-------
APPENDIX 2
Standard Industrial Classification (SIC)
Groups 28 and 2911
This appendix contains a list of the types of estab-
lishments which comprise SIC Groups 28 and 2911, and the
types of products which are manufactured at these estab-
lishments. If thirty (30) percent or more (by net weight)
of all products distributed for a commercial purpose from
a manufacturing site are of the types described in this
appendix, reporting is required for all reportable chemical
substances manufactured at that site. If thirty (30) per-
cent or more (by net weight) of all products imported by a
person for a commercial purpose are of the types described
in this appendix, reporting is required for all reportable
chemical substances imported in bulk form.
Major Group 28.—CHEMICALS AND ALLIED PRODUCTS
The Major Oroup at a Whole
This major group includes establishments producing basic chemicals, and establishments manu-
facturing products by predominantly chemical processes. Establishments classified in this major
group manufacture three general classes of products: (I) basic chemicals such as acids, alkalies, salts,
and organic chemicals; (2) chemical products to be used in further manufacture such as synthetic
libera, plastics materials, dry colors, and pigments; (3) finished chemical products to be used for
ultimate consumption such as drugs, cosmetics, and soaps; or to be used as material: or supplies in
other Industries such as paints, fertilizers, and explosives. The mining of natural rock sail is classified
in mining industries. Establishments primarily engaged in manufacturing nonferrous metals and high
percentage ferroalloys are classified in Major Group S3; silicon carbide in Major Group 32; baking
powder, other leavening compounds, and starches in Major Group 20; and artists' colors in Major
Group 39. Establishments primarily engaged in packaging, repackaging, and bottling of purchased
chemical products, but aot engaged in manufacturing chemicals and allied products, are classified
la trade industries.
Orovp tBdostrjr
This group includes establishments primarily engaged in manufacturing basic in*
dustrial inorganic chemicals. Establishments primarily engaged in manufacturing
formulated agricultural pesticides are classified in Industry 2879; medicinal chemicals,
drugs and medicines in Industry 2833; and soap and cosmetics in Group 284.
2812 Alkalies and Chlorine
Establishments primarily engaged in manufacturing alkalies and chlorine.
STANDARD INDUSTRIAL CLASSIFICATION
He. Me.
an
INDUSTRIAL INORGANIC CHEMICALS
Alkalies
Carbonates. potasslam tad todlna
Caustic potash
Caoitlc aoda
Chlorine, compressed or UtuM
Chlorine, compressed
Potassium carbonate
Potiulata hydroxide
Sal aoda
Soda ash
Sodium bicarbonate.
Sodium carbonate (aoda ash)
Mian hydroxide (noitk soda)
Standard Industrial Classification Manual
1972, Washington, D.C., Office of Management
& Budget, Superintendent of Documents,
U.S. Government Printing Office, 1972.
71
-------
Group Induatry
HI* ° INDUSTRIAL INORGANIC CHEMICALS—Continued
BIS Industrial Ga
Establishments prim wily engaged In manufacturing gases for sale in compressed,
liquid, and solid forms. Establishments primarily engaged in manufacturing fluorine
and sulfur dioxide are classified in Industry 2819; household ammonia in Industry
2842, and other-ammonia in Industry 2873; and chlorine in Industry 2812. Distributors
of Industrial gases and establishments primarily engaged in shipping liquid, oxygen are
classified In trade.
Accent „
Arson Hydrogea
Carbon dioxide
Dry lc« (iolld carbon dioxide) Nitrogen .
Qaaea. lnduttrl&l: compretied, llque- Nltrou* oxide
or solid—»/p* Oxygen. comprea*ed and ll«oeB*d
2816 Inorganic Pigmeata
Establishments primarily engaged in manufacturing Inorganic pigments. Important
products of this industry include black pigments (except carbon black, Industry 2895),
white pigments and color pigments. Organic color pigments, except animal black and
bone black, are classified in Industry 2865.
Animal black
Barium sulfate, precipitated (blase
flx<)
Bar/tea pigment*
Black plgmenta, except carbon black
Blanc flx< (barium aalfate, precipi-
tated)
Bone black
Chrome plgmenta: chrome green,
chrome yellow, chrome orange, line
yellow
Color pigment*. Inorganic
Iron blue pigment
Iron colore
Iron oxide, black
Iron oxide, magnetic
Iron oxide, yellow
Lamp black
Lead oxide plcmenta
Lead pigment*
Litharge
Llthopone
Metallic plcmenta. laorgaalc
Mineral cofora and pigmeata
Minium (pigment)
Ocher*
Paint plgmenta. laorgaalc
Pearl etaenc*
Pigment!, Inorganic
Pruiilan bine pigments
Red lead pigment
Satin white pigment
Blenoaa
Titanium plgmenta
Ultramarine pigment
Umber a
Vermilion pigment
Wblte lead plgmenta
Whiting
Zinc oxTde pigment*
™ e pigment*:
¦o'.phlde
Zinc, pigment*: sine yellow and slac
2819 Industrial Inorganic Chemicals, Not Elsewhere Classified
Establishments primarily engaged in manufacturing industrial inorganic chemicals,
not elsewhere classified. Important products of this industry Include inorganic aalta
of sodium (excluding refined sodium chloride), potassium, aluminum, calcium, chro-
mium, magnesium, mercury, nickel, silver, tin; inorganic compounds sueh as alums,
calcium carbide, hydrogen peroxide, sodium silicate, ammonia compounds (except fer-
tilisers), rare earth metal salts and elemental bromine, fluorine, iodine, phosphorus,
and alkali metals (sodium, potassium, lithium, etc.). Establishments primarily engaged
in mining, milling, or otherwise preparing natural potassium, sodium, or boron com-
pounds (other than common salt) are classified in Industry 1474. Establish men ta
primarily engaged in manufacturing household bleaches are classified in Industry
2842; phosphoric acid in Industry 2874; and nitric acid, anhydrous ammonia and otbar
nitrogenous fertiliser materials in Industry 2873.
Activated carbon and charcoal
Alkali metal*
Alumina
Aluminum chloride
Aluminum compound*
Aluminum hydroxide (alumina trlhy-
drate)
Aluminum exlde
Aluminum aulfate
Alum*
Ammonia alum
Ammonium chloride, hydroxide, and
molybdate
Ammonium compound*, except for fer-
<111 xer
Ammonium perchlorate
Ammonium thloeulfate
Barium compound*
Bauxite, reflned
Beryllium oxide
Bleaching powder
Borax (aodlum tetraborate)
Borle arid
Boron compound*, not produced at
mines
BoroslUcate
Brine
Bromine, elemental
Caesium metal _
Calcium carbide, chloride, a ad hype-
chlorite
Calcium compounda, Inorganic
Calcium metal
Calomel
Carbide
Caralyata. chemical
Cerium *alt*
Charcoal, activated
Chlorosulfonlc add
Chromates and bichromates
Chromic add
Chromium compounda, laorgaalc
Chromium wit*
Cobalt chloride
Cobalt AO (radioactive)
Cobalt tulfate
Copper chloride
Copper Iodide and oxide
Copper lulfate
Cyanide*
Deilccantf, activated: silica gel
: >i-hromatc*
rlc chloride
crrocyanlde*
72
-------
Group
NOl
281
Mutfjr
HOl
INDUSTRIAL INORGANIC CHEMICALS—Continued
2819 Industrial Inorganic Chemicals, Not Elsewhere Classified—Continued
Flulonable mater!*! production
Pisorloe, elemental
Fuel propelianta, aolld: Inorganic
Fuela. high energy: Inorganic
Ctauber'i aalt
Heavy water
High purity grade chemicals, Inor-
ganic : refloea from technical grades
Hydrated alumina silicate powder
Hydrochloric add
Hydrocyanic add
Hydrofluoric add
H;dr»;ra peroxide
Hydrogen aulflde
Hydrosulfltes
Hypophosphltea
Indium chloride
Inorganic add!, except nitric or pboa-
pborlc
lodldea
Iodine, elemental
Iodise, reiubllmed
Iron ralpbate
Isotopes, radioactive
I^boritory chemical!, Inorganic
Lead oxides. other than pigments
Lead silicate
Lime bleaching compounds
Lithium compounds
Lithium metal
Luminous compound!, radlam
Magnesium carbonate
Kafxeslum chloride
Magnesium compound!. Inorganic
Manganese dioxide powder, synthetic
Mercury chlorides (calomel, corrosive,
aubllmate), except U.8.P.
Mercury compound!, Inorfanlc
Mercury oxides
Mercury, redistilled
Metala, liquid
Mixed add
Muriate of potaib, not produced at
mines
Nickel ammonium aalfate
Nickel carbonate
Nickel compound!, Inorganic
Nickel aulfate
Nuclear corea, Inoreanlc
Nuclear fuel reactor com. Inorganic
Nuclear fuel acrap reprocessing
Oleum (fuming sulfuric add)
Oxidation catalyat made from por-
celain
Perchloric add
Peroxides, Inoreanlc
Phosphate, except defluorlnited and
fcmmontated
Phosphorus and phosphorus oxyehlo-
rlde
Potaah alum
Potassium aluminum aulfate
Potassium bichromate and ehromate
Potassium bromide
Potassium chlorate
Potaaalum chloride and cyanide
Potaulum compoaoda. Inoreanlc: ex-
cept potassium hydroxide and
carbonate
PotaaituD cyanide
Potassium bypocblorate
Potassium Iodide
Potassium metal
Potassium nitrate and aulfate
Potassium permanganate
Propellents for mlasllea, solid: Inor-
eanlc
Radium chloride'
Radium lumlnou! componnda
Rare earth metal salts
Reagent grade chemicals, Inorganic:
refined from technical gradea
Rubidium metal
Salt cake (sodium sulfate)
Salt! of rare earth metals
Scandium
Silica. amorphous
Silica gel
Stllcofluorldes
Silver bromide, chloride, and nitrate
811ver compound!, Inorganic
Sodi alum
Sodium alomluate
Sodium aluminum aalfate
Sodium antlmoolate
Sodium bichromate and ehromate
Sodium borate!
