Chtorobenzene
.
001089070 BUTYL
014
118
169.00
8.00
23.
.07
323
PV ALCOHOL
102
100
-4.00
8.00
23.
.08
323
PVC
007
100
101.00
8.00 ‘
23.
.02
323
VITON
009
118
2.00,
8.00
23.
.03
323
.
012
004 ‘
003
118
100
100
382.00
-.30
385.00
8.00
8.00
‘ 8.00
009
118
‘
1.00
8.00
,
Chloroform (TrichLoromethane)
.
‘
.
000676630 BUTYL
034
UNK
9.00
3.00
25.
126
NEOPRENE
010
120
23.00
.08
23.
.06
236
‘
39.00
.50
23.
.06
236
‘
‘
110.00
1.00
23.
.06
236
0
‘
35.00
4.00
23.
.06
‘ 236
PE
041 ‘
042
UNK
UNK
12.00
16.20
,
8,760.00
8,760.00
23.
23.
305
305
0
048
UNK
2510
8,760.00
23.
305
,
3-ChLoro2-methyLpropene
0
0
0
005634730 BUTYL ‘
014
118
142.00
8.00
23. ‘
.06
323
PV ALCOHOL
004
100
,
28.00
8.00
‘ 23.
.04
323
PVC
.
007
100
200
8.00
23.
.02
323
VITON
009
118
7.00 ,
8.00
23.
.03
323
2-ChLoro-2-nitropropane
0
005947180 BUTYL
012
118
2.00
8.00
23.
.09
323
‘NATURAL RUBBER
017
506
.
,
94.00
8.00
23.
.02
323
PV ALCOHOL
004
100
-.80
8.00
23.
.07
323.
VITON
009
118
70.00
8.00
23.
.04
323
Chromic Acid, 30-70%
111157452 NITRILE
005
120
.
.01
.08
0
23.
.06
236
236
4.00
.50
23.
.06
0
- 3.00
1.00
23.
.06
236
0
0
,
4.00
4.00
23.
.06
236
PVC
003
120
18.00
4.00
23.
.08
236
<
1.00
.01
1.00
.50
23.
23.
.08
.08
236
236
B- 7
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
CHEMICAL NAME/ RESISTANT PRODUCT VENDOR PERCENT WEIGHT CHANGE IMMERSION TIME TEMP THICKNESS REF
CASNO MATERIAL DESC CODE HOURS DEG C CM NUN
111157452 PVC 003 120 < .01 .08 23. .08 236
Citric Acid, <30%
000779291 PE 041 UNK < .01 8,760.00 23. 305
042 UNK < .01 8,760.00 23. 305
048 UNK < .01 8,760.00 23. 305
Cyctohexytamine
001089180 BUTYL 014 118 , 95.00 8.00 20. .06 323
NATURAL RUBBER 001 250 299.00 8.00 20. .02 323
NEOPRENE 018 100. 294.00 8.00 22. .05 323
NITRILE 019 100 247.00 8.00 24. .04 323
DiaL Lyamine
001240270 BUTYL 014 118 44.00 8.00 21. .09 323
PV ALCOHOL 004 100 -20.00 8.00 23. .08 323
PVC 007 100 -26.00 8.00 22. .02 323
VITON 009 118 4.00 8.00 19. .03 323
1,3-Diam inopropane
001097620 BUTYL 014 118 30.00 8.00 22. .06 323
NATURAL RUBBER 001 250 18.00 8.00 25. .02 323
NEOPRENE 018 100 22.00 8.00 23. .05 323
PVC 007 100 24.00 8.00 ‘21. .02 323
Di -n-amytamine
020509220 NEOPRENE 018 100 74.00 ‘ 8.00 16. .05 323
NITRILE 019 100 2.00 8.00 20. .04 323
PVC 007 100 -23.00 8.00 13. .02 323
VITON 009 118 .20 8.00 16. .03 323
Oichtoroacetyt ChLoride
000793670 BUTYL 014 118 164.00 8.00 23. .09 323
PV ALCOHOL 102 100 -8.00 8.00 23. .07 323
PVC 003 100 230.00 ‘ 8.00 23. .02 323
VITON 009 118 -9.00 8.00 •23. .03 323
DichLorobromomethane
000752740 BUTYL 014 118 347.00 8.00 23. .07 323
PVC 007 100 328.00 8.00 23. .02 323
VITON 009 118 2.00 8.00 ‘ 23. .03 323
VITON/BUTYL 100 102 -2.00 8.00 , 23. .08 323
1,4-Dichtoro-2-butene ‘
001105760 BUTYL 034 UNK 19.00 20.00 25. 126
17.00 3.00 25. 126
cisoichtoroethyLene
001565920 BUTYL ‘ 014 118 198.00 8.00 23. .07 323
PV ALCOHOL ‘ 004 100 358.00 8.00 23. .05 323
VITON 009 , 118 9.00 8.00 23. .03 323
1 ,2-Dichtoroethytene
B— 8
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
23. .06 323
23. .09 323
23. .02 323
23. .03 323
8.00
8.00
8.00
8.00
20.00
3.00
.83
.83
.83
25.
25.
23.
23.
23.
126
126
204
204
204
.05
.05
.05
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
005405900 NITRILE
PV ALCOHOL
PRODUCT VENDOR
DESC CODE
019 100
PERCENT WEIGHT CHANGE
IMMERSION TiMEX
HOURS
8.00
TEMP
DEG C
29.
THICKNESS
CM
.04
REF
MUM
323
265.00
004
100
-29.00
8.00
23.
.04
323
PVC
VITON
007
100
.50
8.00
23.
.02
323
009
118
9.00
8.00
23.
.03
323
trans-1,2-Dichtoroethytene
001566050 BUTYL
014
118
3.00
PV ALCOHOL
004
100
-30.00
PVC
007
100
-7.00
.
VITON
009
118
8.00
2,2’-DichLoroethyt Ether
001114440 BUTYL
034
UNK
11.00
3.80
CPE
060
113
129.00
125.00
123.00
2,3-Dichloro-1-propene
000788860 BUTYL
014
118
66.00
8.00
23.
.09
323
PV ALCOHOL
102
100
2.00
8.00
23.
.09
323
PVC
007
100
76.00
8.00
23.
.02
323
VITON
009
118
4.00
8.00
23.
.03
323
1,3-Dichtoropropene
005427560 BUTYL
014
118
65.00
.
8.00
23.
.07
323
PV ALCOHOL
102
100
-2.00
8.00
23.
.07
323
PVC
007
100
199.00
8.00
23.
.02
323
VITON
009
118
3.00
8.00
23.
.03
323
Diethanotamine
.
001114220 BUTYL
016
118
2.00
8.00
24.
.09
323
NEOPRENE
•
018
100
5.00
8.00
22.
.05
323
NITRILE
019
100
14.00
8.00
26.
.04
323
VITON
009
118
3.00
8.00
27.
.03
323
DiethyL mine
001098970 BUTYL
014
118
•
88.00
8.00
23.
.09
323
NITRILE
019
100
55.00
8.00
24.
.04
323
PVC
007
100
-26.00
8.00
24.
.02
323
VITON
009
118
83.00
8.00
20. .03
323
Di ethyL ami noethanot
001003780 BUTYL
014
118
2.00
12.00
8.00
22.
.07
323
NITRILE
019
118
8.00
22.
.04
323
PV ALCOHOL
102
100
-19.00
8.00
23.
.09
323
VITON
009
118
5.00
8.00
22.
.03
323
Diethylenetriamine
,
001114000 BUTYL
014
118
8.00
8.00
24.
.08
323
NEOPRENE
018
100
12.00
8.00
22.
.05
323
PVC
007
100
19.00
8.00
22.
.02
323
VITON
009
118
8.00
8.00
23.
.03
323
B—9
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
CHEMICAL NAME!
CASNO
RESISTANT
MATER JAL
PRODUCT VENDOR
DESC CODE
PERCENT WEIGHT CHANGE
IMMERSION TIME
HOURS
TEMP THICKNESS REF
DEG C CM NUM
N,N-Dimethytacetamide
001271950. NATURAL RUBBER
O imethytethanotamine
001080100 BUTYL
NATURAL RUBBER
NEOPRENE
NITRILE
Dimethytformamide
23. .05 236
23. .05 236
23. .05 236
23. .05 236
23. .06 236
23. .06 236
23. .06 236
23. .06 236
23. .06 236
23. .06 236
23. .06 236
23. .06 236
Di isobutytamine
001109630
Di isopropytamine
001081890
NEOPRENE
NITRILE
PV ALCOHOL
VITON
NEOPRENE
NI TRI LE
PVC
VITON
22. .05 323
20. .04 323
23. .08 323
22. .02 323
12. .05 323
10. .04 323
11. .02 323
12. .03 323
018 100
019 100
102 100
009 118
018 100
019 100
007 100
009 118
001 120
010 120
005 120
014 118
001 250
018 100
102 100
007 100
014 118
001 250
018 100
077 100
014 118
019 100
102 100
007 100
014 118
001 250
018 100
019 100
NEOPRENE
NI TRI LE
Dimethytamine
001244030 BUTYL
MATURAL RUBBER
NEOPRENE
PV ALCOHOL
- PVC
O imethytami nopropytami ne
001095570 BUTYL
NATURAL RUBBER
NEOPRENE
PVC
Dimethy tbuty tani ine
001080980 BUTYL
NITRILE
PV ALCOHOL
PVC
57.00
-1.00
4.00
-2.00
51.00
6.00
-23.00
1.00
18.00
15.00
21.00
32.00
36.00
12.00
12.00
5.00
18.00
53.00
21.00
186.00
.80
10.00
12.00
-6.00
3.00
22.00
114.00
184.00
126.00
67.00
76.00
-22.00
-3.00
.80
17.00
57.00
34.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
4.00
1.00
.50
.08
4.00
1.00
.50
.08
.08
.50
1.00
4.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
22.
20.
22.
23.
20.
.06 323
.02 323
.05 323
.07 323
.02 323
16. .09
16. .02
20. .05
20. .02
323
323
323
323
24. .06 323
19. .04 323
23. .08 323
21. .02 323
12. O9 323
19. .02 323
21. .05 323
9. .04 323
B— 10
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
PRODUCT VENDOR
DESC CODE
001 120
PERCENT WEIGHT CHANGE IMMERSION TIME
HOURS
CHEMICAL NAME! RESISTANT
• CASNO MATERIAL
000681220 NATURAL RUBBER
NEOPRENE
1,1-Dimethythydrazine (Dimethythydrazine,unsym-)
000571470 BUTYL 034
NEOPRENE 031
NITRILE 033
PVC 077
Dimethyt Sutfoxide
000676850 NATURAL RUBBER
NEOPRENE
NITRILE
PVC
Dimethytviny t .chtorjde
005133710 . NITRILE
• “PV ALCOHOL
• PVC
VITON
Dipropytamine
• 001428470 BUTYL
POLYCARBONATE
Epichiorohydrin
001068980 BUTYL
NATURAL RUBBER
NEOPRENE
.08
DEG C
23.
CM
NUM
1.00
2.00
.50
23.
.05
.05
236
236
4.00
1.00
23.
4.00
4.00
23.
.05
236
010
120
2.00
7.00
.08
.50
23.
23.
.05
.06
236
236
9.00
1.00
23.
236
9.00
• 4.00
23.
.06
.06
236
236
UNK
10.00
168.00
• 22.
078
LANK
30.00
168.00
22.
UNK
38.00
168.00
22.
078
168
35.00
168.00
22.
078
078
001
120
2.00
4.00
23.
2.00
2.00
3.00
.08
.50
1.00
•
23.
23.
23.
.05
.05
.05
236
236
236
010
120
1.00
.08
23.
236
•
1.00
.50
23.
.06
236
•
1.00
1.00
23.
.06
236
.
3.00
4.00
23.
• .06
236
005
120
•
39.00
19.00
9.00
4.00
4.00
1.00
.50
.08
23.
23.
23.
23.
.06
.06
.06
.06
236
236
236
236
003
120
14.00
12.00
4.00
1.00
23.
23.
.06
.08
236
236
9.00
8.00
.50
23.
.08
.08
236
236
•
.08
23.
.08
236
019
100
100.00
8.00
23.
004
100
-10.00
8.00
23.
.05
323
003
100
-23.00
.08
323
Oó9
118
8.00
8.00
23.
23.
.02
.04
323
323
034
UNK
61.00
3.00
25.
098
UNK
-.10
126
25.
126
014
118
.
3.00
1.00
.1.00
24.00
8.00
• 8.00
23.
23.
23.
.04
.07
291
323
034
UNK
5.00
168.00
22.
323
001
250
13.00
13.00
8.00
80O
23.
23.
.02 •
078
323
017
UNK
30.00
24.00
23.
.02
323
018
100
•
100.00
24.00
23.
.02
291
031
UNK
291
B—il
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
Ethanot, >70%
000641753 PE
041 UNK
042 UNK
048 UNK
.20 8,760.00
.20 8,760.00
.01 8,760.00
EthyL Acetate
CHEMICAL NAME!
RESISTANT PRODUCT VENDOR
CASNO
MATERIAL DESC CODE
001068980
NITRILE
PERCENT WEIGHT CHANGE IMMERSION TIME
020
503
340.00
033
UNK
28.00
PE
006
•
100
209
<
.01
12.00
POLYURETHANE
050
178
270.00
PV ALCOHOL
035
102
.
UNK
100
<
1.00
-7.00
-3.00
-3.00
PVC
077
168
103.00
TEFLON
036
214
.
<
.01
VITON
009
.
032
118
UNK
20.00
16.00
16.00
42.00
BUTYL
50.00
NEOPRENE
.
150.00
.PV ALCOHOL
-3.00
VITON
94.00
TEMP THICKNESS REF
DEG C. CM NUN
23. .04 291
22. 078
23. .01 291
22. 078
22. 078
22. 078
23. .05 291
23. .07 323
23. .07 323
22: - 078
23. .01 291
23. .02 291
23. . .03 323
23. .03 323
22. 078
HOURS
24.00
168.00
24.00
168.00
168.00
168.00
24.00
8.00
8.00
168.00
24.00
24.00
8.00
8.00
168.00
8.00
8.00
8.00
8.00
.1 ,2-Epoxybutane
001068870
Ethanol, 30-70%
000641752
PE
014
018
004
009
041
042
048
118
100
100
118
L iNK
UNK
UNK
.10 8,760.00
.10 8,760.00
.10 8,760.00
23. .06
23. .05
23. .04
23. .03
23.
23.
23.
23..
23..
23.
Ethanotamine (Aminoethanot,2)
001414350
323
323
323
323
305
305
305
305
305
305
BUTYL
NEOPRENE
014
018
118
100
2.00
7.00
8.00
8.00
26.
20.
.07
.05
323
323
PVC
VITON
007
009
100
118
•
12.00
6.00
8.00
8.00
25.
22.
.02
.05
323
323
2-Ethoxyethyt- Acetate (Cettosotve
001111590 NATURAL RUBBER
Acetate)
001
120
12.00
4.00
23.
.05
236
11.00
6.00
1.00
.50
23.
23.
.
.05
.05
236
236
S
5.00
.08
23.
.05
236
NEOPRENE
.
010
.
120
17.00
12 OO
4.00
3.00
4.00
1.00
.50
.08
23.
23.
23.
23. .
.06
.06
.06
.06
236
236
236
236
NITRILE
005
120
.
.10.00
.08
23.
.06
236
16.00
.50
23.
.06
236
23.00
.1.00
23.
.06
236
36.00
4.00
23.
.06
236
B— 12
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS’
IMMERSION WEIGHT CHANGE TEST
PERCENT WEIGHT CHANGE IMMERSION TIME
H CURS
TEMP THICKNESS REF
DEG C CM NUM
23. .04 323
23. .08 323
23. .02 323
23. .04 323
.06
.06
.06
06
23.
23.
23.
23.
23.
23.
23.
236
236
236
236
305
305
305
23: .08 323
23. .02 323
23. .08 323
23. .02 323
11.00
16.00
13.00
3.00
2.50
2.50
2.80.
7
17.00
-19.00
17.00
67.00
13.00
-9.00
74.00
1.00
.01
1.00
1.00
1.00
.01
.01
.01
2.00
4.00
8.00
3.00
1.00
4.00
•1.00
.50
.08
8,760.00
8,760.00
8,760.00
8.00
8 .O0
8.00
8.00
8.00
8.00
8.00
8.00
.08
.50
1.00
4.00
4.00
1.00
.50
.08
• .08
4.00
1.00
.50
.08
CHEMICAL NAME! RESISTANT
CASNO. MATERIAL
001417860 NEOPRENE
PE
Ethyl Celtosolve (Ethoxyethanot, 2)
001108050 BUTYL
NATURAL RUBBER
PV ALCOHOL
PVC
Ethyl Acrytate
001408850
BUTYL
PV ALCOHOL
PVC
Ethyl AlcohoL (Ethanol)
000641750 NATURAL RUBBER
NEOPRENE
NITRILE
PVC
Ethyl Benzene
001004140 PV ALCOHOL
Ethyl Bromide
000749640 NEOPRENE
PV ALCOHOL
PVC
VITON
Ethyl-n-butylamine
133606390 NITRILE
PV ALCOHOL
PVC
VITON
PRODUCT. VENDOR
DESC CODE
010 120
041 UNK
042 UNK
048 UNK
014 • 118
001 250
102 100
007 100
250 250
014 118
102 100
003 100
001 120
010 1 O
005 120
003 120
102 100
018 100
102 100
003 100
009 118
019 100
102 100
007 100
009 118
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
.02 323
.09 323
.08 323
.02 323
.05 236
.05. 236
.05 236
.05 236
.06 236
.06 236
.06 236
.06 236
.06 236
.06 236
.06 • 236
.06 236
.08 236
.08 236
.08 236
.08 236
.01 .50
23. .08 323
1.00
1.00
.40
231.00
-14.00
132.00
13.00
36.00
-24.00
-3LOO
17.00
1.00
40O
&OO
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
24.
23.
24.
23.
.04 323
.09 323
O2 323
.03 323
B—13
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
PERCENT WEIGHT CHANGE IMMERSION TIME TEMP THICKNESS REF
HOURS DEG C CM’ NUM
CHEMICAL NAME!
CASNO
RESI STANT
MATER!AL
PRODUCT VENDOR
DESC CODE
Ethytene’ChLorohydrin (Chioroethanot)
001070730 BUTYL
NEOPRENE
PV ALCOHOL
VITON
EthyLenediamine
001071530
(Diaminoethane, 1,2)
BUTYL
CPE
NATURAL RUBBER
NEOPRENE
PVC
Ethytene Dibromide (Dibromoethane,1,2)
001069340 BUTYL
014
018
102
009
014
060
001
018
007
014
.
118
- .10
8.00
23.
.06
100
6.00
8.00
100
-.7.00
8.00
23.
23.
.05
.09
323
118
.60
8.00
.
323
23.
.05
323
118
2.00
8.00
18.
.07
323
113
-5.00
24.00
23.
.
‘
13.00
•
24.00
23.
.05
.05
204
.
-6.40
24.00
23.
.05
250
9.00
8.00
20.
100
9.00
8.00
18.
.05
323
100 ‘
.80
8.00
,
.02
323
118
65.00
24.00
23.
.04
59.00
8.00
23.
NATURAL RUBBER 017
UNK
480.00
323
NEOPRENE 018
100
500.00
24.00
24.00
23.
23.
.02
.04
291
291
NITRILE
020
503
580.00
24.00
23.
,
PE 006
100
20.00
24.00
23.
.04
.01
291
PV ALCOHOL 102
.
100
4.00
24.00
23.
.05
291.
.
.
.
.80
8.00
23.
.08
323
PVC 007
100
258.00
8.00
.
23.
.02
.
TEFLON 036
214
2.00
24.00
23.
.01
323
VITON 009
118
3.00
24.00
.
23.
2.00
8.00
23.
.03
291
323
EthyLene
DichLoride (Dichtoroethane,1,2)
001070620
BUTYL 014
118
36.00
8.00
23.
.
UNK
34.00
34.00
24.00
168.00
23.
.06
323
326
064
UNK
24.00
24.00
23.
326
‘
.
27.00
.
326
NATURAL RUBBER 001
250
213.00
8.00
23.
23.
.02
326
017
UNK
226.00
168.00
23.
323
.
,
211.00
24.00
23.
326
NEOPRENE 018
UNK
1,90.00
168.00
‘
23.
326
182.00
24.00
23.
NITRILE 019
UNK
655.00
24.00
23.
.
>
1,000.00
168.00
23.
326
020
UNK
440.00
168.00
23. .
,
340.00
24.00
PE 041
UNK
5.00
‘
8,760.00
23.
23.
326
305
042
UNK
16.00
.20
5.40
168.00
24.00
8,760.00
23.
23.
23;
‘
326
326’
305
048
UNK
6.90
8,760.00
23.
305
076
UNK
74.00
24.00
23.
•
326
100.00
.
168.00
23.
326
POLYURETHANE 050
UNK
B— 14
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
CHEMICAL NAME/ RESISTANT PRODUCT VENDOR
CASNO MATERIAL DESC CODE
001070620 POLYURETHANE 050 UNK
PERCENT WEIGHT CHANGE
•
IMMERSION TIME :
HOURS ..
168.00 . .
TEMP
DEG C
23.
THICKNESS
CM
REF
NUM
326
86.00
PV ALCOHOL 004
102
100
UNK
.40
.30
8.00
24.00
23.
23.
.03
•
323
326
PVC 077
TEFLON 036
UNK
UNK
.40
265.00
251.00
1.00
168.00 23.
168.00 23.
24.00 23.
168.00 23.
•
326
326
326
326
VITON 009
.
118
UNK
.
.20
5.00
6.00.
24.00
. 8.00 .
168.00
23.
23.
23.
.03
326
323
326
6.00
24.00
23.
326
Ethylene GlycoL
001072110 NATURAL RUBBER 001
120
.
1.00
.50
23.
.05
236
1.00
.08
23.
.05
236
2.00
1.00
23.
.05
236
<
.01
4.00
23.
.05
.236
NEOPRENE 010
S
120
S
<
1&OO
.01
4.00
1.00
23.
23.
.06
.06
236
236
6.00
.50
23.
.06
236
<
.01
.08
23.
.06
236
NITRILE 005
120
2.00
4.00
23.
.06
236
1.00
1.00
1.00
.50
23.
23.
.06
.06
236
236
.
PE 041
042
UNK
UNK
<
<
1.00
.01
.01
.08 .
8,760.00
8,760.00
23.
23.
23.
.06
236
305
305
048
PVC 003
UNK
120
<
•
- .01
3.00
2.00
8,760 OO
4.00
1.00
.23.
23.
23.
.08
.08
305
236
236
.
<
8.00
.01
.50
.08
23.
23.
.08
.08
236
236
Ethylenimine (Aziridine)
-001515640 BUTYL 034
NATURAL RUBBER 017
UNK
508
•
.
14.00
15.00 .
S
168.00
168.00
•
22.
22.
,
078
078
2 -EthyL-1-HexanoL
.
S
001047670 BUTYL 014
118
4.00
8.00
23.
.07
323
•
NEOPRENE 018
PV ALCOHOL 102
100
100
3.00
- .30
8.00 .
8.00
23.
23.
.05
.09
323
323
VITON 009
118
3.00
8.00
23.
.03
323
Ethylidene Dichloride (Dichloroethane,1,1)
000753430 BUTYL 012
PV ALCOHOL 004
PVC 003
S
.
118
100
100 .
S
•
.
66.00 8.00
-5.00 8.00
65.00 8.00
3.00 8.00
.
23.
23.
23.
23.
.09
.08
.02
.02
323
323
323
323
VITON . 009
118
12.00 -
8.00
23.
.04
323
Ethyl Methacrylate
000976320 BUTYL 014
118
33.00
8.00
23.
.09
323
NITRILE 019
100
109.00
8.00
23.
.05
323
B— 15
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
000976320 PV ALCOHOL
GasoLine
080066190 NEOPRENE
GtutaraLdehyde
001113080 BUTYL
2.00
8.00
7.00
9.00
1.00
2.00
2.00
4.00
.08 23.
.50 23.
1.00 23.
4.00 23.
.08 23.
23.
23.
23.
.06 236
.06 236
.06 236
.06 236
.06 236
.06 236
.06. 236
.06 236
305
•305
305
PERCENT WEIGHT CHANGE IMMERSION TIME
HOURS
-4.00
115.00
2.00
1.00
1.00
.01
2.00
2.00
2.00
1.00
2.00
2.00
1.00
2.00
8.00
8.00
4.00
1.00
.50
.08
.08
.50
1.00
4.00
1.00
.50
.08
4.00
FormaLdehyde,
000500000
Freon TF
000761310
Furan (Furfuran)
001100090
PVC
<•37% (Formatin)
NATURAL RUBBER
NEOPRENE
NITRILE
PE
PVC
NEOPRENE
NITRILE
BUTYL
PV ALCOHOL
PVC
VITOPI
.10 8,760.00
TEMP THICKNESS REF
DEG C CM NUM
23. .06 323
23. .02 323
23. .05 236
23. .05 236
23. .05 236
23. .05 236
23. .06 236
23. .06 236
23. .06 236
23. .06 236
23. .06 236
23. .06 236
23. .06 236
23. .06 236
2L 305
23. .08 236
23. .08 236
23. .08 236
23. .08 236
23. .06 236
23. .06 236
23. .06 236
23. .06 236
23 . .06 236
23 ; .06 236
23. .06 236
23. .06 236
23. .09 323
23. .09 323
23. .02 323
23. .05 323
PRODUCT VENDOR
DESC CODE
102 100
003 100
001 120
010 120
005 120
048 UNK
003 120
010 120
005 120
014 118
102 100
003 100
009 118
010 120
005 120
041 UNK
042 UNK
048 UNK
014 . 118
.01
17.00
1.00
2.00
4.00
1.00
.01
1.00
1.00
1.00
.01
1.00
46.00
-22.00
-49.00
17.00
.50
.08
1.00
4.00
4.00
1.00
.08
.50
4.00
1.00
.50
.08
8.00
8.00
8.00’
8.00
NITRILE
PE
.50
1.00
4.00
6.70
8.80
13.50
8,760.00
8,760.00
8,760.00
23.
23.
23.
1.00 8.00
23. .09 323
B— 16
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
CHEMICAL NAME! RESISTANT PRODUCT VENDOR PERCENT WEIGHT CHANGE IMMERSION TIME TEMP THICKNESS REF
CASNO MATERIAL DESC CODE HOURS DEG C CM NUM
001113080 NEOPRENE 018 100 . 4.00 8.00 23. .05 323
PVC 003 100 7.00 8.00 23. .02 323
VITON 009 118 4.00 . 8.00 23. .04 323
Hat othane
001516770 BUTYL 014 118 210.00 8.00 23. .09 323
PV ALCOHOL 102 100 -22.00 8.00 23. .07 323
PVC 007 100 -35.00. 8.00 23. .02 323
VITON 009 118 81.00 8.00 23. .05 323
Heptane
001428250 PE 041 UNK .70 8,760.00 23. 305
042 UNK 6.90 8,760.00 23. 305
048 UNK 10.00 8,760.00 23. 305
Hexach I orocyc I opentadi ene
000774740 BUTYL 014 118 26.00 8.00 23. .06 323
NITRILE 019 100 19.00 8.00 . .23. .04 323
PV ALCOHOL 102 100 2.00 8.00 23. .08 323
VITON . 00? . 118 2.00 8.00 23. .03 323
Hexamethy tphosphoamide
006803190 BUTYL 034 UNK . 8.00 168.00 22. 078
NEOPRENE . 031 (iNK 272.00 168.00 22. 078
NITRILE 033 UNK 78.00 168.00 22. . 078
PE . 006 209 22.00 168.00 22. 078
POLYURETHANE 050 178 242.00 168.00 22. 078
VITON 032 UNK 250.00 168.00 22. 078
Hexane
001105430 NEOPRENE 010 120 4.00 4.00 23. .06 236
28.00 1.00 23. .06 236
1.00 .50 23. .06 236
1.00 .08 23. .06 236
NITRILE . 005 120 1.00 .08 23. .06 236
.01 .50 23. .06 236
.01 1.00 23. .06 236
1.00 4.00 23. .06 236
Hydrochloric Acid.
076470100 BUTYL 034 UNK 11.00 20.00 25. 126
.90 3.00 25. 126
POLYCARBONATE 098 UNK < .01 3.00 25. 126
.01 20.00 25. 126
HydrochLoric Acid, <30%
076470101 PE . 041 UNK < .01 8,760.00 23. 305
042 UNK < .01 8,760.00 23. 305
048 UNK .20 8,760.00 23. 305
Hydrochloric Acid, 30-70%
076470102 NATURAL RUBBER 001 120 1.00 .08 . 23. .05 236
2.00 .50 23. .05 236
3—17
-------�
SUMMARY OF PERFORMANCEDETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
Hydrogen Peroxide, 30-70%
077228412 PE
041 UNK
042 UNK
048 UNK
3.00
5.00
1.00
1.00
1.00
2.00
1.00
2.00
2.00
3.00
.01
1.00
4.00
.08
.50
1.00
4.00
.08
.50
1.00
4.00
.08
.05
.05
.06
.06
.06
.06
.06
.06
.06
.06
.08
.08
.08
.08
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
25.