Sodium borohydrlde
Sodium bromide, lot prodo'^1 at
mlnea
Sodium chlorate
Sodium compound!. Inorganic
Sodium cyanide
6odlum bydrosulfite
Sodium, metallic
Sodium molrbdata
Sodium perborate
Sodium peroxide
Sodium phosphate
Sodium polyplioiphate
Sodium silicate
Sodium siliconuorlde
Sodium itannate
Sodium aulfate—bulk or tableta
Sodium tetraborate, not produced at
mine!
Sodium thlosulfate
Sodium tuncatate
Sodium uranate
Btanolc and atannoua chloride
Strontium carbonate, precipitated, nod
oxide
Strontium nitrate
Bobllmate. corrosive
Sulfate of potash and potash nagae-
sla. not produced at mlnea
Sulfides one! sulfite!
Sulfocyanliles
Sulfur chloride
Sulfur dioxide
Sulfur hexafluorlde gaa
Sulfur, recovered or refined. Including
from sour natural gas
Sulfuric add
Tanning agenta. ayntbetlc Inorganic
Tblocyanntes. Inorganic
Tin chloride
Tin compaunda. Inorganic
Tin oxide
Tin salts
Cranium *lug. radioactive
Water glass
Zlor chloride
Group loduatry
No. No.
282 PLASTICS MATERIALS AND SYNTHETIC RESINS, SYNTHETIC RUBBER, SYN-
THETIC AND OTHER MAN-MADE FIBERS, EXCEPT GLASS
This group includes chemical establishments primarily engaged in manufacturing
plastics materials and synthetic resins, synthetic rubbers, and cellulosic and man-made
organ.'.- fibers. Establishments primarily engaged in the manufacture of rubber products,
and *' primarily engaged in the compounding of purchased resins or the fabrication
of . sheets, rods, aDd miscellaneous plastics products, are classified in Major
Gr . .,d textile mills primarily engaged in throwing, spinning, weaving, or knitting
te*''- c'.s from manufactured fibers are classified in Major Group 22.
73
-------
Group
No.
282
Industry
No.
PLASTICS MATERIALS AND SYNTHETIC RESINS, SYNTHETIC RUBBER, SYN-
THETIC AND OTHER MAN-MADE FIBERS, EXCEPT GLASS-Continued
2821 Plastics Materials, Synthetic Resins, and Nonvulcanizable Elastomers
Establishments primarily engaged in manufacturing synthetic resins, plastics mate-
rials, and nonvulcanizable elastomers. Important products of this industry inclutfe:
cellulose plastic materials; phenolic and other tar acid resins; urea and melamine resins;
vinyl resins; styrene resins; alkyd resins; acrylic resins; polyethylene resins; polypro-
pylene resins; rosin modified resins; coumarone-indene and petroleum polymer resins;
and miscellaneous resins including polyamide resins, silicones, polyisobutylenes, poly-
esters, polycarbonate resins, acetal resins, fluorohydrocarbon resins; and casein plastics.
Establishments primarily engaged in manufacturing fabricated plastics products or
plastics film, sheet, rod, nontextile monofilaments and regenerated cellulose products,
and vulcanized fiber are classified in Industry 3079, whether from purchased resins or
from resins produced in the same plant. Establishments primarily engaged in com-
pounding purchased resins are also classified in Industry 3079. Establishments primarily
manufacturing adhesives are classified in Industry 2S91.
AceUJ mini
Acetate. cellulose (plasties)
Acrylic reslu5
Acrylonitrile-butadlene-styrene resins
Alcohol resins, polyvinyl
Alkyd resins
Allyl resins
Butadiene copolymers, contalnlnc le*s
than 50% butadiene
Carbohydrate plastic*
Casein plasties
Cellulose nitrate resins
Cellulose propionate (plasties)
Coal tar reslna
Condensation plastic*
Coumarone-lnaene realm
Cresol-furfural resins
Cresol resins
Dlcyandlamlne reslna
Dllsocyanate resins
Elastomers, nonvulcanlioble (plastics)
Eplchlorohydrln blsphenol
EplchJorohydrin diphenol
Eposy resins
Ester rum
Ethyl cellulose plastic*
Ethylene-vinyl acetate resins
Fluorohydrocarbon resins
Ion exchange resins
lonomer resins
Isobutylene polymer*
Llmln plastic*
Melamlnr resins
Methyl ocrylate resins
Methyl cellulose plastics
Methji methacrylatc resins
MoMidc compounds, plastics
Nitrocellulose plastics (pyroxylin)
Nylon resins
Petroleum polymer resins
Phenol-furfural resins
Phenolic reslnj
Phenoiy resins
Phthallc alkyd resins
Pbtballc anhydride resins
Holyacri loniirlle resin*
Polyamide renins
Polycarbonate resins
Polyester*
Polyethylene resins
Polybexamethylenedlamlne adlpamide
resins
Polyisobutylenes
Polymerization plastics, eirept fibers
Polypropylene resins
Polystyrene retlns
Polyuretl une resins
Polyvinyl chloride resins
Polyvinyl holl'le resins
Polyvinyl renins
I'rutein plasties
Pyroxylin
Resins, phenolic
Resins, ayntbetlc: coal tar and non-
coal tar
Kosln modified reolns
Silicone fluid solution (fluid tor *oaar
transducers)
Silicone resins
Soybean plastics
Sryrene resins
Styreneacrylonltrlle resins
Tar acid reslnj
Urea resins
Vinyl resins
2822 Synthetic Rubber (Vulcanizable Elastomers)
Establishments primarily eDgaged in manufacturing synthetic rubber by polymeri-
sation or copolymcrization. An elastomer for the purpose of this classification is a
rubber-like material capable of vulcanization, such as copolymers of butadiene and
stj rene, or butadiene and acrylonitrile, polybutadienes, chloroprene rubbers, and
isobut) lenc-isoprene copolymers. Butadiene copolymer? containing less than 50%
but&dient are classified in Industry 2821. Natural chlorinated rubbers and cvclfscd
rubber* are considered as semifinished products and are classified in Industry 3069.
(over
Acrylate type rubber*
Acrylate-butadlene robber*
Acrylic rubber*
Adlprene
BuUdlene-scrylonltrlle copolymer*
(orer 809c butadiene)
Butadiene rubber*
Butadlene-styrene copolymer*
60% butadiene)
Butyl rubber
Chlorinated rubbers, synthetic
Chloroprene tjps rubber*
Cblorosulfonated polyethylene*
Cyclo rubber*, synthetic
EPDSI polymer*
Elastomers, vulcantsable (synthetic
rubber)
Eplchlorobydrln elastomers
Estane
Ethylene-propylene robber*
Fluoro rubber*
Pluorocarbon derlrsttve rubbers
Hypalon
I&obutylent-lsoprene rubbers
Isocranate type rubber
Isoprene rubbers, synthetic
Neoprene
Nltrlle-butadlene rubbers
Xltrlle-cbloroprene rubber*
Nltrlle type rubber
X-trpe rubber
Pol.t butadienes
Polyethylenes, cblorosulfonated
Polyisobutylene-lsoprene elastomer*
Polrijobutylent (synthetic rubber)
Polyaethylenc rubbers
Poly-sulfides
PyrlUne-butadlene copolymer*
Pyr! JIne-butadlene rubber*
Rubber, synthetic
Silicone rubber*
Strpe rubber
Sterne-l;oprene rubbers
Thiol rubber*
Crethane rubbers
Vulcanlied oil*
282J Cellulosic Man-Made Fibers
Establishments primarily engaged in manufacturing cellulosic fibers (including
cellulose acetate and regenerated cellulose such as rayon by the viscose or cuprammonium
process) Iri the form of monofilament, yarn, staple or tow suitable for further manu-
facturing on spindles, looms, knitting machines or other textile processing equipment.
Establishments primarily engaged in manufacturing teitile glass fibers are classified
in Industry 3229.
Acetate fibers
Cellulose acetate mooofllatneDt. yarn
staple, or torn
Cellulose fibers, man-made
Cigarette tow, cellulosic fiber
CupramiDontum fiber*
Fiber*, cellulose man-made
Fiber*. ruyon
Horsehair, artificial: rayon
Nitrocellulose flben
Rayon primary products: fibers, atrav,
*:rlp*. arsd yarn
l';iy*D yarn, made in chemical planti
»]
-------
Group
No.
282
loduttrr
K*
PLASTICS MATERIALS AND SYNTHETIC RESINS, SYNTHETIC RUBBER, SYN-
THETIC AND OTHER KAN-MADE FIBERS. EXCEPT GLASS—Continued
2824 Synthetic Organic Fibers, Except Cellulosic
Establishments primarily engaged in manufacturing synthetic organic fibers, except
cellulosic (including those of regenerated proteins, and of polymers or copolymer! of
such components as vinyl chloride, vinylidene chloride, linear esters, vinyl alcohols,
acrylonitrile, ethylenes, amides, and related polymeric materials) in the form of mono-
filament, yarn, staple or tow suitable for further manufacturing on spindles, looms,
knitting machines or other textile processing equipment. Establishments primarily
engaged in manufacturing textile glass fibers are classified in Industry 3229.
Acrjllc flbera
Acrylonllrlle fiber*
Anldex libera
Casein flbera
Eiastomeric flbera
Fibers, mu-aiii: except celluloale
Fluorocarbon flber*
Horsehair, artificial: Bjlo*
Linear ester* flbera
ModacryUc flbera
Nylon flbera and bristle*
Olefin flbera
Organic flbera, ajnthetle: except
celluloale
Polyester fiber*
Polyvinyl ester flbera
Polyvlnylldene cblorld* fiber*
Protein flber*
8aran fiber*
Soybean fibers (man-made textile
materials)
Vlnal fibers
Vinylidene chloride flbera
Tarn, orcanlc man-mad* fiber
cellulosic
Zeis flber*
282 DRUGS
This group includes establishments primarily engaged in manufacturing, fabricating,
or processing medicinal chemicals and pharmaceutical products. Also included in this
group are establishments primal ily engaged in the grading, grinding, and milling of
botanicals.
2831 Biological Products
Establishments primarily engaged in the production of bacterial and virus vaccine,
toxoids and analogous products (such as allergenic extracts), serums, plasmas, and other
blood derivatives for human or veterinary use.
Afar culture media
Acgresslns
Allergenic extract*
Allergens
Antigen*
Anti-hoc-cholera serums
Antiserum*
Antitoxin*
Antlreoom
Bacterial vaccines
Bacterlns
Bacteriological media
Biological nn
-------
Groop Industry
No. Mo.
283
DRUGS—Continued
2834 Pharmaceutical Preparation!
Establishments primarily engaged in manufacturing, fabricating, or processing drugs
in pharmaceutical preparations for human or veterinary use. The greater part of the
products of these establishments are finished in the form intended for final consumption,
such as ampuls, tablets, capsules, vials, ointments, medicinal powders, solutions, and
suspensions. Products of this industry consist of two important lines, namely: (I)
pharmaceutical preparations promoted primarily to the dental, medical, or veterinary
professions; and (2) pharmaceutical preparation* promoted primarily to the public.
m
Adrenal pbarmacentfcal preparations
Analgesic*
Anesthetics, packaged
Antacids
Anthelmintics
Antibiotic*, packaged
Antihistamine preparations
Antipyretics
Antiseptics, medicinal
Aatringenta, medicinal
Barbituric add pharmaceutical prepa-
rations
Belladonna pharmaceutical prepara-
tions
BotLnlcal extracts: powdered, ptlnlar,
solid, and fluid
Cbapstlcks
Cblorlnntlon tablets and kits (water
purification)
Cold remedies
Couch medicines
Cyclopropane for anesthetic use (U.8.P.
par X.F.). packaged
Dextrose and sodium chloride Injection,
mired
Dextrose Injection
Dlfltalls pharmaceutical preparations
Diuretics
DruieIiu' prepcr»t1oni (pharaiceotl-
cala)
Effervescent salts
EmulslBers, fluorescent Inspection
Emu.sloos. pharmaceutical
Ktber for anesthetic na«
Fever remedies
Oalenlcal preparations
Hormone preparations
Insulin preparations
Intravenous solutions
Iodine, tlnctar* *f
Laxative*
Liniments
Loienres. pharmaceutical
Medicine*. capsuled or am pa ltd
Nltrofnran preparations
Nitrons oxlae lor anesthetic aw
Ointments
Psrentrral solutions
Penicillin preparations
Pharmaceuticals
Pills, pharmaceutical
Pituitary gland pharmaceutical
rations
Poultry and animal remedies
Powders, pharmaceutical
Procaine pharmaceutical preparations
I'roprletnrv drug products
Remedies. human and animal
Sirup;, pharmaceutical
Sodium chloride solution (or laJscBn,
I'-S.P.
Sodium salicylate tablet*
Solutions, pharmaceutical
Spirits. pharmaceutical
Suppositories
Tab'ets. pharmaceutical
Thyroid preparations
Tincture*. pharmaceutical
Tranquilizer* and Dental drug prepa-
ration!
Vermifuges
Veterinary pharmaceutical prepare-
tlom
Vitamin preparations
Water decontamination or purification
tablet.*
Water, sterile: (or Injections
Zinc ointment
SOAP. DETERGENTS. AND CLEANING PREPARATIONS. PERFUMES, COS-
METICS, AND OTHER TOILET PREPARATIONS
This group includes establishments primarily engaged in manufacturing soap and
other detergents and in producing glycerin from vegetable and animal fats and oils;
specialty cleaning, polishing, and sanitation preparations; and surface active prepara-
tions used as emulsifiers, wetting agents, and finishing agents, including sulfonated oils;
and perfumes, cosmetics, and other toilet preparations.
2841 Soap and Other Detergents, Except Specialty Cleaners
Establishments primarily engaged in manufacturing sc-ap, synthetic crganlc deter-
gents, inorganic alkaline detergents, or any combination thereof, and establishments
producing crude and refined glycerin from vegetable and animal fat! and oils. Estab-
lishments primarily engaged in manufacturing shampoos or shaving products, whether
from soap or synthetic detergents, are classified in Industry 2844; and synthetic glycerin
in Industry 2860.
Detergents, synthetic organic and la-
organic alkaline
Dye removing cream, soap basa
Foots soap
Olvcerln, erode and refined: from
rats—except synthetic
Mechanics' paste
Scouring compounds
Soap: granulated, Bgild, cake. takad.
and chip
Textile soap
Washing compounds
2842 Specialty Cleaning, Polishing, and Sanitation Preparations
Establishments primarily engaged in manufacturing furniture, metal, and other
polishes; waxes and dressings for fabricated leather and other materials; household,
institutional and industrial plant disinfectants, deodorants; dry cleaning preparations;
household bleaches; and other sanitation preparations. Establishments primarily
manufacturing household pcstibidal preparations are classified in Industry 2879.
Ammonia, household
Aqua ammonia, household
Beeswax, processing of
Belt dresslag
Blncklnga
Blesches, household : liquid or dry
Burnishing Ink ,
Chlorine bleaching compounds, house-
hold : liquid or dry
Clcsnlng and polishing preparations
Cloths, dusting snd polishing: chemi-
cally treated
Decreasing solvent
Deodorants, non personal
Dlslnfectanta, household and Indu;
trial plant
Drain pipe solvents and cleaner*
Dressing* for fabricated leather ani
other materials
Dry cleaning preparations
Dust mats, gelatin
Dusting cloths, chemically treated
Dye removing cream, petroleum base
Floor wax emulsion
Floor waxes
Furniture polish and wax
Harneas dressing _ ,
7 D
Household bleaches, dry or liquid
Industrial plant disinfectants and 4i*-
doranta
Ink, burnishing
Ink eradlcators
Leather dressings and Bnlshee
Lye, household
Paint and wallpaper cleaners
Polishes: furniture, automobile, Metal,
shoe, and stovt
Polishing and cleaning preparation*
Ke-reRnlng dry-cleaning fluid
Kuf, upholstery, and urx cleaning de-
tergents and spotter*
Rust remover*
Saddle soap
Sanltatlou preparation*
Shoe cleaner* und polish**
Soillum hypochlorite
Stain removen
Starches, plastic
Sweeping compounds, oD and water
absorbent, clay or sawdust
Wallpaper cleanera
Wax remover*
Waxes for wood, fabricated taatttr,
and other aaterlala
-------
Oroap laduttrr
Xk No.
»4 SOAP, DETERGENTS, AND CLEANING PREPARATIONS, PERFUMES, COS-
METICS, AND OTHER TOILET PREPARATIONS—Continued
284} Surface Active Agents, Finishing Agents, Sulfonated Oils and Assistants
Establishments primarily engaged In producing surface active preparations for use as
wetting agents, emulsifiers, and penetrants. Establishments engaged in producing
sulfonated oils and fats and related products are also included.
Assistants, text ll« and leathsr
processing
Calcium salts of sulfonated oils, fat*, or
frtun
Cod oil. sulfonated
EmulslSert. except food and
pharmaceutical
Finishing agents, textile and leatbtr
Leather finishing agent*
Mordant*
Oil, turker red
Oils, soluble (textile assistants)
2844 Perfumes, Cosmetics, and Other Toilet Preparations
Penetrant*
Sodium salts of aulfooated olla, fata. *r
creates
Softeners (textile assistant*)
Soluble olli and creases
Sulfonated olli, fats and crease*
Surface active agent*
Textile processlug assistants
Textile scoorlng compounds aad wet-
ting agent*
Thin water (adinlxtar*)
1851
Establishments primarily engaged in manufacturing perfumes (natural and syn-
thetic), cosmetics, and other toilet preparations. This industry also includes establish-
ments primarily engaged in blending and compounding perfume bases; and those
manufacturing shampoos and shaving products, whether from soap or synthetic deter-
gents. Establishments primarily engaged in manufacturing synthetic perfume and
flavoring materials are classified in Industry *2869, and essential oils in Industry 2809.
Bath aalta
Bar rum
Body powder
Colognea
Concentrate!, perfume
Coimetlc creams
Cotmetlc lotloni and oil*
Coimetlc*
Copra no!
Dentifrice*
Denture cleaner*
Deodorant!, personal
DepUttorlei (coimetlc)
Dressing*, coimetlc
Face creuns and lotion*
Face powder*
Home permanent Uts
Lipstick!
Manicure preparations
Mouth washes
Perfume hues, blending aad
compounding
Perfumes, natural and synthetic
Powder: baby, fact, talcum, aad toilet
Rouge, cosmetic
Sachet
Shampoos
Sharing preparation!: cakes, cream*.
lotions, powder*, tablet*, etc.