25.
25.
1.00
1.00
2.00
236
236
236
236
236
236
236
236
236
236
236
236
236
236
126
126
126
.50
1.00
4.00
123.00
.30
1.00
3.00
3.00
20.00
:
CHEMICAL NAME!
CASNO
076470102:
RESISTANT :
MATERIAL
NATURAL RUBBER
PRODUCT
DESC
001
CODE
VENDOR
120
PERCENT WEIGHT CHANGE IMMERSION
: HOURS
TIME
TEMP
DEC C
THICKNESS
CM
REF
NUM
NEOPRENE :
010
120
NITRILE
005
120
PVC
003
120:
-
Hydroftuoric
Acid (Hydrogen Fluoride)
.
076643930
BUTYL
034
UNK
.
:
POLYCARBONATE
098
UNK
.
Hydroftuoric
Acid, 30-70%
076643932
NATURAL RUBBER
.
.
NEOPRENE
:
:
NITRILE
.
PVC
001
010
005
003
120
120
120
120
:
4.00
8.00
2.00
6.00 :
7.00
1.00
4.00
08
.50
1.00
:
23.
23.
23.
23.
23.
23.
: 23.
23.
23.
23.
23.
23.
23
23.
23.
23.
.05
.05
.05
.05
.06
.06
.06
.06
.06
.06
.06
.06
.08
.08
.08
.08
236
236
236
236
236
236
236
236
236
236
236
236
236
236
236
236
23.
23.
23.
305
305
305
28.
26.
27.
.09
.02
.05
323
323
323
< .01
.01
‘1 .00
1.00
2.00
4.00
4.00
1.00
.50
.08
.08
.50
11 .00
1.00
2.00
2.00
2.00
4.00
.08
.50
1.00
4.00
Iminobispropytamine
000561880
.01 8,760.00
.10 8,760.00
.01 8,760.00
014
001
018
009
118
250
100
118
BUTYL
NATURAL RUBBER
NEOPRENE
VITON
BUTYL
NITRILE
PV ALCOHOL
Isobutyt Acrylate
001066380
4.00
21.00
24.00
3.00
16.00
103.00
-2.00
014 118
019 100
102 100
8.00
8.00
8.00
8.00
8.00
8.00
8.00
23. .Ô9 :
23. .05
23. .08
323
323
323
B— 18
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
CHEMICAL NAME! RESISTANT
CASNO
001066380
MATERIAL
PVC
PRODUCT VENDOR
DESC CODE
003 100
PERCENT. WEIGHT CHANGE
94.00
IMMERSION TIME
HOURS
8.00
TEMP THICKNESS REF
DEGC CM NUN
•23. .02 323
Isopropytmethacrytate
23. .05 204
23. .05 204
23. .05 204
23. .05 236
.23. O5 236
23. .05 236
23. .05 236
23. .06 236
23. .06 236
23. .06 236
23. .06 236
23. .06 ‘236
23. .06 236
23. .06 236
23. .06 236
23. .08 236
23. .08 236
23. .08 236
23. .08 236
23. .07 323
23. .05 323
23. .05 , 323’
23. .05 323
23. .04 323
23. ‘ .06 323
23. .02 323
23. .04 323
Isobutyt ALcohoL
000788310
‘
‘
BUTYL
NEOPRENE
NITRILE
VITON
014
018
019
009
118
100
118
118
.06
-3.00
7.00 ‘
.02
‘
8.00
8.00
8.00
8.00
Isobutyt ‘Nitrite
‘
005425630
BUTYL .
014
118
81.00
8.00
‘
NITRILE
PVC
VITON
019
003
009
100
100
118
‘
38.00
-31.00
50.00
8.00
8.00
8.00
Isopropyl ALcohoL
000676300 ‘
‘
(Propanot , 2-)
CPE
‘
‘
3.10
3.70
‘
24.00
24.00
‘
NATURAL RUBBER
3.50
1.00
24.00
.08
‘
‘
1.00
.50
1.00
1.00
.
1.00
4.00
<
.01
.08
1.00
.50
<
.01
1.00
‘
‘<
.01
2.00
4.00
4.00
2.00
2.00
,
1.00
.50
<
1.00
.01 ‘
.08
4.00
<
.01
1.00
.
‘1.00
.50
<
.01
.08
Isopropytamine
000753100
060 113
001 120
010 120
005 120
003 120
NEOPRENE
NITRILE
PVC
BUTYL
NEOPRENE
PVC
VITON
014
018
007
009
118
100
100
118
046553490
‘Kerosene
080082060
24. .09
21. .05
18. .02
26. .04
323
323
323’
323
BUTYL
NITRILE
PV ALCOHOL
P’JC
NEOPRENE
NITRILE
28.00
60.00
18.00
67.00
36.00
69.00
-3.00
63.00
1.00
1 .00
1.00
3.00
1.00
014 118
019 100
102 100
003 100
010 120
005 120
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
.08
.50
1.00
4.00
.08
23. .09 323
23. .05 323
23. .09 323
23. :02 323’
23. .06 236
23. .06 236
23. .06 236
23. .06 236
23 .06 236
B—19
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
MethyL Acrylate
000963330 BUTYL
NATURAL RUBBER
NEOPRENE
005 120
PERCENT WEIGHT CHANGE IMMERSION TIME
HOURS
1.00 ‘. .50
.10 8,760.00
.10 8,760.00
.01 8,760.00
23. .09 323
23. .02 323
23. .05 323
• 23. .07 323
20. .07 323
16. .02 323
16. .05 323
14. .02 323
MethyL Chloroform (Trfchloroethane,1,1,1)
• PRODUCT VENDOR
DESC CODE
DEG C
CM
NUM
23.
.06
236
23.
.06
236
23.
.06
236
23.
.09
323
23.
.02
323
23.
.06
323
23.
.02
1.00
2.00
• -1.00
7.00
-6.00
10.00
1.00
2.00
2.00
1.00
.01
.01
1.00
1.00
7.00
6.00
3.00
3.00
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
080082060 NITRILE
Methacrytonitrile
001269870 BUTYL
NATURAL RUBBER
PV ALCOHOL
PVC
Methanol (Methyl Alcohol)
000675610 NATURAL RUBBER
NEOPRENE
- NITRILE
Methanol, <30%
000675611 PE
MethanoL, >70%
.000675613 PE
MethyL Acetate
000792090 BUTYL
NATURAL RUBBER
PV ALCOHOL
PVC
1.00
4.00
8.00
8.00
8.00
8.00
.08
1.00
4.00
.50
.08
.50
1.00
4.00
4.00
1.00
.50
.08
014 • 118
001 250
102 100
003 100
001 120
010 120
005 120
041 UNK
042 UNK
048 UNK
041 UNK
042 UNK
048 UNK
014 118
001 . 250
102 100
003 100
014 118
001 250
018 100
102 100
014 118
001 250
018 100
007 •• 100
.10 8,760.00
.01 8,760.00
.01 8,760.00
23. .05
.23. .05
23. .05
23. .05
23. .06.
23. .06
23. .06
23. .06
23. .06
23. .06
23. .06
23. .06
23.
23.
23.
23.
23.
23.
23. .09
23. .02
23. .07
23. .02
236
236
236
236
236
236
236
236
236
236
236
236
305
305
305
305
305
305
323
323
323
323
NATURAL RUBBER
NEOPRENE
•PV ALCOHOL
3-MethyL aminopropytamine
062918450 BUTYL
1.00
-20.00
-25.00
12.00
5.00
54.00
50.00
• . -4.00
5.00
30.00
70 .00
45.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
PVC
B— 20
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
TEMP THICKNESS REF
DEG C CM NUN
.
CHEMICAL NAME! .RESISTANT
CASNO MATERIAL
000715560 BUTYL
PRODUCT
DESC CODE
014
VENDOR
UNK
•
PERCENT
WEIGHT CHANGE
IMMERSION
HOURS
168.00
TIME
80.00
80.00
24.00
5.50
24.00
064
UNK
47.00
24.00
:
49.00
168.00
NATURAL RUBBER
017
UNK
464.00
24.00
.30
24.00
4Th 0O
168.00
NEOP/NAT RUBBER
008
UNK
- .30 -
.30
24.00
NEOPRENE
010
120
21.00
.08
78.00
.50
.
86.00
1.00
92.00
4.00
291.00
168.00
290.00
24.00
15.50
24.00
- .50 -
.50
24.00
.
2.80
24.00
NITRILE
36.00
4.00
82.00
1.00
62.00
.50
25.00
1,000.00
.08
>
24.00
.
2.50
24.00
PE
16.00
168.00
5.00
24.00
131.00
24.00
147.00
168.00
POLYURETHANE
58.00
24.00
.
79.00
168.00
PV ALCOHOL
.80
24.00
6.90
24.00
.90
168.00
PVC
-2.50
24.00
227.00 ,
24.00
273.00
168.00
TEFLON
.30
24.00
‘
.40
168.00
VITON
4.00
24.00
5.00
•
25.
• 25.
22.
25.
25.
25.
22.
25.
22.
23. .06
23. .06
23. .06
23. .06
25.
25.
22.
22.
22.
23. .06
23. .06
23. .06
23. .06
25.
22.
25.’
25.
25.
25.
25.
• 25.
25.
22.
25.
22.
25.
25.
25.
25.
25.
25.
326
326
201
326
326
326
201
326
201
236
236
236
236
326
326
201
201
201
236
236
236
236
326
201
326
326
326
326
326
326
326
201
326
201
326
326
326
326
326
326
126
126
018 UNK
005 120
019 UNK
020 UNK
042 UNK
076 UNK
050 UNK
102 UNK
003 UNK
077 UNK
036
009 UNK
034 UNK
001 UNK
002 UNK
010 120
005 UNK
UNK
MethyL Chtoroformate
000792210 BUTYL
Methytene Chloride (Dichtoromethane)
000750920 NATURAL RUBBER’
NEOPRENE
NITRILE
13.00
11.00
-3.00
-3.00
17.00
25.00
20.00
4.00
-3.00’
20.00
3.00
1.00
1’.OO
.08
.50
1.00
4.00
1.00
25.
25.
25.
25.
23.
23.
23.
23.
25.
208
208
.06 236
.06 236
.06 236
.06 236
208’
B —21
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
CHEMICAL NAME! RESISTANT PRODUCT VENDOR PERCENT WEIGHT CHANGE IMMERSION TIME TEMP THICKNESS REF
CASNO MATERIAL DESC CODE HOURS DEG C CM HUM
n-MethyLethanoLamine
001098310 BUTYL 014 . 118 2.00 8.00 19. .07 323
CELLULOSE ACETATE 099 118 9.00 8.00 20. .03 323
NATURAL RUBBER 001 250 8.00 8.00 20. .02 323
NEOPRENE 018 100 4.00 8.00 20. .06 323
MethyL EthyL Ketone (Butanone,2)
000789330 BUTYL - 014 118 6.00 8.00 23. .06 323
NATURAL RUBBER 001 120 . 10.00 .50 23. .05 236
6.00 4.00 23. .05 236
8.00 .08 23. .05 236
12.00 1.00 23. . .05 236
250 37.00 8.00 23. .01 . 323
UNK -2.00 1.00 25. 208
NEOPRENE 002 UNK -3.00 1.00 25. 208
010 120 8.00 4.00 . 23. .06 236
16.00 1.00 23. .06. 236
14.00 .50 23. .06 236
5.00 .08 23. .06 236.
018 100 88.00 8.00 23. .05 323
NITRILE 005 UNK -2.00 1.00 25. 208
PV ALCOHOL 102 100’ -14.00 8.00 23. .07 323
Methythydrazine
000603440 BUTYL 034 UNK 6.70 20.00 25. 126
3.40 3.00 25. 126
MethyL Iodide .
000748840 BUTYL 014 118 208.00 8.00 23. .09 323
NEOPRENE 018 100 511.00 . 8.00 23. .05 323
PV ALCOHOL 102 100 -18.00 8.00 23. .07 323
VITON 009 118 4.00 8.00 23. .04 323
MethyL Isocyanate
006248390 BUTYL 014 118 32.00. 8.00 13. .06 323
32.00 8.00 23. .07 323
NATURAL RUBBER 001 250 49.00 8.00 20. .02 323
49.00 8.00 23. .01 323
NEOPRENE 018 100 90.00 8.00 20. .05 323
PV ALCOHOL 004 100 6.00 .OO 23. .03 323
VITON 009 118 74.00 8.00 21. . .03 323.
74.00 . 8.00 23. .03 323
MethyL Methacrytate
000806260 BUTYL 014 118 . 23.00 ‘ 800 . 23. .09 323
NATURAL RUBBER 001 250 112.00 8.00 23. .02 323
PV ALCOHOL 102 100 -7.00 8.00 23. .06 323
PVC 003 100 102.00 8.00 23. .02 323
Monoi sopropanot amine
• 000789660 BUTYL 014 118 2.00 8.00 25. .07 . 323
NEOPRENE 018 100 6.00 8.00 24. .05 323
B—22
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
PRODUCT VENDOR
DESC CODE
007 100
009 118
PERCENT WEIGHT CHANGE IMMERSION TIME
HOURS
8.00
8.00
TEMP THICKNESS REF
DEG C CM HUM
25. .02 323
25. .04 323
001 120
010 .120
005 120
041 UNK
062 UNK
048 UNK
003 120
.08
23.
.05
236
1.00
23.
.05
236
4.00
23.
.05
236
.
08
23.
.06
236
.50
23.
.06
236
.1.00
23.
.06
236
4.00
23.
.06
236
.08
23.
.06
236
.50
23.
.06
1.00
23.
.06
236
236
4.00
23.
.06
236
8,760.00
23.
305
8,760.00
23..
305
8,760.00
23.
305
8,760.00
23.
305
.08
23.
.08
236
.50
23.
.08
236
1.00
23.
.08
236
4.00
23.
.08
236
20.00
25.
126
3.00
25.
CHEMICAL NAME/ RESISTANT
CASNO MATERIAL
OOO7 9660 PVC
VITON -
Nitric Acid, >70%
076973723 NATURAL RUBBER
NEOPRENE
NITRILE
PE
PVC
Ni trobenzene.
000989530 . BUTYL
Nitroethane
000792430 BUTYL
NATURAL RUBBER
NEOPRENE
PV ALCOHOL
Nit , omethane
000755250 BUTYL
NATURAL RUBBER
NEOPRENE
PV ALCOHOL
Nitropropane
253220140 BUTYL
NEOPRENE
NI TR I LE
PE
POLYURETHANE
P.V ALCOHOL
PVC
V ITOH
2-Nitropropane
000794690 BUTYL
6.00
7.00
6.00
3.00
8.00
12.00
1.00
2.00
3.00
7.00
9.00
17.00
20.00
34.00
1.40
1.90
4.80
4.80
2.00
3.00
4.00
5.00
15.00
4.20
.30
2.00
23.00
-1.00
.50
-4.00
4.00
-2.00
2.00
23.00
72.00
7.00
99.00
1.00
42.00
107.00
.50
034
014
001
018
102
014
001
018
102
034
031
033
006
050
035
077
032
014
UNK
118
250
100
100
118
250
100
100
UNK
UNK
UNK
209
178
UNK
168
UNK
118
23. 09 323
23. .02 323
23. .04 323
23. .07 323
23. .09 323
23. .02 323
23. .05 323
23. .07 323
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
168.00
168.00
168.00
168.00
168.00
168 00
168.00
168.00
8.00
22.
22.
22.
22.
22.
22.
22.
22.
23:
078
078
078
078
078
078
078
078
.08 323
B— 23
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
• IMMERSION WEIGHT CHANGE TEST
CHEMICAL NAME! RESISTANT PRODUCT VENDOR PERCENT WEIGHT CHANGE IMMERSION TIME TEMP THICKNESS REF
CASNO MATERIAL DESC CODE HOURS DEG C CM HUM
000794690 NATURAL RUBBER 001 250 18.00 8.00 23. “.02 323
NEOPRENE 018 100 53.00 8.00 23. .04 323
PV ALCOHOL 102 100 -2.00 8.00 23. .06 323
n-Nitrosod imethytamine
000551850 CPE 060 113 115.00 .83 23. .05 204
112.00 .83 23. .05 204
109.00 .33 23. .05 204
o-Nitrototuene
000887220 BUTYL 034 UNK 15.20 20.00 25. 126
9.90 3.00 25. 126
p-Nitrototuene
000999900 BUTYL 034. UNK .10 3.00 25. 126
.20 20.00 25. 126
POLYCARBONATE 098 UNK .20 3.00 ‘ ‘ 25. 126
2.00 20.00 25. 126
Oteic Acid
001128010 PE 041 UNK 1.40 8,760.00 23. 305
042 UNK 1.70 8,760.00 23. ‘ 305
048 UNK 2.40 8,760.00 . 23. 305
Oxatic Acid
001446270 BUTYL 014 118 1.00 8.00 19 ‘.07 323
NEOPRENE 018 . 100 . 3.00 ‘ 800 19. .05 323
NITRILE 019 100 2.00 8.00 19. • .04 323
VITON 009 118 .90 8.00 20. .03 323
Phenol. (CarboLic Acid)
001089520 CPE 060 113 9.10 24.00., .23. .05 204
68.00 24.00 23. .05 204
25.00 , 2400 , 23. .05 204
- NATURAL RUBBER. 001 120 12.00 4.00 23. .05 236
2.00 . 1.00 23. .05 236
3.00 .50 23. .05 236
200 - .08 23. .05 236
NEOPRENE 010 120 5.00 4.00 23. .06 236
1.00 1.00 23. .06, 236
2.00 .50 23. .06 236
2.00 .08 23. .06 236
PhenoL, <30% . .
001089521 PE 041 UNK .20 8,760.00 23. 305
042 UNK .10 8,760.00 23. 305
048 • UNK .20 8,760.00 ‘ 21. ‘ 305
Phenyt Gtycidyt Ether
001226010 BUTYL . . 014 UNK .40 •. 24.00 , 22. 201
NATURAL RUBBER 017 UNK 6.00 24.00 22. 201
NEOP/NAT RUBBER ‘ 008 UNK 30.00 24.00 22. 201
NEOPRENE 018 UNK 37.70 24.00 22. 201
B—24
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
CHEMICAL NAME! RESISTANT PRODUCT VENDOR PERCENT WEIGHT CHANGE IMMERSION TIME TEMP THICKNESS REF
CASNO MATERIAL DESC CODE HOURS DEG C CM- NUM
001226010 NEOPRENE 018 LiNK 23.00 24.00 22. 201
33.10 24.00 22. 201
NITRILE 020 LiNK 103.50 24.00 22. 201
PV ALCOHOL 102 LiNK 3.80 24.00 ‘22. 201
PVC 003 : UNK 41.40 24.00 22. ‘ 201
Phosphoric Acid, >70%
076643823 ‘NATURAL RUBBER 001 120 3.00 4.00 23. .05 236
3.00 1.00 23. .05 236
2.00 , .50 23. .05 236
- 1.00 .08 23.. .05 236
NEOPRENE 010 120 .01 .08 23. .06 236
.01 .50 23.’ .06 236
.01 1.00 23. .06 236
.01 4.00 23. .06 236
NITRILE 005 120 .01 .08 23. .06 236’
1.00 .50 ‘ 23. .06 236
4.00 1.00 23. .06 236
5.00 4.00 23. .06 236
PVC 003 120 ‘ 1.00 .08 23. .08 , 236
2.00 .50’ 23. .08 236
2.00 1.00 ,, 23. .08 , 236
2.00 4.00 23. ‘.08 236
Potassiun Hydroxide, 30-70%
013105832 NATURAL RUBBER 001 120 2.00 4.00 23. .05 236
2.00 1.00 23. .05 236
2.00 .50 23. .05 236
1.00 - .01 ‘ .08 23. .05 ‘ 236
NEOPRENE 010 120 .01 4.00, 23. .06 236
.01 1.00 23. .06 236
.01 , .50 23.’ .06 236
.01 .08 23. .06 236
NITRILE 005 120 1.00 .08 23. .06 236
1.00 .50 23. .06 ‘ 236
1.00 1.00 ‘23. .06 236
.01 4.00 , 23. .04 236
PVC 003 120 1.00 400 23. .08 236
.01 1.00 23. .08 236
1.00 ‘ .50 23. .08 236
1.00 .08 , 23. .08 236
beta-Propiotactone
000575780 BUTYL 034 LiNK 1.00 168.00’ 22. 078
NATURAL RUBBER 017 508 9.00 168.00 22. ‘ 078
NEOPRENE ‘ 031 LiNK 31.00 168.00 22. ‘ 078
NITRILE 033 UNK ‘29.00 16&O0 , ‘22. 078
PE 006 209 18.00 168.00 22. 078
POLYURETHANE 050 178 185.00 16&00 22. 078
PVC 077 168 15.00 168.00 22. 078
VITON 032 UNK , 69.00 16800 22. 078
n-Propytarnine
B—25,
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
PropyLene Dfchtoride (Dichtoropropane
000788750 BUTYL
PV ALCOHOL
PVC
VI TON
1,2)
014
102
007
009
PERCENT WEIGHT CHANGE IMMERSION TIME
HOURS
.10 8,760.00
.10 8,760.00
.01 8,760.00
.01 8,760.00
.01 8,760.00
.10 8,760.00
23. .08 323
23. .07 323
23. .02 323
23. .03 323
TEMP THICKNESS REF
DEC C CM NUM
25.
25.
17.
24.
17.
25.
126
126
.07 323
.05 323
.02 323
.02 323
17.00
14.00
-3.00
1.00
5.00
8.00
70.00
-2.00
105.00
7.00
21.00
58.00
-9.00
94.00
38.00
152.00
- .60
106.00
20.00
3.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
CHEMICAL NAME! RESISTANT
PRODUCT
VENDOR
• CASNO MATERIAL
DESC CODE
001071080 BUTYL
034
UNK
Propytenediamine .
.
000789000 BUTYL
014
.
118
NEOPRENE
018
100
PVC
007
100
VITON
009
118
118
100
100
118
1,3-PropyLene Oxide
005033000 BUTYL
014
118
NATURAL RUBBER
001
250
PV ALCOHOL
004
100
VITON
009
118
PropytmethacryLate
022102880 BUTYL
014
118
NITRILE
019
100
PV ALCOHOL
004
100
PVC
003
100
Sodium Hydroxide, <30%
013107321 PE
041
UNK
042
UNK
048
UPIK
Sodium Hydroxide, 30-70%
013107322 NATURAL RUBBER
001
120
UNK
NEOPRENE
002
UNK
010
120
005
120
23. .07 323
•23. .02 323
23. .03 323
23. .03 323
23.. . .08 323
23. .04 323
23. .07 323
23. .02 • 323
23.
23.
23:.
23.
23.
23.
23.
23.
23.
23.
25.
25.
23.
23.
23.
23.
23.
23.
23.
23.
25.
23.
23.
2.00
1.00
2.00
2.00
-1 .00
-1.00
2.00
4.00.
3.00
1.00
2.00
7.00
3.00
3.00
1.00
8.00
6.00
305.
305
305
305
305
305
.05 236.
.05 236
.05 236
.05 236
208
208
.06 236
.06 236
.06 236
.06 236
.06 236
.06 236
.06 236
.06 236
208
.08 236
.08 236
NI TRI LE
.
UNK
PVC
003 120
4.00
•1.00
.50
.08
1.00
1.00
4.00
1.00
.50
.08
.08
.50
1.00
4.00
1.00
.08
.50.
B— 26
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
PRODUCT VENDOR
DESC CODE
IMMERSION TIME
HOURS
TEMP THICKNESS REF
DEG C CM HUM
013107322 PVC
Tannic Acid, >70%
014015543 NATURAL RUBBER
NEOPRENE
NITRILE
1,1,1,2-Tetrachtoroethane
006302060 BUTYL
PV ALCOHOL
1 ,1,2,2-Tetrachtoroethane
000793450 BUTYL
PV ALCOHOL
PVC
041 UNK
042 UNK
048 UNK
.10 8,760.00
.01 8,760.00
.01 8,760.00
CHEMICAL NAME!
CASNO
RESISTANT
MATERIAL
PERCENT WEIGHT CHANGE
003 : 120
7.00
3.00
1.00
4.00
SuLfuric Acid, <30%
076649391 PE
SuLfuric Acid, 30-70%
076649392 NATURAL RUBBER
NEOPRENE
NITRILE
tE
PVC
001 120
010 120
005 120
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
25.
25.
25.
041
042
048
003
.08 236
.08 236
305
305
305
.05 236
.05 236
.05 236
.05 236
.06 236
06 236
.06 236
.06 236
.06 236
.06 236
.06 236
.06 236
305
305
305
.08 236
.08 236
.08 236
.08 236
208
208
208
UNK
UNK
UNK
120
2.00
1.00
2.00
1.00
2.00
3.00
1.00
1.00
1.00
2.00
.01
1.00
.01
.01
.01
1.00
.01
1.00
1.00
10.00
7.00
56.00
128.00
-3.00
83.00
2.00
167.00
.10
247.00
4.00
1.00
.50
.08
.08
.50
1.00
4.00
.08
.50
1.00
4.00
8,760.00
8,760.00
8;760.O0
‘.08
.50
1.Oo
4.00
1.00
1.00
1.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
PVC
VITON
001 UNK
002 UNK
005 UNK
014 118
102 100
007 100
009 118
016 118
004 ‘ 100
007 ‘ 100.
009 118
014 118
017 UNK
018 100
005 120
VITON
TetrachLoroethytene (PerchioroethyLene)
001271840 BUTYL
NATURAL RUBBER
NEOPRENE
NITRILE,
23. .07 323
23. .08 323
23. .02 323
23. .03 323
23. .07 323
23. 04 323
23. .02 323
23. ‘ .03 323
.80 8.00
510.00
770.00
360.00
8.00
11 .00
11 .00
24.00
24.00
24 00
08
.50
1.00
23.
23.
23.
23.
23.
23.
.04 291
.02 291
.04 291
.06 236
.06 236
.06 236
B— 27
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
CHEMICAL NAME! RESISTANT PRODUCT VENDOR PERCENT WEIGHT CHANGE IMMERSION TIME TEMP THICKNESS REF
CASNO MATERIAL DESC CODE HOURS DEGC CM NUM
001271840 NITRILE 005 120 22.00 4.00 23. .06 236
020 191 95.00 24.00 23. .04 291
PE 006 100 15.00 24.00 23. .01 291
PV ALCOHOL 102 100 -6.00 24.00 23. .05 291
TEFLON 036 214 .01 24.00 23. .01 291
VITON 009 118 ‘ 4.00 24.00 23. .02 291
TetraethyLenepentamine
001125720 BUTYL 012 118 3.00 8.00 25. .09 323
NATURAL RUBBER 017 506 17.00 .8.00 28. ‘.02 323
NEOPRENE 018 100 11.00 .8.00 27. .05 323
VITON 009 118 3.00 8.00 23. .04 323
N,N,N’,N’-TetramethyLenediamine
001101890 BUTYL 012 118 156.00 8.00 20. .07 323
014 118 156.00 8.00 23. .07 323
NITRILE 019 100 37.00 8.M0 23. .05 323
37.00 8.00 ‘ 24. .05 323
PVC 003 100 3.00 8.00 . 23. .02 .323
VITON ‘ 009 118 31.00 8.00 23. .04 323
31.00 8.00 24 ‘ .04 323
Totuene
001088830 BUTYL 014 UNK 2.00 24.00 22. 201
NATURAL RUBBER 001 UNK -2.00 1.00 25. 208
017 UNK .04 24.00 22. 201
NEOP/NAT RUBBER 008 UNK .04 24.00 22. 201
NEOPRENE. ‘ 002 UNK -3.00 1.00 25.’ 208
018 UNK .50 24.00 22’. 201
- .50 - .50 24.00 22. ‘ 201
.80 24.00’ . ‘.22. 201
NITRILE 005 120 25.00 1.00 ‘ 23. .06 236
33.00 .50 ‘ 23. .06 236
17.00 .08 23. .06 236
27.00 . 4.00 23. ‘• .06 236’
UNK -1.00 ‘ 1.00 “25. 208
020 UNK 2.50 24.00 ‘ 22. 201.
PE , 041 UNK 7.50 8,760.00 23. 305
042 UNK 9.80 8,760.00 23. ‘ 305.
048 UNK 15.10 8,760.00 , 23. 305
PV ALCOHOL 102 UNK 10.50 24.00 ‘ 22. ‘ 201
PVC 003 UNK ‘ ‘ -29.00 24.00 ‘ 22. 201
Totuene Dilsocyanate
264716250 NATURAL RUBBER 001 120 25.00 4.00 23. .05 236
15.00 1.00 23.. .05 236
9.00 .50 ‘ 23. .05 236
‘400 .08 23. .05 236
PVC 003 120 32.00 4.O ’ O’ 23. .08 236
26.00 1.00 23. .08 236,
14.00 .50 23. .08 236
6.00 .08 23. .08 236
B—28 ‘
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
TEMP THICKNESS REF
DEG C CM NUM
018
019
007
009
014
102
007
009
100
100
100
118
118
100
100
118
8.00
8.00
8.00
8.00
PVC
VITON
31.00
4.00
-20.00
1.00
105.00
.30
125.00
19.00
19. .05
22. .04
20. .02
17. .03
• 323
323
323
323
23. .07 323
23. .08 323
23. .02 323
23. .03 323
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
TriaL tytamine
PRODUCT • VENDOR
DESC CODE
.