Talcum powder*
Toilet creams, powders, and water*
Toilet preparation*
Tooth paste* and powder*
Washes, coimetlc
PAINTS, VARNISHES, LACQUERS, ENAMELS, AND ALLIED PRODUCTS
Paints, Varnishes, Lacquers, Enamels, and Allied Products
Establishments primarily engaged in manufacturing paints (in paste and ready mixed
form); varnishes; lacquers; enamels and shellac; putties, wood filler; and scalers;
paint and varnish removcts; paint brush cleaners and allied paint products. Establish-
ments primarily engaged in manufacturing carbon black are classified in Industry 2895;
bone black, lamp black, and inorganic color pigments in Industry 2816; organic color
pigments in Industry 2865; plastics materials in Industry 2821; printing ink in Industry
2893; calking compounds and sealants in Industry 2891; and artists' paints In Industry
3«52rv
Calcimine*, dry and paste
Cleaners, paint brush
Coating, air curing
Colon In oil, except artist*'
Coating
Colors!
Dispersions, thermoplastic aad col-
loidal : p»5nt
Dopes (paint)
Driers, oalat
dental and china
Enamel*, except
painting
Epoxr coatings, made from purchased
rcala
miers. wood: dry. liquid, and paat*
Intaglio Ink vehicle
Japans, baking and drying
Kalaomlnes. dry or iiaste
Lacquer hoses and dopes
Lacquer, clear and pigmented
Lacquer thinner
Lacouers, plastic
Leaa-ln-oll paint*
Llooleates (paint drier*)
Lithographic Tarnishes
M.irlne paint*
Naphthnoatc driers
Oleate driers
Taint brush cleaner*
Paint drier*
Paint remover*
Paints, asphalt and bituminous
77
-------
Group Industry
No No.
285
286
Soyate driers
BcaJos : varnUh, oil, and wax
Tallate driers
Underrating*. paint
Tarnish rfmover*
Varnishes
, Vinyl roiting*. strippable
Vinyl plastiaol
Water paints
Wood filler? and mltri
Wood stains
Zinc oxide la oil (palDtt
PAINTS. VARNISHES, LACQUERS, ENAMELS. AND ALLIED PRODUCTS—Cos.
2851 Paints, Varnishes, Lacquers, Enamels, and Allied Products—Continued
Palnta: oil and alk;d vehicle, and
water tblnned
Paints, plastic- texture : paste and dry
Paints. waterproof
Pbenol formaldehyde coating*. baking
and sir curing
Plastics base paints and varnlshe*
Plastlsol coating compound
Polyurethane coating*
Primers, paint
Putty
Reslnate drier*
Shellac (protective cottlif)
INDUSTRIAL ORGANIC CHEMICALS
Establishments primarily engaged in manufacturing industrial organic chemical*.
Important products of this group include: (1) non-cyclic organic chemicals such aa
acetic, chloroacetic, adipic, formic, oxalic and tartaric acids and their metallic salta;
chloral, formaldehyde and methylamine; (2) solvents such as amyl, butyl, and ethyl
alcohols; methanol; amyl, butyl and ethyl acetates; ethel ether, ethylene glycol ether
and diethylene glycol ether; acetone, carbon disulfide and chlorinated solvents such as
carbon tetrachloride, perchloroethylene and trichloroethylene; (3) polyhydric alcohol*
such as ethylene glycol, sorbitol, pentaerythritol, synthetic glycerin; (4) synthetic
perfume and flavoring materials such as coumarin, methyl salicylate, saccharin, citral,
citronell&l, synthetic geraniol, ionone, terpineol, and synthetic vanillin; (5) rubber
processing chemicals such as accelerators and antioxidants, both cyclic and acyclic;
(6) plasticizers, both cyclic and acyclic, such as esters of phosphoric acid, phthalic
anhydride, adipic acid, lauric acid, oleic acid, sebacic acid, and stearic acid; (7) synthetic
tanning agents such as naphthalene sulfonic acid condensates; (8) chemical warfare
gases; (9) esters, amines, etc. of polyhj'dric alcohols and fatty and other acids;
(10) cyclic crudes and intermediates; (11) cyclic dyes and organic pigments; and (12)
natural gum and wood chemicals. Establishments primarily engaged in manufacturing
plastics materials and nonvulcanizable elastomers are classified in Industry 3821;
synthetic rubber in Industry 2822; essential oils in Industry 2899; rayon and other
synthetic fibers in Industries 2823 and 2824; specialty cleaning, polishing and sanitation
preparations in Industry 2842; paints in Industry 2851; and inorganic pigments in
Industry 2816. Distilleries engaged in the manufacture of grain alcohol for beverage
purposes are classified in Industry 2085.
2861 Gum and Wood Chemicals
Establishments primarily engaged in manufacturing hardwood and softwood dis-
tillation products, wood and gum naval stores, charcoal, natural dyestuffs, and natural
tanning materials. Establishments primarily engaged in manufacturing "synthetic
tanning materials and synthetic organic chemicals are classified in Industry 2869, and
synthetic organic dyes in Industry 2865.
Acetate of lime, natural'
Acetone, natural
Annato extract
Brazilwood extract
Brewer*' pitch, product of softwood
distillation
Calcium acetate, product of hardwood
distillation
Charcoal, except activated
Chestnut extract
Dragon's blood
Dyeing material*, natural
Dyeotulfs, natural
Bthyl acetate, natural
Extracts, dyelns and tanning: natural
Fustic wood ex tract
Gambler extract
Gum naval store*, proceeslng bat aet
gathering or warehousing
Hardwood distillate*
Hemlock extract
Logwood extract
Mangrove extract
Methanol, natural (wood alcohol)
Methyl oi-eton*
Methyl alcohol, natural (wood alcohol)
Myrohalans extract
Naval stores, gum : processing bat not
gathering or warehousing
Naval stores, wood
78
-------
Group
Ko.
286
Industry
No.
INDUSTRIAL ORGANIC CHEMICALS-Continued
2861 Gum and Wood Chemicals—Continued
Oak extract
Oil, pine: produced by distillation ot
pine gum or pine wood
Oils, wood: product of bardwood
distillation
Pine oil, produced by distillation of
pine sum or pine wood
Pit charcoal
Plteh. wood
Pyrollgneous acid
Quebracho extract
Quercitron extract
Rosin, produced by distillation of pine
gum or pine wood
Softwood distillate!
Sumac extract
Tall oil, except skimming*
Tannine extract* and material*,
natural
Tar and tar oils, product* of wood
distillation
Turpentine, produced »y distillation of
pine gum or pine wood
Valonia extract
Wattle extract
Wood alcohol, natural
Wood creosote
Wood distillate*
2865 Cyclic (Coal Tar) Crudes, and Cyclic Intermediates, Dyes, and Organic Pigments
(Lakes and Tonera)
Establishments primarily engaged in manufacturing coal tar crudes and cyclic organic
intermediates, dyes, color lakes and toners. Important products of this industry include:
(1) derivatives of benzene, toluene, naphthalene, anthracene, pyridine, carbazole,~and
other cyclic chemical products; (2) synthetic organic dyes; (3) synthetic organic pig-
xnents; and (4) cyclic (coal tar) crudes, such as light oils and light oil products; coal tar
acids; and products of medium and heavy oil such as creosote oQ, naphthalene, anthra-
cene, and their higher homologues, and tar. Establishments primarily engaged in manu-
facturing coal tar crudes in chemical recovery ovens are classified in Industry 3312, and
petroleum refineries which produce such products in Industry 2911.
Add dyes, synthetic
Adda, coal tar: derived from coal tar
dlstlllxtlon
Alkylated dlpbenylamlnea, mixed
Alkylated phenol, mixed
Amlnoanthraquinoa*
Amlnoazobenzene
Aminoazotoluene
Amlnophenol
Aniline
Aniline oil
Anthracene .
Anthraqnlnono dye*
Azlne dye*
Azo dye*
Asobenzene
Aeolc dyes
Benzaldehyde
Ben zene hexAchlorlde (BHC)
Benzene, product of coal tar distillation
Benzoic add
Benzol, product of coal tor distillation
Biological stains
Chemical Indicators
Chlorobenzcne
Cblorooophthalene
Cbloropbenol
Chlorotoluene
Coal tar crudes, derived from coal tor
distillation
Coal tar distillates
Coal tar intermediate*
Color lakes and toners
Color pigments, organic : except animal
black and bone black
Colors, dry; lakes, toner*, or fall
•trengtb organic colors
Colors, extended (color lakes)
Cosmetic dyes, synthetic
Creosote oil, product of coal tar dis-
tillation
Cresola, product of coal tar distillation
Cresyllc acid, product of coal tar dis-
tillation
Cyclic crudes, coal tar: product of coal
. tar distillation
Cyclic Intermediates
Cyclohexane
Dlphenylamlne
Drug dyes, synthetic
Dye (cyclic) intermediate*
Dyes, food: synthetic
Dyes, synthetic organic
EoMne toners
Etbylbenzene
Hydroqulnone
Isocya nates
I*ke red C toners
Leather dyes and stains, synthetic
Ltthol rublne lakes and toners
Malelc anhydride
Methyl violet toner*
Naphtha, solvent: product of coal tar
distillation
Naphthalene chips and flake*
Naphthalene, product of coal tar dis-
tillation
Naphthol, alpha and beta
Nitro dyes
Nltroanlllne
Nitrobenzene
Xltropbenol
Nltroso dyes
Oil. aniline
Oils: light, medium, and heavy—prod-
uct of coal tar distillation
Organic pigments (lakes and toners)
Orthodichlorobenzene
Paint pigments, organic
Peacock blue lake
Pentachlorophenol
Persian orange lake
Phenol
Pbloxlne toners
Phosphomolybdlc acid lakes and toner*
Phosphotungstlc acid lakes and toner*
Pbthallc anhydride
Pbthalocyanlne toners
Pigment scarlet lske
Pitch, product of coal tar distillation
Pulp colors, organic
QulDoIlne dye*
Kesorclnol
Scarlet 2 R lake
79
-------
Group Industry
No. No.