PERCENT
WEIGHT CHANGE IMMERSION TIME
HOURS
001027050 NEOPRENE
NI TR I LE
PVC
VITON
Trichtoroacetatdehyde (Chtorat)
000758760 BUTYL
8.00
PV ALCOHOL
-
8.00
.
.
8.00
a.OO
1,1,2-Trichtoroethane
000790050 BUTYL
014
064
118
UNK
UNK
80.00
80.00
80.00
49.00
8.00
24.00
168.00
168.00
.
.
47.00
24.00
NATURAL RUBBER
001
UNK
-2.00
1.00
.
017
UNK
473.00
•464.00
168.00
• 24.00
NEOPRENE
002
UNK
-3.00
1.00
.
018 •
UNK
.
290.00
291.00
24.00
168.00
NITRILE
005
UNK
-3.00
1.00.
•
019
UNK
> 1,000.00 •
> 1,000.00
168.00
24.00
PE
042
UNK
5.00
24.00
.
076 •
UNK
16.00
131.00
168.00
24.00
147.00
168.00
POLYURETHANE
050 •
UNK
79.00
168.00
58.00
24.00
PV ALCOHOL
102
100
UNK
-2.00
.80
• .90
8.00
24.00
168.00
PVC
•
238.00
227.00
273.00
8.00
24.00
16&OO
TEFLON
036
.40
.30
168 . 00
24.00
VITON
009
3.00
5.00
4.00
8.00
168.00
24.00
003
077
• 23.
- -23.
23.
23.
23.
25.
23.
23.
25.
23.
23
25.
23.
• 23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
• 23.
23.
23.
23.
23.
23.
• 23.
•23 -
- 22.
25.
23.
25.
23.
.09 323
326
326
326
326
• - 208
326
326
208
• 326
- 326
• 208
326
326
326
326
326
326
326
326
.07 323
326
326
.02 323
326
326
326
326
.05 323
326
326
.04 291
078
208
.02 29.1
208
.04 291
118
UNK
UNK
118
UNK
118
UNK
UNK
UNK
UNK
100
Trichtoroethytene (Trich-Loroethene)
000790160 B IJTYL
- NATURAL RUBBER
NEOPRENE
014
034
001
017
002
018
440.00
148.00
-3.00
700.00
-3.00
400.00
24.00
168.00
1.00
24.00
1.00
24.00
B—2 9
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
•1,2,3-Trichtoropropane
000961840 SUTYL
NITRILE
PV ALCOHOL
VI TON
Tricresyt Phosphate (Tritotyt Phosphate)
013307850 BUTYL
PVC
VITON
1.00
3.00
4.00
10.00
.01
.08
.50
1.00
4.00
.08
23. .06 236
23. .06 236
23. .06 236
23. .06 236
23. .06 236
CHEMICAL NAME!
CASNO
000790160
PRODUCT VENDOR
DESC CODE
031 UNK
005 120
PERCENT WEIGHT CHANGE
TEMP THICKNESS REF
DEG C CM NUM
RES I STANT
MATERIAL
NEOrRENE’
NITRILE
PE
POLYURETHANE
PV ALCOHOL
PVC
TEFLON
VITON
22.
23
23.
23.
23.
25.
23.
22.
23.
22.
22.
22.
23.
22.
23.
23.
22.
020
033
006
050
035
102
077
036
009
032
014
019
004
009
UNK
503
UNK
100
209
178
UNK
100
168
214
118
UNK
118
100
100
118
078
.06 236
.06 236
.06 236
.06 236
208
.04 291
078
.01 291
078
078
078
.05 291
078
.01 291
.02 291
078
118.M0
29.00
5LOO
58.00
40.00
-1.00
310 . 00
217.00
20.00
6.00
115.00
• 3.00
-2.00
14.00
.01
8.00
2.00
19.00
182.00
4.00
.50
1.00
.40
2.00
70.00
6.20
-2800
200
3.00
6.00
23.00
600
15.00
.70
-14.00
-1.00
IMMERSION TIME
HOURS
168.00
4.00
1.00
.50
08
1.00
24.00
168.00
24.00
168.00
168.00
168.00
24.00
168.00
24.00
24.00
168.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
8.00
012 118
003 100
009 118
23. .06 323
23. .04 323
23. .03 323
23. .03 323
23
23.
23.
• .07 323
.02 323
.04 323
018
019
007
009
014
018
019
009
018
019
102
009
Triethylamine
001214480 NEOPRENE
NITRILE
PVC
VITON
Tn ethyl enetet raami ne
001122430 BUTYL
NEOPRENE
NITRILE
VITON
Tn -n-propytamine
001026920 NEOPRENE
N I TR I LE
PV ALCOHOL
VITON
Turpentine
080066420 NEOPRENE
NITRILE
20. .05 323
19. .04 323
20. .02 323
24. .03 323
100
118
100
118
118
100
100
118
100
100
100
118
20.
19.
16.
20.
.06 323
.05 323
.04 323
.03 323
23. .05 323
23. .04 323
23. .06 323
23. .04 323
010 120
005 120
B— 30
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION WEIGHT CHANGE TEST
CHEMICAL NAME! RESISTANT PRODUCT VENDOR PERCENT WEIGHT CHANGE IMMERSION TIME TEMP THICKNESS REF
CASNO MATERIAL DESC CODE HOURS DEG C CM NUN
.080066420 NITRILE 005 120 1.00 .50 23. .06 236
1.00 1.00 23. .06 236
1.00 4.00 23. .06 236
PE 041 UNK 7.20 8,760.00 23. 305
042 UNK 9.10 8,760.00 23; 305
048 UNK 14.50 8,760.00 23. 305
Vateronitrite
001105980 BUTYL 014 118 .70 8.00 23. .07 323
NATURAL RUBBER 017 506 32.00 8.00 23. .02 323
NEOPRENE 018 100 58.00 8.00 23. .05 323
PV ALCOHOL 004 100 -4.00 8.00 23. .07 323
4-Vinyt-1-cyctohexane
001004030 BUTYL 012 118 102.00 8.00 23. .07 323
NITRILE 019 100 21.00 8.00 23. .04 323
PV ALCOHOL 004 100 -1.00 8.00 23. .09 323
VITON 009 118 .60 8.00 23. .04 323
Xytene
001332070 NITRILE 005 120 10.00 .08 23. .06 236
19.00 .50 23. .06 236
27.00 1.00 . 23. .06 236
35.00 4.00 23. .06 236
ó19 100 82.00 8.00 23. .05 323
PE 041 UNK 7.90 8,760.00 23. 305
042 UNK 10.30 8,760.00 23. 305
048 UNK 15.40 8,760.00 23. 305
PV ALCOHOL 102 100 4.OO 8.00 23. .09 323
PVC 003 100 -7.00 8.00 23. .02 323
VITON 009 118 1.00 800 23. .04 323
o-Xylene
000954760 CPE 060 113 116.00 .60 23. .05 204
112.00 .60 23. 05 204
109.00 .73 23. .05 204
B— 31
-------�
APPENDIX C
SWELLING DATA
•c— 1
-------�
EthyLene Dibromide (Dibromoethane,1,2)
001069340 BUTYL
NATURAL RUBBER
NEOPRENE
NITRILE
PE
PV ALCOHOL
TEFLON
VITOtI
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION SWELLING TEST
PRODUCT . VENDOR SWELL (PERCENT VOLUME)
DESC CODE
BUTYL
NATURAL RUBBER
IMMERSION TIME
HOURS
014 UNK
064 UNK
017 UNK
TEMP THICKNESS REF
DEG C cM NUM
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
Benzene
000714320
Dibutytamine
001119220
Epich lorohydri’n
001068980
NEOPRENE.
018
UNK
NITRILE
019
UNK
NONWOVEN PE.
PE
.
071
042
076
UNK
UNK
UNK
PVC
003
UNK
SARANEX
TEFLON
061
036
UNK
UNK
VITON
009
UNK
NITRILE
019
100
PV ALCOHOL
102
100
PVC
007
100
VITON
009
118
23.
23.
• 23.
• 23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
327
327
327
327
327
.327
327
327
327
327
327
327
327
24. .04 323
23. .08 323
20. .02 323
20. .03 323
BUTYL
014
118
NATURAL RUBBER
017
UNK
NEOPRENE
018
100
NITRILE
020
503
PE
006
100
PV ALCOHOL
102
100
TEFLON
036.
214
VITON •.
009
118
124.00
82.00
377.00.
383 .00
284 .00
182.00
166.00
37.00
14.00
-18.00
71.00
6.40
18.00
28.00
-26.00
-26.00
.40
.01
• 30.00
120.00
240.00
15.00
•7.00
.01
35.00
30.00
240.00
> 1,000.00
2300O
35.00
.01
.01
.01
19.00
19.00
1900
25.00
25.00
25.00
118.00
124.00
118.00
141.00
24.00
24.00
24.00
24.00
24.00
24.00
24.00
24.00
24.00
24.00
24.00
24.00
24.00
8.00
8.00
8.00
8.00
24.00
24.00
24.00
24.00
24.00
24.00
24.00
24.00
24.00
24.00
24.00
24.00
24.00
24.00
24.00
24.00
24.00
4.00
1.00
24.00
4.00
1.00
1.00
24.00
4.00
4.00
23. .04
23. .02
23.. . .04
23. .04
23. .01
23. .05
23. .01
23. .02
291
291
291
291
291
291
291
291
014 118
017 UNK
018 100
020 503
006 100
102 100
036 214
009 118
UNK
UNK
UNK
UNK
23. .04 291
23. .02 291
23. .04 291
23. .04 291
23. .01 291
23. .05. 291
23. .01 291
23. .02 291
EthyLene Dichtoride (DichLoroethane,1,2)
001070620 BUTYL 014
064
NATURAL RUBBER 017
NEOPRENE 018
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
326
326
326
326.
326
326
326
326
326
326
C— 2
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION SWELLING TEST
CHEMICAL NAME! RESISTANT
PRODUCT
VENDOR
CASNO
MATERIAL
DESC
CODE
001070620
NEOPRENE
018
UNK
.
NITRILE
019
UNK
SWELL (PERCENT VOLUME) IMMERSION TIME
HOURS
020 UNK
PE 042 UNK
076 UNK
POLYURETHANE 050 UNK
PV ALCOHOL 102 UNK
PVC 077 UNK
TEFLON 036 UNK
VI TON 009 UNK
MethyL ChLoroform (Trichtoroethane,1,1,1)
000715560 BUTYL 014 UNK
064 UNK
NATURAL RUBBER 017 UNK
NEOPRENE 018 UNK
NITRILE 019 UNK
PE 042 UNK
076; UNK
POLYURETHANE 050 - UNK
DEG C
23.
CM
NUM
326
142.00
24.00
123.00
.1.00
23.
326
275.00
4.00
23.
•
326
286.00
24.00
23.
326
259.00
1.00
23.
326
252.00
1.00
23.
326
254.00
24.00
23.
326
252.00
4.00
23.
326
8.00
1.00
23.
326
20.00
24.00
23.
326
20.00
. 4.00
23.
326
4.30
1.00
23.
326
9.00
4.00
23.
•326
9.00
24.00
23.
•
326
<
.01
24.00
23.
326
1.50
4.00
23.
326
.30
1.00
23.
326
.30
1.00
23.
326
1.50
4.00
23.
326
1.00
24.00
23.
326
>
1,000.00
1.00
23.
326
<
.01
24.00
23.
326
<
.01
1.00
23.
326
<
.01
4.00
•
23.
326
9.00
4 00
•
23.
326
<
.01
1.00
23.
.
326
11.00
24.00
23.
326
249.00
1.00
25.
326
260.00
4.00
25.
326
263.00
24.00
25.
326
11.00
1.00
25.
326
153.00
4.00
25.
326
181.00
24.00
25.
326
334.00
1.00
25.
25.
326
429.00
4.00
326
425.00
24.00
25.
326
213.00
1.00
25.
326
239.00
4.00
25.
326
246.00
24.00
•
25.
326
182.00
1.00
25.
326
208.00
4.00
25.
326
214.00
24.00
25.
326
9.60
1.00
25.
326
9.60
4.00
25.
326
9.60
24.00
•
25.
326
-5.00
1.00
25.
326
13.30
4.00
25.
326
12.30
24.00
25.
326
14.30
1.00
25.
326
15.70
4.00
25.
326
13.70’:
24.00
25.
C— 3
-------�
Tetrachtoroethytene (PerchLoroethytene)
001271840 - BUTYL
NATURAL RUBBER
NEOPRENE
NITRILE
PE
PV ALCOHOL
TEFLON
V TON
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION SWELLING TEST
SWELL (PERCENT VOLUME)
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
000715560 PV ALCOHOL
PVC
TEFLON
VITON
Potychiorinated BiphenyLs (PCBs)
013363630 ‘ BUTYL
NATURAL RUBBER
NEOPRENE
PE
PV ALCOHOL
(Aroc I. or)
014
017
018
006
102
118
UNK
100
100
100
IMMERSION TIME
TEMP
THICKNESS
REF
HOURS
DEG C
CM
NUN
1.00
25.
326
4.00
25.
326
24.00
25.
326
1.00
25.
326
4.00
‘25.
326
24.00
25.’
326
1.00’
25.
326
4.00
25.
326
24.00
25.
326
1.00
25.
326
4.00
25.
326
24.00
25.
326
24.00
23
290
,
24.00
23.
290,
24.00
23.
290
24.00
‘
23.
290
24.00
23.
, 290
‘
24.00
23.
.04
291
.24.00
23.
.02
291
24.00
•
23.
‘
.04
291
24.00
23.
,
.04
‘291
24.00
23.
.01
291
24.00
23.
.05
291
24.00
23.
. .01
291
24.00
‘
23.
.02
‘291
PRODUCT VENDOR
DESC CODE
102 UNK
077 UNK
036 UNK
009 UNK
014 118
017 UNK
018 100
020 ‘ 191
006 100
102 100
036 214
009 118
014 UNK
064 UNK
017 UNK
018 UNK
019 UNK
UNK
UNK
050 ‘ UNK
.01
3.00
4.00
.01
.01
22.00
.01
.01
.01
.01’
8.60
20.50
14.00
200.00
10.00
‘35.00
4.00
280.00
530.00
320.00
60.00
85.00
-12.00
.01
.01
-1.00
10.00
7.00
44.00
44.00
42.00
146.00
154.00
154.00
158.00
140.00
158.00
355.00
339.00
277.00
-16.00
-23.00
-20.00
-1.00
4.00
14.00
-5.00
1,1 ,2-TrichLoroethane
000790050 ‘ , BUTYL
NATURAL RUBBER
NEOPRENE
NITRILE
PE
POLYURETHANE
042
24.00
1.00
4.00
24.00
4.00
1.00
1.00
2400
400
1 .00
4.00
24.00
24.00
400
1.00
4.00
‘1.00
240O
24.00
4.00
1.00
4.00’
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
2 .
23.
23.
23.
23.
23.
23.
23.
23.
23.
23.
326,
326
326
326
326
326
326
‘326
326
326
326
326
326
326
326
326
326
326
326
326
326
326
076
C— 4
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION SWELLING TEST
PRODUCT VENDOR
DESC CODE
102 UNK
036 UNK
009 UNK
TEMP THICKNESS REF
• HOURS DEG C CM MUM
1.00
24.00
4.00
1.00
1.00
.01 1.00
.01 4.00
.01 24.00
-SWELL (PERCENT VOLUME).IMMERSION TIME
050 LINK -5.00
-5.00
5.00
.01
077 UNK > 1,000.00
5.00 24.00
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
000790050 POLYURETHANE
PV ALCOHOL
PVC
TEFLON
VITON
Trichtoroethytene (Trichtoroethene)
000790160 BUTYL
NATURAL RUBBER
NEOPRENE
NITRILE
PE
PV ALCOHOL
TEFLON
VI TON
23.
2L
23.
23.
23.
23.
23.
23.
23.
23.
23.
2L
326
326
326
326
326
326
326
326
326
326
326
326
014
017
018
020
006
102
036
009
16OO
LOO
19.00
24.00
118
3200O
24.00
23.
.04
291
LINK
5800O
24.00
23.
.02
291
100
410.00
24.00
•
23.
.04
503
220.00
24.00
23.
.04
291
100
•
70.00
24.00
23.
.01
291
100
-10.00
24.00
23.
.05
291
214
.01
• 24.00
23.
.01
291
118
20.00
23;
•
C— 5
-------�
APPENDIX D
DIFFUSION COEFFICIENTS
D—1
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
DIFFUSION COEFFICIENTS
CHEMICAL NAME! RESISTANT PRODUCT VENDOR DIFFUSION COEFFICIENT CM**2/SEC TEMP THICKNESS REF
CASNO MATERIAL DESC CODE a b DEG C CM NUM
Acetone
000676410 PV ACETATE 124 UNK 1.30 -11.00 40. 178
ALLyI ChLoride
001070510 PV ACETATE 124 UNK 1.30 -11.00 40. 178
Benzene
000714320 BUTYL 014 UNK 4.33 -8.00 23. 327
064 pUNK 5.30 -7.00 23. 327
EVA 074 UNK 1.90 -6.00 23. 327
NATURAL RUBBER 017 UNK 1.45 -6.00 23. 327
1.60 -5.00 23. 327
045 UPIK 1.50 -7.00 25. .225
NEOPRENE 018 UNK 5.70 -7.00 23. 327
NITRILE 019 UNK 3.50 -7.00 23. 327
NONWOVEN PE 071 UNK 1.13 -6.00 23. 327
PE 042 UNK 8.33 9.00 23. 327
048 UNK 1.90 -9.00 0. 253
076 UNK 8.80 -7.00 23. 327
PV ACETATE 124 UNK 4.80 -13.00 40. 178
PV ALCOHOL 004 UNK 7.30 -7.00 23. 327
PVC 003 UNK 4.50 -7.00 23 327
SARANEX 061 UNK 1.67 -8.00 23. 327
TEFLON 036 UNK 6J7 -9.00 23. 327
VITON 009 UNK 6.00 -8.00 23. 327
Butyt CettosoLve (Butoxyethanot, 2)
001117620 NITRILE 019 100 3.45 -7.00 37. .06 107
2.57 -7.00 37. .06 107
PVC 007 129 7.00 -7.00 22. 122
Carbon Tetrachtoride (Tetrachtoromethane)
000562350 PV ACETATE 124 UNK 3.00 -16.00 40. 178
Chtorobenzene
001089070 NEOPRENE 002 UNK 6.61 -5.00 23. 186
PVC 007 LINK 7.36 -5.00 23. . 186
Dimethyt Sutfoxide . .
000676850 NEOPRENE 002 UNK 6.60 -4.00 23. 186
Ethane
000748400 PE 048 UNK 8.15 -8.00 25. 193
EthyLene Dichtoride (Dichtoroethane,1,2)
001070620 BUTYL 014 UNK 6.23 -8.00 23. 326
064 UNK 5.83 -8.00 23. 326
NATURAL RUBBER 017 UNK 7.50 -7.00 23. 326
NEOPRENE 018 UNK 4.67 -7.00 23. 326
NITRILE 019 UNK 4.50 -7.00 23. 326
020 LINK 1.00 -6.00 23. 326
PE 042 LINK 3.33 -8.00 23. 326
D-2
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
DIFFUSION COEFFICIENTS
Methanol (MethyL ALcohoL)
000675610 PV ACETATE
PRODUCT VENDOR
DESC CODE
102 UNK
036 UNK’
044 UNK
009 UNK
124 UNK
007 UNK
1.70 -12.00.
PropyL ALcohoL (Propanot)
000712380 PV ACETATE
124 UNK
1.10 -12.00
40. 178
nPropyLamine
DIFFUSION COEFFICIENT CM**2/SEC
a b
CHEMICAL NAME! RESISTANT
CASNO MATERIAL
001070620 PV ALCOHOL
TEFLON
VITON
Hexane
001105430 NEOPRENE
PE
PVC
Isobutytene (Isobutene)
001151170 PE
IsopropyLam ine
000753100 . PV ACETATE
Methane
000748280 PE
002 UNK
• 041 UNK
042 UNK
048 UNK
007 UNK
048 UNK
124 UNK
• 048 UNK
DEC C
23.
CM
NUN
326
1.83
-7.00
<
5.00
-8.00
23.
326
8.33
-10.00
23.
326
<
8.33
-11.00
23.
326
1.35
‘-5.00
23.
186
7.50
-11.00
0.
253
1.50
1.20
-10.00
-9.00
•
0.
0.
253
253
2.50
3.68
-8.00
-5.00
30.
23.
253
186
4.70
-8.00
30.
253
3.10
-9.00
0.
253
1.25
-9.00
-8.
253
.
40.
.
178
•
1.40
2.90
7.30
-
10.00
8.30
1.96 -7.00
1.40 -9.00
1.51 -5.00
PVC
Methyl Bromide (Bromomethane)
000748390 PE . 041 UNK
042 UNK
048 UNK
Methyl Chloroform (TrichLoroethane,1,1,’l)
p0071 5560 BUTYL 014
-9.00
-8.00
-9.00
-8.00
1.45 -7.00
• 25.
40.
• . ‘23.
0.
0.
0.
30.
25.
25.
25.
25.
25
25.
25.
25.
25.
25.
25.
NATURAL RUBBER
NEOPRENE
NITRILE
PE
POLYURETHANE
PVC.
VITON
PE
193
178
186
253
253
253
253
326
326
326
326
326
326
326
326
326
326
193.
UNK
064 UNK
017 UNI(
018 UNK
019 UNK
042 UNK
076 UNK
050 UNK
077 UNK
009 UNK
048 UNK
1.67
2.78
2.08
3.67
2.33
3.83
1.38
6.33
Propane
000749860
-7.00
-7.00
-7.00
-8.00
-8.00
-8.00
-7.00
-7.00
1.17 -9.00
2.00 -8.00
D —3
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
DIFFUSION COEFFICIENTS
CHEMICAL NAME! RESISTANT PRODUCT VENDOR DIFFUSION COEFFICIENT CM**2/SEC TEMP THICKNESS REF
CASNO MATERIAL DESC CODE a b DEG C CM HUM
001071080 PV ACETATE 124 UNK 5.10 -12.00 40. 178
PropyL Chloride (ChLoropropane, 1)
005405450 PV ACETATE 124 UNK 1.30 -12.00 40. 178
ToLiiene
001088830 BUTYL 014 118 3.67 -7.00 22. 122
216 1.02 -6.00 37. 122
NEOPRENE 002 UNK 5.56 -5.00 23. 186
018 509 6.17 -7.00 22. 122
NITRILE 019 100 3.45 -7.00 37. .06 122
2.57 -7.00 37. .06 122
1.50 -7.00 22. . 122
2.95 -7.00 37. .04 122
118 1.17 -7.00 22. 122
4.15 -7.00 37. 122
1.67 -7.00 22. 122
509 2.67 -7.00 22. 122
020 216 3.50 -7.00 22. 122
6.95 -7.00 37. 122
5.17 -7.00 22. 122
PVC 003 215 5.50 -7.00 22. 122
007 129 3.33 -7.00 22. 122
3.27 -7.00 37: 122
UNK 8.10 -5.00 23. 186
VITON 009 118 2.33 -8.00 37. 122
VITON/NEOPRENE 022 216 333 -8.00 22. 122
517 -8.00 37. 122
1,1,2-Tr ich loroethane
000790050 BUTYL 014 UNK .. 1.67 -7.00 23. 326
064 UNK 8.33 -8.00 23. 326
NATURAL RUBBER 017 UNK 1.47 -6.00 23. 326
NEOPRENE 018 UNK 1.35 -6.00 23. 326
NITRILE 019 UNK 5.50 -7.00 23. 326
PE 042 UNK 2.00 -8.00 23. 326
POLYURETHANE 050 UNK > 2.83 -7.00 23. 326
PV ALCOHOL 102 UNK .2.67 -7.00 2L 326
TEFLON 036 UNK. < 4.83 -11.00 23. 326
044 UNK 4.00 -10.00 23. 326
VITON 009 UNK 1.20 -9.00 23. 326
Trichtoroethytene (Trichtoroethene) . . . .
000790160 NEOPRENE 002 UNK 5.03 -5.00 23. 186
PVC 007 UNK 1.45 -6.00 23. 186
D-4
-------�
APPENDIX E
TENSILE DATA
E—].
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION TENSILE STRENGTH CHANGE TEST
-CHEMICAL NAME!
CASNO
RESISTANT’
MATER IAL
PRODUCT VENDOR
DESC CODE
PERCENT TENSILE CHANGE IMMERSION TIME
HOURS
TEMP THICKNESS REF
DEG C CM NUM
Hydrogen Peroxide, <30%
077228411 CHLOROBUTYL
23.
1,1-DimethyLhydrazine (DimethyLhydrazine,unsym-)
000571470 BUTYL
064
113
<
.01
.08
23.
321
085
211
,
-13.64
.08
23.
321
CHLOROBUTYL
052
205
<
.01
.08
23.
321
CPE
060
070
113
113
-20.63
-10.00
.08
.08
,
23.
23. ‘
321
321
PVC
053
126
•
29.03
.08
23.
321
TEFLON
055
210
85.19
.08
23.
321
Freon TMC
577623190 BUTYL
064
085
113.
211
•
6.82
2.27
.08
.08
23.
23.
321
321
CHL OROBUTYL
052
205
8.38
.08
23. ‘
321
CPE
060
113
-12.70
.08
23.
23.
321
‘
070
113
-20.00
.08
321
PVC
053
126
,
16.13
.08
23.
321
TEFLON
055
210
48.15
.08
23.
321
Hydrazine (Diamine)
003020120 BUTYL
064
085
113
211
-25.00
-15.91,,
.08
.08
23.
23.
321
321
CHLOROBUTYL
052
205
‘ -2.78
.08
23.
321
CPE
PVC
060
0,70
053
113
113
126
<
.01
-15.00
9.68
.08
.08
.08
23.
23. ‘
23. ‘ ‘
‘321 ,
321
321’
TEFLON
055
210
166.67
.08
23.
321
HydrochLoric Acid
076470100 BUTYL ,
,
064
085
113
211
15.91
-4.55
,
.08
.08
23. ‘
23.
321
321
CHLOROBUTYL
052
205
-13.89
.08
23.
321
CPE
060
070
113
113
-11.11
-62.50
.08
.08
23.
23.
321
321
PVC
053
126
35.48
.08 ‘
23.
321
TEFLON
055
210
174.07
.08
23.
321
Hydrogen Peroxide
‘077228410 BUTYL
064 ‘
113
36.36
.08
23. ‘
321
085
211
-4.55
.08
23.
321
CPE
060
070
113
113
‘
-9.52
-45.00
.08
.08
23. ‘
23.
321
321
‘PVC
053
126
35.48
.08
23.
321
TEFLON
055
210
‘
29.63
.08
23. ‘ 321
052
205
2.78
.08
321
Isopropyt ALcohoL (PropanoL,
2-)
.
.
.
000676300 BUTYL
CHLOROBUTYL
‘
064
085
052
113
211
205
<
-2.27
M i
-6.94
.08
.08,
.08
23.
23.
23. ‘
321
321
321
‘ CPE
060
113
-1.59
.08
23.