286 INDUSTRIAL ORGANIC CHEMICALS—Continued
2865 Cyclic (Coal Tar) Crudes,..and Cyclic Intermediates, Dyes, and Organic Pigments
(Lakes and Toners)—Continued
Toluldlses
Toluol, product of coal tar distillation
Vatdyej. synthetic
Xylene, product of coal tar distillation
Xylol, product of coal tar distillation
Stafas for leather
BtCbeue dyes
Styrene
8tyrene monomer
Tar, product of coal tar distillation
Toluene, product of coal tar distilla-
tion
2869 Industrial Organic Chemicals, Not Elsewhere Classified
Establishments primarily engaged in manufacturing industrial organic chemicals,
not elsewhere classified. Important products of this industry include: (1) non-cyclic
organic chemicals such as acetic, chloroacetic, adipic, formic, oxalic and tartaric adds
and their metallic salts; chloral, formaldehyde and methylamine; (2) solvents such as
amy], butyl, and ethyl alcohols; methanol; amyl, butyl and ethyl acetates; ethel ether,
ethylene glycol ether and diethylene glycol ether; acetone, carbon disulfide and chlorin-
ated solvents such as carbon tetrachloride, perchloroethylene and trichloroethylene;
(3) polyhydric alcohols such as ethylene glycol, sorbitol, pentaerythritol, synthetic
glycerin; (4) synthetic perfume and. flavoring materials such as coumarin, methyl
salicylate, saocharin, citral, citronellal, synthetic ger&niol, ionone, terptneol, and syn-
thetic vanillin; (5) rubber processing chemicals such as accelerators and antioxidants,
both cyclic and acyclic; (6) plasticizen, both cyclic and acyclie, such as esters of phos-
phoric acid, phthsJic anhydride, adipic acid, laiiric acid, oleic acid, sebacic acid, and
stearic acid; (7) synthetic tanning agents such as naphthalene sulfonic acid condensates;
(8) chemical warfare gases; and (9) esters, amines, etc. of polyhydric alcohols and fatty
and other acids. Establishments primarily engaged in manufacturing plastics materials
and nonvulcanizable elastomers are classified in Industry 2821; synthetic rubber in
Industry 2822; essential oils in Industry 2899; wood distillation products, naval stores,
and natural dyeing and tanning materials in Industry 2861; rayon and other synthetic
fibers in Industries 2823 and 2824; specialty cleaning, polishing and sanitation prepa-
rations in Industry 2842; paints in Industry 2851; urea in Industry 2873; organio
pigments in Industry 2865; and inorganic-pigments in Industry 2816. Distilleries en-
gaged In the manufacture of grain alcohol for beverage purposes are classified in In-
dustry 2085.
Accelerators, robber processing: cyclic
and acyclic
Acetaldehyde
Acetates, except natural acetate of
lime
Acetic add, synthetic
Acetic anhydride
Acetln
Acetone, synthetic
Add" esters, amines, etc.
Acids, organic
Acrolein
Acrylonltrile
Adipic acid
Adipic add esters
Adlponltrlle
Alcohol, aromatic
Alcohol, fatty: powdered
Alcohol, methyl: synthetic (methanol)
Alcohols, industrial: denatured (non-
beverage)
Algtn products
Amyl acetate and alcohol
Antioxidants, rubber processing: cyclic
and acyclic
Bromochloromethune
Butadiene, from alcohol
Butyl acetate, alcohol, and propionate
Butyl ester solution of 2,4-D
Calcium oxalate
Camphor, synthetic
Carbon bisulfide (disulfide)
Carbon tetrachloride
Casing fluids, for curing frnlts, splees,
tobacco, etc.
Cellulose acetate. uoplfistlelsed
Chemical warfare gases
Chloral
Chlorinated solvent*
Chloroacetle acid and metallic salts
Chloroform
Chloropicria
Citral
Citrates
Citric add
Cltronellal
Coumarin
Cream of tartar
Cyclopropane
DDT. technical
Decabydrooaphtholene
Dlcblorodifiuorometbane
Dietbylc.vclobexane (mixed isomers)
Diethylene ctycol ether
Dimethyl dlvlnyl acetylene (dl-lsopro-
pen.vl acetylene)
Dimethylhydrarlne, o asymmetrical
Embalming fluids
80
-------
Group Industry
Vo. Xo.
US INDUSTRIAL ORGANIC CHEMICALS-€ontinorf
2869 Industrial Organic Chemicals, Not Elsewhere Classified—Continued
Enzyme*
Esters of phosphoric, adlplc, lanrle,
olefe, tebacle, nod stearic adds
Esters of pbtb&Jlc anhydride
Ethanol, Industrial
Ether
Ethyl acetate, synthetic
Ethyl alcohol, industrial (aoa-
beverage)
Ethyl butyrate
Ethyl cellulose, unpluHdxtd
Ethyl chloride
Ethyl ether
Ethyl formate
Ethyl nitrite
Ethyl perhydrophenanthrene
Ethylene
Ethylene glycol
Ethylene glycol ether
Ethylene glycol, Inhibited
Ethylene oxide
Fatty add esters, amines, ete.
Ferric ammonium oxalate
Flavors and flavoring materials, era*
the tic
Fluorlnated hydrocarbon gase*
Formaldehyde (formalin)
'Formic add and metallic salt*
Freon
Fuel propellants, solid: organic
Fuels, high energy: organic
Geranlol, synthetic
Glycerin, except from fats (synthetic)
Grain alcohol, industrial (nonberer-
age)
EexamethylesedlamlDe
Hexamethylenetetramlne
High purity grade chemicals, organic:
refined from technical grade*
Hydraulic fluids, synthetic base
Hydrazine
Industrial organic cyclic compounds
Ionone
Isopropyl alcohol
Ketone, methyl ethyl
Ketone, methyl lsobutyl
Laboratory chemicals, organic
Laurie add esters
Lime citrate
Malononltrile, technical grade
Metallic salts of acyclic organic chem-
icals
Metallic stearate
Methanol, synthetic (methyl alcohol)
Methyl chloride
Methyl perhydrofluorine
Methyl salicylate
Methylamlne
Methylene chloride
Monochlorodlfluorom ethane
Monomethylparamlnophenol sulfate
Monosodlum glutamate
Mustard gas
Naphthalene sulfonic acid condensate*
Naphthenlc acid soaps
Normal hexyl dicalln
Nuclear fuels, orgaale
Oleic acid esters
Organic acid ester*
Organic chemicals, acyclic
Oxalates
Oxalic acid anfjnetallic salt*
Pentaerythrltol
Perchloroethylene
Perfume materials, cyathetle
Phosgene
Phthalate*
Plastic! ters, organic; cyclic and acyclic
Polybydrlc alcohol esters, amines, etc.
Polybydrlc alcohols
Potassium bltartrate
Propellants for mtsxlles, solid: orgaale
Propylene
Propylene glycol
Qulnuclidlnol ester of benxylie add
Reagent grade chemicals, organic: re-
fined from technical grade*
Rocket engine fuel, organic
Rubber processing chemicals, orgaale:
accelerator* and antioxidant*
Saccharin
Sebaclc acid
Silicone*
Soaps, naphthenlc add
Sodium acetate
Sodium alginate
Sodium benzoate
Sodium glutamate
Sodium pentachlorophenate
Sodium sulfoxalate formaldehyde
Solvents, organic
Sorbitol
Stearic add salt*
Sulfonated naphthalene
(Tacklfiers, organic
Tannic add
Tanning agents, *ynthetic orgaale
Tartaric acid and metallic salts
Tartrate*
Tear ga*
Terpineol
Tert-butylated bis (p-phenoxypheayl)
ether fluid
Tetrachloroethyleae
Tetraethyl lead
Thloglycollc add, for permanent "rare
lotion*
Trlchloroethylene
Trlchloroethylene stabilized, degrea*-
Tric&oropbenoxyacetic add
Trlchlorotrlfluoroethane tetrochlorodl-
fluoroetbnne Isopropyl alcohol
Trlcresyl phosphate
Trldec.vl alcohol
Trlmetbyltrithiophosplilte (rocket pro-
pellants)
Trlphenyl phosphate
Vanillin, lynthetlc
Tlnyl acetate
AGRICULTURAL CHEMICALS
This group includes establishments primarily engaged in manufacturing nitrogenous
and phosphatic basic fertilizers, mixed fertilizers, pesticides, and other agricultural
chemicals.. Establishments primarily engaged in manufacturing basic chemicals, which
require further processing or formulation before use as agricultural pest control agents,
are classified in Group 281 or 286.
81
-------
Group Industry
No. *«.
287 AGRICULTURAL CHEMICALS—Continued
2873 Nitrogenous Fertilizers
Establishments primarily engaged in manufacturing nitrogenous fertilizer material1
or mixed fertilizers from nitrogenous materials produced in the same establishment. In"
eluded are ammonia fertilizer compounds and anhydrous ammonia, nitric acid, am-
monium nitrate, ammonium sulfate and nitrogen solutions, urea, and natural organic
fertilizers (except compost) and mixtures.
Ammonia liquor
Ammonium citrate and sulfate
Anhydrous ammonia
Aqua ammonia, made in ammonia
plants
'Fertilizers: natural (organic), except
compost
Nitric add
Nitrogen solutions (fertilizer)
Plant foods, mixed : made in plant*
producing nitrogenous fertiliser
Una
2874 Phosphatic Fertilizers
Establishments primarily engaged in manufacturing phosphatic fertilizer materials,
or mixed fertilizers from phosphatic materials produced in the same establishment. In-
eluded are phosphoric acid; normal, enriched, and concentrated superphosphates; am-
monium phosphates; nitro-phosphates; and calcium meta-phosphates.
Ammonium phosphate
Calcium meta-phosphate
Defiuorln&ted phosphate
Diammonium phosphate
Fertilizers, mixed : made in plants pro-
fertilizer ma-
ducing
terlals
phosphatic
Phosphoric add
Plant foods, mixed: made In plants pro-
ducing phosphatic fertilizer
Superphosphates, ammonlited and not
ammoniated
2875
Fertilizers, Mixing Only
Establishments primarily engaged in mixing fertilizers from purchased fertiliser
materials.
Compost
Fertilizers, mixed: made in plants aot
manufacturing fertiliser materials
Potting soil, mixed
2879 Pesticides and Agricultural Chemicals, Not Elsewhere Classified
Establishments primarily engaged in the formulation and preparation of ready-to-us
agricultural and household pest control chemicals, including insecticides, fungicides
and herbicides from technical 'chemicals or concentrates; and the production of con-
centrates which require further processing before use as agricultural pesticides. This
industry also includes establishments primarily engaged in manufacturing or formulating
agricultural chemicals, not elsewhere classified, such as minor or trace elements and
soil conditioners. Establishments primarily engaged in manufacturing basic or technical
agricultural pest control chemicals including insecticides, fungicides, and herbicides such
as lead and calcium arsenates, and copper sulfate are classified in Group 281, and
DDT, BHC, 2,4-D carbamates, etc., in Group 286. Establishments primarily engaged
In manufacturing agricultural lime products are classified in Major Group 32.
Agricultural disinfectants
Agricultural pesticides
Arsenates : calcium, copper, and lead—
formulated
Arsenites, formulated
Bordeaux mixture
Calcium, arsenate and arsenlte, formu-
lated
Cattle dips
Copper arsenate, formulated
DDT (Insecticide), formulated
Defoliants
Elements, minor or trace (agricultural
chemicals)
Exterminating products, for household
and industrial use
Fly spray*
Fungicides
Growth regulants, agricultural
Herbicides
Hormones, plant
Household insecticides
Insect powder, household
Insecticides, agricultural
Lead arsenate, formulated
Lime-sulfur, dry and solution
Lindane, formulated
Moth repellants
Nicotine and salts
Nicotine bearing insecticide*
Paris preen (insecticide)
Pesticides, household
Phytoactln
Plant hormones
Poison: ant, rat, roach, and rodent-
household
Pyrethrln bearing preparations
Pjretbrln concentrate*
Kodenticides
Rotenone bearing preparations
82
-------
Oroop
287
Iadust>7
Kk
2879
289
AGRICULTURAL CHEMICALS-Contianed
Pesticides and Agricultural Chemicals, Not Elsewhere Classified—Continued
Rotcaoce concentrates
Sfctrp dip*, chemical
Sodium anenlte (formaUted)
Soil conditioner!
Anlfnr du»t (lnsectldde)
MISCELLANEOUS CHEMICAL PRODUCTS
Thlocyiostes. organic (formulated)
Ttict elem«n(i (t|ilciltirtl chemi-
cals)
Xantbone (formulated)
2891 Adhesirti and Semi anti
Establishments primarily engaged in manufacturing industrial and household ad-
heaives, glues, calking compounds, sealants, and linoleum, tile, and rubber cements from
vegetable, animal, or synthetic plastics materials, purchased or produced in the same
establishment. Establishments primarily engaged in manufacturing gelatin and
are classified in Industry 2899, and vegetable gelatin or agar-agar in Industry 2833.
AdheilVSS
Adhesive*. plastic
Calking compounds
Cement (cellulose nitrite but)
Cement, linoleum
Cement, mending
Cement, robber
Epoxy adbealvee
Glut, except dental: animal, vegctabis,
flsh, eateln, and synthetic testa
Iron cement, household
Laminating eompoeads
Mudlage
Paste, adhesive
Porcelain cement, household
Rubber cement
Sealing compounds for pip*
and joints
Sealing compounds, synthetic
and plastic
Wax. sealing
threads
2812 Explosives
Establishments primarily engaged in manufacturing explosives. Establishment*
primarily engaged in manufacturing ammunition for small arms are classified in Industry
3482 and fireworks in Industry 2899.
Amatol (explosive)
Asides (explosives)
Blasting powder and blasting cap*
Carbohydrates, nitrated (explosives)
Cordesu detonsnt (explosive)
Cordite (explosive)
Detonating caps for safety fuMS
Detonators (explosive compounds)
Dynamite
Explosive cartridges for eoncnastoa
forming of metal
Explosive compounds
Explosives
fulminate of mercury (explo4ve com-
pound)
Fuse powder
Fuses, safety
Ounpowdsr
High explosives
Lead aside (explosive)
Mercury aside (explosive)
Nitrocellulose powder (explosive)
Xltroglycerln (explosive)
Xltromannltol (explosive)
Xltrostarch (explosive)
Xltrosugars (exploslvee)
Pentollte (explosive)
Permissible explosives
Picric add (explosive)
Powder: pellet, smokeless, and speft-
lng (explosive)
RDX (e "
(explosive)
SQOlbbs, electric
Styphnlc add
Tetirl (explosive)
TNT (trinitrotoluene)
Well shooting torpedoes (exploalv
2893 Printing Ink
Establishments primarily engaged in manufacturing printing ink, gravuie ink, screen
prooess ink, and lithographic ink.
Bronxe Ink
Gold Ink
Qrarure Ink
Iak, duplicating
Ink, printing: bast or ftolshsd
lithographic Ink
Printing Ink
Screen process Iak
2895 Carbon Black
Establishments primarily engaged in manufacturing carbon black (channel and furnace
black).
Carbon black
Cbaaasl black
Foresee Mack
t
83
-------
Group Industry
No. Ho.
189 MISCELLANEOUS CHEMICAL PRODUCTS—Continued
2899 Chemicals isd Chemical Preps rations, Not Elsewhere Classified
Establishments primarily engaged in manufacturing miscellaneous chemical prepara-
tions, not elsewhere classified, such as fatty acids, essential oils, gelatin (except
vegetable), aises, bluing, laundry sours, writing and stamp pad inks; industrial
compounds, such as boiler and heat insulating compounds, metal, oil and water treating
compounds, water-proofing compounds and chemical supplies (or foundries. Establish-
ments primarily engaged in manufacturing vegetable gelatin (agar-agar) are classified
is Industry 2833; and dessert preparations based on gelatin in Industry 3099.
Add, battery
Add resist for etching
Anl*e oil
Antlfreete compounds. except Indus-
trial alcohol
Bay oil
Binders (chemical foundry supplies)
Bluing
Boiler compounds, antlacallnf
Bomb*, flashlight
Cap*, (or tor pistols
Carbon removing solvent
Chemical cotton (proceMod cottoa
llnters)
Chemical supplies for foundries
Cltronella oO
Concrete curing compounds (blends of
pigment*, waxea, and reslos)
Concrete hardening compounds
Core oil and bin dan
Core wath
Core wax
Corrosion prerentlv* lubricant, sym-
tbetlc base: for Jot engines
Defrosting flold
De-icing fluid
Dextrine slsee
Demlter kit*. Ma water
Drilling mud
Dye*, bouaehold
Essential oil*
Kucftl yptu* oil
Exothermic* for metal Industrie*
Fadng* (chemical foundry supplies)
Fatty adds: margtrlc, oleic, and
Metric
Fire extinguisher charger*
Fire retardant chemlcaU
Firework*
Flare* (all kind*)
Fluldlfler (retarder) for concrete
Fluoreicent Inspection oil
Iluxef: bras lug, soldering, galvanising,
and welding
Foam charge mixture*
Food contamination testing and
screening kit*
Foundry supplies
Frit
Fuel tank and engine cleaning eheal-
cal*. automotive and aircraft
Fusees : highway, marine, and railroad
Qelntln capsules. empty
Gelatin: edible, technical, pbota-
grapblc, and pharmaceutical
Olue alxt
Oum rite*
Grapefruit oil
Orouting material (concrete mending
compound)
Gun slushing compound*
Beat InsulaQog compound*
Beat treating salts
Hydrofluoric add compound, for stak-
ing and polishing glass
Igniter gradni, boron potassium aitnfts
Incense
Industrial rites
Ink sod writing fluid*, except prtatlaf
Inspection oil, fluor«*ceat
Insula ting compounds
Jet fuel Igniter*
Laundry sours
lemon oil
Ugbter fluid
Magnetic Inspection ell aad powdw
Uargarlc add
Metal drawing compound lubrlcaata
Metal fretting compounds
Military pyrotechnic*
Napalm
Oil. red (oleic add)
Oil treating compounds
Oleic add (red oU)
Orange oil
Orris oU
OsoHn
Oxldltert, Inorganic
Packer*' salt
Parting compounds (chemical foundry
auppllce)
Patching plaster, household
Penetrant*. Inspection
Peppermint oil
Plastic wood
Plating compounda
Pyrotechnic ammunition : flares, rir-
nals, flashlight bomb*, and rocket*
R nil road torpedoes
Red oil (oleic add)
Rifle bore cleaning compounds
Rosin cite*
Rust resisting compooads
Salt
Signal flares, marine
Site*: animal, vegetable, and synthetic
plastics materials
Sodium chloride, rellatd
Soil testing kits
Spearmint oil
Spirit duplicating laid
Stearic add
Stencil correction compounds
Tint* and dyes, household
Torches (flrevorks)
Torpedoes, railroad
Vegetable oil*, vulcanised or solfurlsad
Water, distilled
Water treating compounds
Waterproofing compooads
Wax. core
Wlntergreen oO
Writing Ink and fluids
84
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Major Group 29.—PETROLEUM REFINING AND RELATED
INDUSTRIES
The Major Qroup as a Whole
This major group includes establishments primarily engaged in petroleum refining, manufacturing
paving and roofing materials, and compounding lubricating oils and greases from purchased materials.