321
E— 2
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION TENSILE STRENGTH CHANGE TEST
CHEMICAL NANE/ RESISTANT PRODUCT VENDOR PERCENT TENSILE CHANGE IMMERSION TIME TEMP THICKNESS ‘REF
CASNO MATERIAL DESC CODE HOURS DEG C CM NUM
0006763ÔO CPE 070 113 -10.00 .08 23. 321
PVC 053 126 12.90 .08 23. 321
TEFLON 055 210 129.63 .08 23. 321
MethyL EthyL Ketone (Butanone,2)
0O78933O BUTYL 064 113 6.82 .08 23. 321
085 211 -4.55 .08 23. 321
CHLOROBUTYL 052 205 5.56 .08 23. 321
CPE 060 113 -4.76 .08 23. 321
070 113 -20.00 .08 23. 321
PVC 053 126 -67.74 .08 23. 321
TEFLON 055 210 159.26 S .08 23. 321
Methythydrazine
000603440 BUTYL 064 113 ‘ -4.55 .08 23. 321
085 211 -4.55 .08 23. 321
CHLOROBUTYL 052 205 -11.11 .08 23. 321
CPE ‘ 060 113 -7.94 .08 23. 321
070 113 -12.50 .08 23. 321
PVC 053 126 -22.58 .08 23. 321
TEFLON 055 210 85.19 .08 23. 321
Nitric Acid
076973720 BUTYL 064 , 113 2.27 .08 23. 321
085 211 4.55 .08 23. 321
CHLOROBUTYL 052 205 -27.78 .08 23.’ 321
CPE 060 113 1.59 .08 23. 321
070 113 -40.00 .08 23. 321
PVC 053 126 ‘ -16.13 .08 23. 321
TEFLON 055 210 133.33 .08 23. 321
Nitric Acid, Fuming Red
080075870 BUTYL 064 113 25.00 .08 23. 321
085 211 -6.82 .08 23. 321
CHLOROBUTYL 052 205 -19.44 .08 23. 321
CPE 060 113 3.17 .08 23. 321
070 113 -62.50 .08 23. 321
PVC 053 126 16.13 .08 23. 321
TEFLON 055 210 ‘ 44.44 .08 23. ‘ 321
Nitrogen Tetroxide
105447260 BUTYL 064 113 36.36 .08 23. 321
085 211 -20.45 .08 23., 321
CHLOROBUTYL 052 205 -47.22 .08 23. 321
CPE 060 113 ‘ -26.98 .08 ‘ 23. 321
070 113 -52.50 .08 23. , 321
PVC 053 126 ‘ -19.35 .08 23. 321
TEFLON 055 210 207.41 .08 23. 321
SuLfuric Acid
076649390 BUTYL 064 113 2.27 .08 23. 321
085 211 -9.09 .08 23. 321
CHLOROBUTYL 052 205 -5.56 .08 , 23. 321
E—3
-------�
SUMMARY OF PERFORMANCE DETAIL TESTS
IMMERSION TENSILE STRENGTH CHANGE TEST
CHEMICAL NAME! RESISTANT PRODUCT VENDOR PERCENT TENSILE CHANGE IMMERSION TIME TEMP THICKNESS REF
CASNO MATERIAL DESC CODE HOURS DEG C CM NUN
076649390 CPE 060 113 6.35 .08 23. 321
070 113 -22.50 .08 23. 321
PVC 053 126 .01 .08 23. 321
TEFLON 055 210 92.59 .08 23. 321
E— 4
-------�
APPENDIX F
PERMEATION DATA FOR
MULTI-COMPONENT LIQUIDS
F—i
-------�
CROSS-REFERENCE OF CHEMICALS IN MIXTURES
COMPONENT MIXTURE
Acetone
000676410 000400029
000400079
000400169
000400179
000400189
000400199
000400209
000400219
000400229
Acétonitrj le
000750580 000400059
Atlox 3403F
000300060 000400339
000400399
Atlox 3404F
000300070 000400389
000400399
Butadiene
001069900 000400059
Butyl Acetate
001238640 000400089
000400109
Butyl Alcohol
000713630 000400089
000400109
Cyclohexanol
001089300 000400359
• 000400369
000400379
Diesel Oil
0003QO020 • 000400149
Epoxy Resin
000300010 000400079
000400099
Ethyl Acetate
001417860 000400019
000400029
000400109
F—2
-------�
CROSS-REFERENCE OF CHEMICALS IN MIXTURES
COMPONENT MIXTURE
Ethyl Alcohol
000641750 000400019
000400029
000400039
000400089
000400299
000400309
000400319
000400329
000400339
000400349
000400359
000400369
000400379
Ethylene Glycol Monoacetate
• 005245960 000400069
Hexane
001105430 000400169
000400179
000400189
000400199
000400209
000400219
000400229
000400239
Isobutyl Alcohol
000788310 000400049
Isopropyl Alcohol
000676300 000400049
000400059
000400069
Methanol
000675610 000400029
000400109
Methyl Acetate
000792090 000400039
Methyl Cellosolve
001098640 000400079
Methylene Chloride
000750920 000400139
00040023 9
000400249
F—3
-------�
CROSS-REFERENCE OF CHEMICALS IN MIXTURES
COMPONENT MIXTURE
Methyl Ethyl Ketone
000789330 000400059
000400069
000400089
Methyl Isobutyl Ketone
001081010 000400049
000400059
000400069
000400099
000400119
000400129
Methyl Parathion
002980000 000400389
000400399
Nitrobenzene
000989530 000400329
000400339
000400349
Organophosphate
000300030 000400159
Pentachlorophenol
000878650 000400149
Phenol
001089520 000400139
Polyamide
000300000 000400049
Propylene Glycol
000575560 000400159
Sodium Hydroxide
013107320 000400289
Sodium Pentachiorophenate
001315220 000400289
Tenneco 590-100
000300050 000400389
000400399
F.— 4
-------�
CROSS-REFERENCE OF CHEMICALS IN MIXTURES
COMPONENT MIXTURE
To luene
001088830 000400049
000400089
000400099
• 000400109
000400119
000400249
Water
077321850 000400389
Xylene
001332070 000400089
000400099
000400129
000400299
OO0400309
000400319
F— 5
-------�
SUMMARY OF PERFORMANCE DETAIL FOR..M1XTURE COMPONENTS
MIXTURE: 000400019 REFERENCE: 124
001417860 > 70% by vol Ethyl Acetate
000641750 Ethyl ALcohol
PROD TEMP BREAKTHROUGH PERMEATION RATE THICK
CODE (C) (HOURS) (UG/CM 2/MIN) (CM)
BUTYL
000400019 014 21.00 > 4.00 .07
PV ALCOHOL
000400019 004 21.00 > 4.00
PVC
000400019 003 21.00 .03 1,102.20 . .05
V.1 TON/NEOPRENE
000400019 022 21.00 .13 280.56 . .05
MIXTURE: 000400029 REFERENCE: 124
001417860 70% by vol Ethyl Acetate
000676410 Acetone
000641750 Ethyl Alcohol
000675610 MethanoL
PROD TEMP BREAKTHROUGH PERMEATION RATE THICK
CODE (C) (HOURS) (UG/CM”2/MIN) (CM)
BUTYL
000400029 014 21.00 > 4.00 .07
PV ALCOHOL
000400029 004 21.00 > 4.00
MIXTURE: 000400039 REFERENCE: 124
000792090 50% by voL Methyl Acetate
OO0 4175O 50% by vol Ethyl Alcohol
PROD TEMP BREAKTHROUGH PERMEATION RATE THICK
CODE (C) (HOURS) (UG/CM 2/MIN) (CM)
BUTYL
000400039 014 21.00 > 4.00 .04
NITRILE
000400039 019 21.00 .12 105.21 .03
VITON
000400039 009 21.00 .07 62.29 .03
F—6
-------�
SUMMARY OF PERFORMANCE DETAIL FOR MIXTURE COMPONENTS
MIXTURE: 000400049 REFERENCE: 124
000788310 30 - 70% by vol
000676300 < 30% by vol
001081010 < 30% by vol
001088830 <30% by voL
000300000
MIXTURE: 000400059 REFERENCE: 124
000789330 30 - 70% by vol
001081010 < 30% by vol
OO0676300 < 30% by VOL
:001069900
000750580
Isobutyl ALcohoL
Isopropyt Alcohol
MethyL IsobutyL Ketone
ToLuene
PoLyamide
TEMP BREAKTHROUGH
(C) (HOURS)
21.00 > 4.00
Methyl Ethyl Ketone
MethyL, Isobutyt Ketone
IsopropyL ALcohoL
Butadiene
Acetonitr ite
PROD
CODE
TEMP BREAKTHROUGH
(C) (HOURS)
PERMEATION RATE
(UG/CMA2/MIN)
THICK
(CM)
000400059 014
NITRILE
000400059 019
PVC
000400059 003
MIXTURE’: 000400069 REFERENCE: 124
000789330 30 70% by vol
005245960 30 70% by vol
001081010 < 30% by voL
000676300 < 30% by vol
PROD
CODE
21.00 > 4.00
21.00 .32
2100 .15
260.52
MethyL EthyL Ketone
EthyLene GLycol Monoacetate
MethyL IsobutyL Ketone
IsopropyL ALcohoL
.04
PROD
CODE
PV ALCOHOL
000400049 004
PERMEATION RATE
(UG/CM”2/M I N)
THICK
(CM)
BUTYL
TEMP
BREAKTHROUGH
PERMEATION
RATE
THICK
(C)
(HOURS)
(UG/cMA2/MIN)
(CM)
BUTYL
000400069
014
2100
>
4.00
‘
.07
NATURAL RUBBER
.
000400069
017
21.00
.33
•
24.05
‘
‘.05
•F— 7
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SUMMARY OF PERFORMANCE DETAIL FOR MIXTURE COMPONENTS.
MIXTURE: 000400079
000676410
001098640
000300010
REFERENCE: 124
<30% by voL
30% by voL
Acetone
Methyl Cettosolve
Epoxy Resin
000400079
PV ALCOHOL,
000400079
PVC
PROD
CODE
TEMP BREAKTHROUGH PERMEATION RATE
(C) (HOURS) cuG/C r2/MIN)
21.00 > 4.00
21.00 > 4.00
21.00 .02
THICK
(CM)
.07
MIXTURE: 000400089
001088830
000713630
001238640
000641750
000789330
001332070
REFERENCE: 124
5 - 2O%byvot
5 20%byvol
5 - 2OXbyvoL
5 20%byvot
5 20%byvot
5 20%byvol
Totuene
Butyl ALcohol
Butyt Acetate
Ethyl Alcohol
Methyl. Ethyl Ketone
Xylene
NITRILE
000400089
000400089
PE/EVOH/PE
000400089
PV ALCOHOL
000400089
PROD
CODE
000400089 009
TEMP BREAKTHROUGH•
(C) (HOURS)
21.00 2.65
21.00 .08
PERMEATION RATE
(UG/CM”2/M IN)
6.61
671.34
THICK
(CM)
.04
.04
• 04.
.06
.03
BUTYL
014
004
000400079 003
1,490 .98
.05
BUTYL
000400089 014
21.00
21.00
019
020
109
004
.10
.23
PVC
000400089 003
VITON
21.00 .43
21.00 > 4.00
21.00 .07
916.83
842.68
410.82
855.71
.06
F- 8
-------�
MIXTURE: 000400099
001088830
001081010
001332070
000300010
MIXTURE: 000400 09 REFERENCE: 124
001088830 30 - 70% by vol.
000713630
001238640
001417860
000675610
MIXTURE: 000400119
001088830
001081010
REFERENCE: 124
50% by vol.
50% by vol.
Totuene
MethyL Isobutyl. Ketone
Xyl.ene
Epoxy Resin
TEMP BREAKTHROUGH
(C) (HOURS)
21.00 •> 4.00
Tol.uene
Butyl. ALcohol
Butyt Acetate
Ethyl. Acetate
Methanol.
TEMP BREAKTHROUGH
(C) (HOURS)
Totuene
Methyl. :0 yl. Ketone .
TEMP BREAKTHROUGH
(C) (HOURS)
21.00 > 4.00
PERMEATION RATE
(UG/CM ’2/MIN)
SUMMARY OF PERFORMANCE DETAIL FOR MIXTURE CO P0NENTS
REFERENCE: 124
30 - 70% by vol.
< 30% by vol.
< 30% by vol.
PROD
CODE
PV ALCOHOL
000400099 004
PERMEATION RATE
(UG/CM 2/M IN)
PERMEATION RATE
(UG/CMA2/M IN)
PROD
CODE
PV
ALCOHOL
,
000400109
004
21.00
.43
42.08
VI TON/NEOPRENE
000400109
022
21.00
.27
300.60
THICK
(CM)
THICK
(CM)
.05
THICK
(CM)
PROD
CODE
PV ALCOHOL
000400119 004
F— 9
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SUMMARY OF PERFORMANCE DETAIL FOR MIXTURE COMPONENTS
MIXTURE: 000400129 REFERENCE: 124
001332070 50% by voL XyLene
001081010 50% by voL MethyL Isobutyt Ketone
PROD TEMP BREAKTHROUGH PERMEATION RATE THICK
CODE (C) (HOURS) (UG/CN’2/MIN) (CM)
NITRILE
000400129 019 21.00 .20 2,705.40 .03
VITON
000400129 009 21.00 .33 3,006.00 .03
MIXTURE: 000400139 REFERENCE: 124
000750920 .> 70% by voL MethyLene ChLoride
001089520 PhenoL
PROD TEMP BREAKTHROUGH PERMEATION RATE THICK
CODE (C) (HOURS) (UG/CM 2/MIN) (CM)
NEOPRENE
000400139 018 21.00 .30 1.34 .1.1
PV ALCOHOL
000400139 004 21.00 > 4.00
MIXTURE: 000400149 REFERENCE: 278
000878650 4% by voL PentachLorophenoL
000300020 DieseL OiL
PROD TEMP BREAKTHROUGH PERMEATION RATE THICK
CODE (C) (HOURS) (UG/CM”2IMIN) (CM)
NATURAL RUBBER
000400149 001 23.00 .01 .02 .16
NEOPRENE
000400149 018 23.00 1.00 1.35 .04
NITRILE
000400149 019 23.00 > 8.00 .06
PVC
000400149 003 23.00 .01 .27 .02
F— 10
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SUMMARY OF PERFORMANCE DETAIL FOR MIXTURE COMPONENTS
MIXTURE: 000400169 REFERENCE: 302
• 000676410 95% by voL Acetone
001105430 5% by voL Hexane
PROD TEMP BREAKTHROUGH PERMEATION RATE THICK
CODE (C) (HOURS) (UG/CM”2/MIN) (CM)
VITON/CHLOROBUTYL
000676410 112 25.00 .08 04
001105430 112 25.00 .08 .04
MIXTURE: 000400179 REFERENCE: 3à2 -
000676410 86% by voL Acetone
001105430 • 14% by voL Hexane
PROD TEMP BREAKTHROUGH PERMEATIOM RATE THICK
CODE (C) (HOURS) (UG/CN”2/MIN) (CM)
VI TOP1/CHLOROBUTYL
000676410 112 25.00 .10 .04
O0i1O5430 112 25.00 .10 .18 .04
MIXTURE: 000400189 REFERENCE: 302
000676410 50% by voL Acetone
001105430 50% by voL Hexane •
PROD TEMP • BREAKTHROUGH PERMEATION RATE THICK
CODE (C) (HOURS) (UG/CM”2/MII1) (CM)
VITON/CHL OR OBUTYL
• 000676410 112 25.00 .03 .10 .04
001105430 112 25.00 .03 .10 .04
F—il
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SUMMARY OF PERFORMANCE DETAIL. FORJIIXTURE COMPONENTS
MIXTURE: 000400199 REFERENCE: 302
000676410 35% by voL Acetone
001105430 65% by vol Hexane
PROD - TEMP BREAKTHROUGH PERMEATION RATE THICK
CODE (C) (HOURS) (UG/CM 2/MIN) (CM)
VITON/CHLOROBUTYL
000676410 112 25.00 .10 .04
001105430 112 25.00 .10 .04
MIXTURE: 000400209 REFERENCE: 302
000676410 15% by vol Acetone
001105430 85% by vol Hexane
PROD TEMP BREAKTHROUGH PERMEATION RATE THICK
CODE (C) (HOURS)’ (UG/CM”2/MIN) (CM)
VI TON/CHLOROBUTYL
000676410 112 25.00 .10 .18 .04
001105430 112 25.00 .10 - .18 .04
MIXTURE: 000400219 REFERENCE: 302
000676410 5% by voL Acetone
001105430 95% by voL Hexane
PROD TEMP BREAKTHROUGH PERMEATION RATE THICK
CODE (C) (HOURS) (UG/CM ” 2/MIN) (CM)
VI TON/CHLOROBUTYL
000676410 112 25.00 .08 .04 -
001105430 112 25.00 .08 .O4
F—12
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SUMMARY OF PERFORMANCE DETAIL FOR MIXTURE COMPONENTS
MIXTURE: 000400229 REFERENCE: 302
000676410 1% by voL ‘ Acetone
001105430 99% by voL Hexane
PROD TEMP BREAKTHROUGH PERMEATION RATE THICK
CODE ‘ (C) (HOURS) (UG/CM 2/MIN) (CM)
VI TON/CHLOROBUTYL
000676410 112 25.00 .08 .04
001105430 112 25.00 .08 ‘.04
MIXTURE: 000400239 REFERENCE: 302
001105430 50% by voL Hexane
000750920 50% by voL Methytene ChLoride
PROD TEMP BREAKTHROUGH PERMEATION RATE THICK,
CODE (C) (HOURS) (UG/CM”2/MIN) (CM)
VI TON/CHLOROBUTYL
000750920 112 ‘ 25.00 .70 - .78 .04
.001105430 112 25.00 .95. - 1.03 , .04
MIXTURE: 000400249. REFERENCE: 302
000750920 50% by voL ‘ Hethytene ChLoride
001088830 50% by voL ‘ ToLuene
PROD TEMP BREAKTHROUGH PERMEATION RATE THICK
CODE (C) (HOURS) (UG/CH 2/MIN) (CM)
VI TON/CHLOROBUTYL
000750920 112 25.00 .75 - .92 .04
001088830 112 25.00 .97 - 1.10 .04
F—13
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SUMMARY OF PERFORMANCE DETAIL FOR MIXTURE COMPONENTS
MIXTURE: 000400289 REFERENCE: 278
001315220 4% by voL Sodiun Pentachlorophenate
013107320 Sodiun Hydroxide
PROD TEMP BREAKTHROUGH PERMEATION RATE THICK
CODE (C) (HOURS) (UG/CM 2/MIN) (CM)
NATURAL RUBBER
000400289 001 23.00 .01 .02 .16
NEOPRENE
000400289 018 23.00 > 7.50 .04
NITRILE
000400289 019 23.00 > 15.50 .06
PVC
000400289 003 23.00 > 5.00 .02
000400289 007 23.00 > 15.50 .11
MIXTURE: 000400389 REFERENCE: 104
002980000 10% by wt MethyL Parathion
000300050 6% by wt Tenneco 500-100
000300060 At Lox 3403F
000300070 Attox 3404F
077321850 83% by wt Water
PROD TEMP BREAKTHROUGH PERMEATION RATE THICK
CODE (C) (HOURS) (UG/CPr2/MIN) (CM)
NONWOVEN PE
002980000 071 23.00 < .08 20.04 - 60.12
PE
002980000 076 23.00 .50 - .75 .20
MIXTURE: 000400399 REFERENCE: 104
002980000 57% by wt MethyL Parathion
000300050 36% by wt Tenneco 500-100
000300060 5% by wt At Lox 3403F
000300070 2% by wt At Lox 3404F
PROD TEMP BREAKTHROUGH PERMEATION RATE THICK
CODE (C) (HOURS) (UG/CM”2/MIN) (CM)
PE
002980000 076 23.00 .25 .08
SARANEX
002980000 061 23.00 2.00 - 3.OO .02
F—14
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APPENDIX G
VENDOR CODES FOR USE WITH
DATA SUMMARIES IN APPENDICES
A THROUGH E
G—1
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VENDOR CODES FOUND IN APPENDICES A THROUGH E
VENDOR
CODE VENDOR NAME
100 Edmont Div. Becton, Dthkirison& Co.
101 Granet
102 Ansell Industrial Products
103 Best Manufacturing Company
104 Boss Manufacti.iring Company..
106 Disposables Inc.
107 Durafab Disposab1es, Inc.
108 Keystone ProtectIon Corp.
110 Clover Latex, Inc.
112 Greene Rubber Co., Inc.
113 ILC Dover
114 International Playtex, Inc.
115 Major Safety Service, Inc.
116 Melco, Inc.
117 Mine Safety ApplIances Co.
118 North Hand Protection
119 OKI Supply Co.
120 Pioneer Industrial Products Co.
121 Plastex Protective Products, Inc.
122 PPC Industries, Inc.
123 Protexall Company
124 Safety First Industries
125 SGL Homalite Industries
126 Wheeler Protective Apparel, mO.
127 E.I. du Pont de Nemours & Co., Inc.
128 Jordan. David Safety Products
129 KID AB
140 Allied Glove & Safety Products Corp.
141 The Sager Corporation
142 American Scientific Products
144 Arbill Inc.
145 Body-Guard
146 Cesco Safety Products
147 Charkate
150 Dayton Flexible Products
151 Defense Apparel
153 Direct Safety Company
155 Eastco Industrial Safety Corp.
156 Encon Manufacturing Co.
157 Fairway Products
158 General Scientific Safety Equipment Company
159 Froimnelt Industries, Inc.
160 Goodyear Rubber Products Corp.
162 Holcomb Safety Garment Co.
164 Industrial Products Co., Inc.
165 Industrial Safety and Security Co.
166 Interex Corp.
168 Jomac Products Inc.
169 Kappler Disposables, Inc.
170 Kimberly-Clark Corp.
172 Lehigh Safety Shoe Co.
G- 2
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VENDOR CODES FOUND IN APPENDICES A THROUGH E
VENDOR
CODE VENDOR NAME
173 Magid Glove and Safety Mfg. Co.
174 Neese Industries Inc.
175 Pendergast Safety Equipment Co.
176 Plastimayd Corp.
177 Pulmosan Safety Equipment Corp.
178 Rainfair, Inc.
179 Ranger
180 Record Industrial Co.
181 Renco Corp
185 W.H. Salisbury & Co.
187 Singer Safety Co.
188 Standard Clove & Safety Equip. Corp.
189 Standard Safety Equipment Cc.
191 LRC Safety Products Co.
192 H. Texier Clove Company Inc.
l9 3 Tingley Rubber Corp.
194 The Tracies Co.
196 United States Safety Service Co.
197 Angelica Uniform Croup
198 Vidaro Corp.
201 Falcon Industries, Inc.
202 Oak Medical Supply Co.
203 Colonial Glove & Garment Inc.
204 Monte Clove Company
205 Arrowhead Products
206 Hub Safety Equipment, Inc.
207 Miller Products Co., Inc.
208 Robar Protective Products
209 Fisher Scientific Company
210 Comasec
211 Barry Manufacturing Co. Ltd.
212 Rich Industries
214 Clean Room Products, Inc.
215 Vinylprodukter
216 Erista
220 National Draeger, Inc.
223 Bel-Art Products
225 Coyrie Safety Equipment, Inc.
227 Haiprin Supply Co.
229 Inco Safety Products Co.
231 Keller Clove Mfg. Co.
232 Latex Clove Co., Inc
233 Leonard Safety Epuipmertt, Inc.
234 Lion Uniform, Inc.
235 Mar-Mac Manufacturing Co., Inc.
236 National Safety Wear, Inc.
238 Rockford Medical & Safety Co.
239 Safety Engineering & Supply Co.
242 3M Company
244 Intermarket Latex, Inc.
245 Protech Safety Equipment Inc.
G-3
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VENDOR CODES FOUND IN APPENDICES A THROUGH E
VENDOR
CODE VENDOR NAME
246 Broner Glove Co.
247 Trelleborg, Inc.
248 Masterinan’s
249 Goodall Rubber Company
500 Oak Technical, Inc.
501 Bard Parker
502 Seiberling
503 Surety-Sure Seal
504 California Safety
505 Handgards Inc.
506 Ackwell
507 Converse Inc.
508 Pharmasea]. Laboratories Inc.
509 Nolato
510 Chemical Fabrics Corporation
511 Dow Chemical Company
512 Lab Safety Supply’ Company
513 Andover Industries, Inc.
514 Acme Mills Company
515 E.D. Bullard Company
516 Cofish International, Inc.
517 Dorsey Safety Products Co.
518 Elliott Glove Company, Inc.
519 Exxon Chemical Company
520 ,Fyrepel Products Inc.
521. Ny-Test Safety Shoes
522 Iron Age. Protective Company
523 La Crosse Footwear, Inc.
524 Paneigraphic Corporation
,525 Shelby-Wolverine Clove Company
526 Steele & Associates, Inc.
527 Steel Grip Safety Apparel Co., Inc.
529 United States’ Plastic Corp.
531 Superior Surgical Mfg. Co., ‘Inc.
‘532 Willson Safety Products
534 Daffin Disposables, Inc.
535 Aramsco
536 Alliance Supply, Inc.
537 Holland Safety Supply Co.
538 Memphis Clove Company
539 Jones Safety Supply, Inc.
540 Ronco Textile Products, Inc.
541 Safeco Inc.
542 Armin Corporation
543 IPESCo., Inc.
544 Marathon Rubber
545 Stauffer Manufacturing Company
547 Sawyer-Tower
548 E.I. du Pont de Nemours & Company
G-4
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APPENDIX. H
RATIONALE FOR RECOMMENDATIONS
IN MATRIX A
H-i
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1. Overview
CPC chemical resistance information was formed into two data bases:
• Test data including breaktlirough times, permeation rates,
percent swell, percent elongation, percent weight change and
calculated diffusion coefficients from the technical literature
and CF C vendors.
• Qualitative ratings (e.g., “excellent,” “good,” etc.) from CPC
vendors, raw materials suppliers and a variety of publications.
There was a separate field for each test and each qualitative rating for
each chemical/material pair. The total number of fields was about
10,000.
Algorithms were developed to analyze the information in each data base
separately. The results of the analyses were then combined by means of
another algorithm to produce the recommendations in Matrix A. The
algorithms for each analysis are summarized in the following paragraphs.
2. Test Data
Five types of data were considered: breakthrough time, % swell (volume),
% change in elongation, % change in weight due to immersion, and diffu-
sion coefficient. The data were scanned and classified as follows:
Breakthrough Time Good >1 hour
Fair 0.2-1 hour
Poor <0.2 hour
% Swell (Volume) Good <10%
Poor >10%
% Elongation Change Good <20%
Poor >20%
% Weight Change Good <10%
Poor >10%
- -10 2
Diffusion Coefficient Good <1010 cm 2 /sec
Poor >10 cm /sec
Tensile Strength Good <10%
Poor >10%
On a resistant material by resistant material basis for each chemical,
the number of individual products in each classification was totaled.
(See Appendix E of Volume I fora listing of the resistant materials.)
H- 2
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The totals in each classificationwere compared and the resistant material
put. into one of the following four groups:
I. Significant number ‘of test data indicating excellent
resistance to the particular chemical.
II. Relatively few test data showing excellent resistant, or many
data indicating- good resistance.
III. Many data indicating fair resistance, or a few data indicating
poor resistance.
IV. Significant number of test data indicating poor resistance.
The criteria for Group I were at least two tests with breakthrough times
greater than 1 hour; no breakthrough times less than 1 hour and no data
indicating “poor” resistance in either swelling, weight change, elonga-
tion, or diffusion coefficient.
The criterion for Group II was one or more “good” and no “fair’! or “poor”
in any of the five tests. Alternatively, the material would be put, in
Group II if there were two breakthrough times greater than 1 hour (with
none less than 1 hour)’and two or less “poor” in the other four tests.
The’cr’iterion for Group III was one or more “fair” or “poor” test results.
The criteria for Group IV were one or more breakthrough times less than
0.2 hour’ or two breakthrough times less than 1 hour.
3. Qualitative Information
As described in Volume I, Chapter 7, Part 4, qualitative information was
normalized to a four grade scale: A, B, C, D. “A” represented excellent
resistance and “D” represented poor resistance. Similar to the test data
base, the qualitative information was analyzed on a resistant material by
resistant material basis for each chemical. The number of ratings in
each grade were tabul&ted and compared in order to assign each chemi-
cal/material pair to one of four groups with descriptions analogous to
these given above for the test data. In this case, however, qualitative
rather than quantitative information is of concern.
The criteria for Group II were less than three A or B ratings and no
C or D ratings. Alternatively, Group II conditions would be met by a
total of three or more A or B or C ratings, the number of A plus B,
ratings greater than the number of C ratings, and no D ratings.
The criteria for Group III were less than a total of three C or D ratings
or, alternatively, a total of three or more B, C or D ratings with the
number of C plus D ratings greater than the number of B ratings.
-------�
The criterion for Group IV was a total of three or more C and D ratings.
4. Matrix A Recoimuendations
The results of the activities described in the two preceding sections
were combined to yield the overall recommendations listed in Matrix A of
Volume I. The rationale for the combination is described in Volume 1,
Chapter 7, Part B.
H 4 GOVERNMENT PRINTING OFFICE: 1987—716-002/60724
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