Establishments manufacturing and distributing gas to oonsumers are classified in public utilities
industries, and those primarily engaged in producing coke and byproducts in Major Group 83.
Group
Mo.
291
Industry
Ma
PETROLEUM REPINING
2911 Petroleum Refining
Establishments primarily engaged in producing gasoline, kerosene, distillate fuel oils,
residual fuel oils, lubricants and other products from crude petroleum and its frac-
tionation products, through straight distillation of crude oil, redistillation of unfinished
petroleum derivatives, cracking or other processes. Establishments primarily engaged
in producing natural gasoline from natural gas are classified in mining industries. Those
manufacturing lubricating oils and greases by blending and compounding purchased
materials are included in Industry 2992. Establishments primarily re-refining used
lubricating oils are classified in Industry 2992.
Add oil
Alkylates
Aromatic chemicals, made In petroleum
refineries
Asphalt and aspbaltle materials : liquid
and solid—produced In refinerlei
Benzene, produced la petroleum refin-
eries
Bensol, produced in petroleum refineries
Butadiene, from petroleum
Coke, petroleum: produced In petro-
leum refineries
Fractionation producti of erode
petroleum
Gas, refinery or still oil: produced tn
petroleum refineries
Gases, liquefied petroleum
Gasoline blending plant*
GasollDe, except natural gasoline
Greases : lubricating, produced In petro-
leum refineries
Hydrocarbon fluid, made in petroleum
¦refineries
Jet t aels
Kerosene
Mineral Jelly, produced tn petroleum re-
fineries
Mineral oils, natural
Mineral waxes, natural
Naphtha, produced la petroleum re-
fineries
Naphthenlc adds
Oils : fuel, lubrlcattnx, and Illuminat-
ing—produced In petroleum refineries
OUj. partly refined: sold for rerun-
nine—produced In refineries
Paraffin wax, produced in petroleum
refineries
Petrolatums, sosmedldntl
Petroleum red nine
Road materials, bituminous: prodoeed
In petroleum refineries
Road oils, produced in petroleum re-
fineries
Solvents, produced Is petroleum re-
fineries
Tsr or residuum, produced in petroleum
refineries
85
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Appendix 3
GUIDE TO THE USE OF THE TSCA CANDIDATE
LIST OF CHEMICAL SUBSTANCES
Introduction
In April 1977, the U.S., Environmental Protection Agency
published the three volume, hard copy "TSCA Candidate List
of Chemical Substances." This publication identifies over
30,000 "chemical substances" which, EPA believes, include
many reportable chemical substances. " Entries in the Can-
didate List were drawn from substance lists available from
private and governmental sources.
EPA compiled the Candidate List for only one purpose:
to simplify reporting of chemical substance identities for
the Inventory. All chemical substances reported for the
Inventory must be properly identified. Reporting chemical
substance identity is simplest for those reportable chemical
substances which appear on the Candidate List. Using Form
A, a person may report such substance simply by entering two
numbers — the Chemical Abstracts Service (CAS) Registry
Number corresponding to the substance, and an EPA Code
Designation which appears along with that particular CAS
Registry Number in the Candidate List. Chemical substances
which do not appear, or cannot be found, in the Candidate
List may only be reported using Forms B or C.
Although the "TSCA Candidate List of Chemical Sub-
stances" contains four sections, it is actually a single
list of substances. Each section provides a different means
of locating a chemical substance. Used in combination with
one another, the sections provide a means for crosschecking
to ensure the proper identification of a particular substance.
A brief description of each section appears below:
— Substance Name Section: an alphabetically ordered
listing of substance names for all substances on the
Candidate List,
— Formula Section: a listing of all substances on the
Candidate List of known chemical composition ordered by
molecular formula,
— Number Section: a listing of all substances on the
List ordered by Chemical Abstracts Service (CAS) Registry
Number, and
— Chemical Substances of t/nknown or variable Composition,
complex Reaction Products, and Biological Materials
(UVCB)"Section: a listing of names of substances on the
Candidate List that do not have specific molecular
formula representations, grouped into subsets of closely
related substances. For the sake of brevity, this
section is referred to henceforth as the UVCB Section.
Candidate List Information
Substance names, molecular formulas, and characteristic
numbers aid in the identification of chemical substances in
the Candidate List. These items of information are described
in detail below.
87
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Substance Names
Three types of names are used in the Candidate List:
(a) Chemical Abstracts (CA) Index Names, (b) names chosen by
EPA to identify substances in the UVCB Section, and (c)
various other names by which substances are commonly known
to chemists and in commerce and manufacturing.
Chemical Abstracts (CA) Index Names:
For most chemical substances which have been assigned
CAS Registry Numbers, CAS has also assigned a unique, fully
systematic name known as the CA Index Name1. CA Index Names
are derived according to a rigorous, comprehensive set of
nomenclature rules to ensure that a single, preferred name
can be constructed for each chemical substance. In most
cases, the CA Index Name for a substance contains sufficient
information to permit derivation of the corresponding chem-
ical structural diagram.
A CA Index Name may be made up of several parts, each
playing a specific role in completing the description of a
chemical substance. The principal portion of a CA Index
Name is the "heading parent," which describes the funda-
mental or most significant feature(s) of the chemical
substance, as determined by application of CAS nomenclature
rules. The heading parent forms the basis for ordering CA
Index Names in alphabetical listings. Additional parts of
the CA Index Name are appended to the heading parent to
describe substituent groups attached to the parent substance,
derivative information, and stereochemistry. Thus, CA Index
Names appear in what is known as "inverted" form. For*
example, the CA Index Name for styrene is Benzene, ethenyl-;
the "uninverted" form of this name is ethenylbenzene. The
effect of using CA Index Names in their inverted form is to
bring together in the Substance Name Section entries for
related substances which have the same heading parent.
UVCB Substance Names
CAS does not assign CA Index Names to substances of the
type appearing in the UVCB Section. Therefore, lacking CA
Index Names, EPA has selected preferred forms of the name
for each of these substances and has listed these names in
the UVCB Section, the Substance Name Section and the Number
Section. These substances are not listed in the Formula
Section.
*CA Index Names cited in the Candidate List are based
upon either the CA Eighth Collective Index Period or CA Ninth
Collective Index Period nomenclature policies. The Eighth Col-
lective Index Period covers CA Volumes 66-75 (1967-1971), and
the Ninth Collective Index Period covers CA Volumes 76-85 (1972-
1976). The nomenclature policy reflected by the CA Index Name
for a particular CAS Registry Number depends upon the most re-
cent use of that Registry Number in the CAS processing system.
Names based on the Ninth Collective Index Period have been
selected for use in the Candidate List whenever they were
available. In either case, however, the CA Index Name uniquely
identifies the chemical substance associated with a particular
registration.
88
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Other Substance Names
The Candidate List also includes, for most substances,
various other names which have been used for these substances
in the chemical literature. Such names are variously described
as synonynous names, common names, product names, trivial
names, or nonsystematic names.
Many frequently encountered chemical substances have
been identified in the chemical literature by several syn-
onymous names. All such names in the CAS files for Candi-
date List substances have been selected for inclusion in the
Substance Name Section. Thus, the Substance Name Section
furnishes access to chemical substances through a variety of
commonly used synonyms, as well as through highly systematic
CA Index Names. Note, however, that synonyms are excluded
from the Formula Section and the Number Section.
Molecular Formulas
The term "molecular formula", as used in the Candidate
List and in the Inventory Reporting Regulations, means a
summation of the actual numbers and kinds of atoms present
in a molecule of a chemical substance. For example, C-.H, is
the molecular formula for benzene, and C-H^ the molecular
formula for ethane.
The element symbols in the molecular formulas in the
Candidate List are arranged according to the Hill System2,
as follows:
a. for carbon-containing compounds — C first, fol-
lowed immediately by H (if present), then the remaining
symbols alphabetically.
b. for compounds that do not contain carbon, the
order of symbols is strictly alphabetical.
The use of molecular formulas in the Formula Section of
the Candidate List is presented in a later section of this
Guide. The comments in the following two paragraphs apply
to molecular formulas as they appear in the Substance Name
Section and the Number Section. Molecular formulas do not
appear in the UVCB Section.
In the case of salts and molecular addition compounds,
the molecular formulas for the components are presented
separately. For example, the 1:1 molecular complex of
aminoethane with trifluoroborane is presented as:
c2h?n.bf3
Component ratios for salts and molecular addition compounds
are specified when known. For example, the disodium salt of
sulfurous acid is presented as:
H203S'. 2Na
A lower case x before the second or any subsequent formulas
indicates that the ratio is unknown.
2J. Am. Chem. Soc., 1900, 22 (8), 478-94
f
89
-------
Copolymer formulas are presented with the formulas of
the monomers shown individually. No ratios are indicated
for copolymers; the total formula combination for copolymers
or the single formula for homopolymers is enclosed in par-
entheses followed by a subscript, lower case x. For example:
2-Propenenitrile, polymer with
1,3-butadiene and ethenylbenzene
(C8H8"C4H6-C3H3N)x
Polymeric repeating unit formulas are enclosed in parentheses
and followed by subscript n. End groups, when included in
the total formula, have the summation of their individual
formula units cited at the end of the total formula. For
example:
Poly(oxy-1,2-ethanediyl), a-hydro-u>-hydroxy-
(C2H40)nH2°
OR
Poly(oxy-1,2-ethanediyl),a-phenyl-w-hydroxy-
(C_H .0) C,-H,0
2 4 nob
Numbers
Two types of numbers are used in the Candidate List for
each substance: (a) CAS Registry Numbers, and (b) EPA Code
Designations. Both types of numbers must be reported to
identify properly a chemical substance on Form A.
CAS Registry Numbers: A CAS Registry Number is inclu-
ded for each entry in the Candidate List. Registry Numbers
have no chemical significance in themselves and are assigned
in sequential order as new substances are entered into the
CAS Chemical Registry System3. Each Registry Number desig-
nates only one chemical substance in terms of atoms, valence
bonds, and stereochemistry, insofar as that substance has
been elucidated and defined.
A CAS Registry Number consists of up to nine digits
which are separated into three groups by hyphens. The first
group, starting from the left, has up to six digits; the
second group has two digits; and the final group consists of
a single check digit which is used to verify by computer the
validity of the total Registry Number.
Certain CAS Registry Numbers which appear in the Can-
didate List are preceded by asterisks (*). The asterisk is
used to highlight Registry Numbers for substances which ap-
pear in the UVCB Section. (Those Registry Numbers which are
preceded by asterisks do not appear in any of the CAS abstract
or index publications or services which cite Registry Numbers.)
EPA Code Designations: Associated with every entry in
the Substance Name Section, the Number Section, and the
Formula Section of the Candidate List is a computer checkable
alphanumeric called an EPA Code Designation. EPA Code
Designations do not appear in the UVCB section.
3For information regarding the overall design of the CAS
Registry System, see J. Chem. Inf. Comput. Sci., 1976, 16(2),
111-21. _
90
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Note: EPA Code Designations must nonetheless be re-
ported for chemical substances which appear in the UVCB
Section and may be obtained by refering to the Number
Section of the Candidate List using the CAS Registry
Number that was found in the UVCB Section.
These alphanumerics were developed solely for the purpose of
detecting transcription or keyboarding errors which might
occur during the reporting or Inventory compiling processes.
They have no significance other than providing a link be-
tween a particular entry and its location in the Candidate
List.
Sections of the Candidate List
Substance Name Section
The Substance Name Section consists of an alphabetic
listing of names of the substances included in the TSCA
Candidate List. The names which appear in this section are
of three main types: (a) the CA Index Name for most sub-
stances other than for those presented in the UVCB Section,
(b) names chosen by CAS to represent substances which appear
in the UVCB Section, and (c) the various synonymous names by
which the substance is known to chemists and in commerce and
manufacturing.
The introduction to the Substance Name Section in the
Candidate List describes how the names are ordered and in
what form they may appear.
Each entry in this section contains the CAS Registry
Number for the substance, its molecular formula, if known,
and an EPA Code Designation.
ILLUSTRATIVE KEY TO ENTRIES AS THEY
WOULD APPEAR IN THE SUBSTANCE NAME SECTION
Acetaldehyde [75-07-0] A004-1215 C2H4O
[107-20-0] A004-1362
[3039-13-2] A004-1483
Butyl epoxytallate [*61789-33-1] A006-1552
A. The substance name (1) is the heading and appears
in lightface type. The name may be comprised of a
heading parent (la) and an appended descriptive
term (lb). When an entry cannot be completed on
one line, the second and subsequent lines are
indented under the heading.
B. The CAS Registry Number (2) appears in lightface
italic type, enclosed in brackets.
l
Acetaldehyde, chloro-
c2h3cio
Acetaldehyde, dibromo-
C2H Br 0
91
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C. The EPA Code Designation (3) is printed in light-
face type.
D. The molecular formula (4) appears in lightface
type for substances of known chemical consti-
tution.
Formula Section
In the Formula Section, molecular formulas are listed
for all substances of known chemical constitution appearing
in the Candidate List. Where two or more substances share
the same molecular formula, their names are ordered alpha-
betically by the same principles used for the Substance Name
Section. The introduction to this section in the Candidate
List describes how the formulas are ordered and in what form
they appear.
As illustrated below, each formula entry is accompanied
by a CA Index Name, a CAS Registry Number, and an EPA Code
Disignation, for each substance having that molecular formula.
ILLUSTRATIVE KEY TO ENTRIES AS THEY
WOULD APPEAR IN THE FORMULA SECTION
(2b]
C6H7FN2
1,3-Benzenediamine, 2-fluoro- [52033-96-2]
M141-6318 (T
—, 4-fluoro- [6264-67-1 ] ~~ M141-6489
—, 5-fluoro-
polymer with 1,3-benzenedicarboxylic acid
[36582-74-8] M141-6534
Pyrimidine, 2-fluoro-4,6-dimethyl- [38593-33-21]
M141-6601
c6h7fn4o10
1-Butanol, 4-fluoro-2,2,4,4-tetranitro-
acetate (ester) [32833-82-2] M141-6726
A. The molecular formula (1) is the heading and
appears in boldface type.
B. The substance name(s) (2) appear in lightface
type, arranged in alphabetic order below the
heading. When the name or entry is not completed
on one line, the second and subsequent lines are
indented. A long dash (2a) replaces the heading
parent name when it is repeated. When a modifi-
cation phrase (2b) is required to complete the
substance description, it is half-indented under
the parent substance name.
C. The CAS Registry Number (3) appears in lightface
italic type.
D. The EPA Code Designation (4) appears in lightface
type.
92
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Number Section
In the Number Section of the Candidate List, substances
are listed in ascending CAS Registry Number order. Each CAS
Registry Number entry is accompanied by a name (usually a CA
Index Name) for the substance represented by that CAS Regis-
try Number, the molecular formula of the substance, when
known, and an EPA Code Designation. EPA has chosen, for
inclusion in the Number Section, preferred forms of substance
names for substances listed in the UVCB Section.
A. The CAS Registry Number (1) is the heading and
appears in boldface type.
B. The EPA Code Designation (2) follows the CAS Registry
Number, in lightface type.
C. The preferred substance name (3) (usually a CA
Index Name) appears in lightface type.
D. The molecular formula (4) appears in lightface
type for substances of known chemical consti-
tution.
Chemical Substances of anknown or variable
Composition, complex Reaction Products, and
Biological Materials (UVCB) Section
A small percentage of the chemicals included in the
Candidate List are substances of unknown or variable compo-
sition, complex reaction products, or biological materials.
These substances lack an accepted molecular formula repre-
sentation. They are listed in the UVCB Section. They can
also be found by name in the Substance Name Section of the
Candidate List or by CAS Registry Number in the Number
Section; they cannot be found in the Formula Section.
Chemical substances in the UVCB Section have been
grouped into subsets consisting of relatively small numbers
of closely related substances. Typically, the subsets
highlight a structural feature of the substance (e.g., the
subset headings "Acid chlorides," "Alkaline earth compounds,"
"Polyoxyalkylenes") or a significant precursor (e.g.,
"Castor oil," "Tallow"), or provide a general description
(e.g., "Resins," "Waxes"). The subset headings used for
this Section are presented in the form of a hierarchical
listing which precedes the UVCB Section in the Candidate
List.
ILLUSTRATIVE KEY TO ENTRIES AS THEY
WOULD APPEAR IN THE NUMBER SECTION
12788-99-7 R686-4137
Enterotoxin D-«—
494-23-5 R056-7335
2-Pentanone, 4-methyl-l-(2,3,4,5-tetrahydro-5-
methyl[2,3'-bifuran]-5-yl)- (2R-cis)- ci5H22°3^
93
-------
©
1
©
©-
©
ILLUSTRATIVE KEY TO ENTRIES
IN THE UVCB SECTION
-»• Acid chlorides
Tall oil fatty acid chlorides [*61790-34-9]^
Tallow fatty acyl chloride [*61790-27-0]
Balsams
Balsam Canada [*8007-47-4]
Balsam Peru [*8007-00-9]
Mastic [*61789-92-2]
DC
{
->• Castor oil
Castor alcohol . [.*61789-41-1 ]
Castor oil [*8001-79-4]
Castor oil acids [*61789-44-4]
Castor oil, hydrogenated [*8001-78-3]
Polyethylene glycol diester of castor oil acids
[*61790-99-6]
Tri(castor oil alkyl) phosphates [*61790-03-2]
In the UVCB Section, each subset heading (1) is listed
in alphabetic order. The names of the individual Candidate
List substances (2) are then listed in alphabetic order
under each subset heading, along with their CAS Registry
Numbers (3). The names which appear in the UVCB Section are
those which appeared in the original compilations used in
deriving the Candidate List; no attempt has been made to
standardize the nomenclature used to describe these sub-
stances. The subset headings (1) are not Candidate List
substances and cannot be reported for the inventory. Only
the substances listed under the subset headings along with
their CAS Registry Numbers are candidate substances.
Using the Candidate List
The Candidate List contains a great deal of useful
information for the identification of chemical substances.
Many reportable chemical substances are listed and each may
be reported simply by entering on Form A its CAS Registry
Number and a valid EPA Code Designation.
In addition, information contained in the Candidate
List may be used to aid in the identification of Class 2
chemical substances which are reported using Form C (see
Appendix 5). In particular, precursor chemical substances
may be identified simply and unambiguously with Candidate
List information.
Locating substances on the Candidate List depends upon
your knowledge of the chemical substance you intend to
report. The chemical substance may be known by a variety of
substance names, all of whifch describe the substance. While
a great many names are listed in the Substance Name Section,
it is probable that not all names which are known for all
the Candidate List substances are included. The absence of
a particular name in the Substance Name Section does not
mean that the chemical substance is not identified in the
Candidate List; the substance may be identified in the list
by a synonomous substance name. If you are unable to find
the name of the chemical substance in the Substance Name
Section, consult an alternate section of the Candidate List
before concluding that the substance itself is not cited.
94
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If you know the CAS Registry Number of the substance,
first consult the Number Section. If you do not know the
CAS Registry Number, and the substance is a Class 1 sub-
stance, derive its molecular formula and search the Formula
Section. Many chemical substances have the identical molec-
ular formula but differ in their chemical structure; in the
event that the molecular formula appears and is associated
with several different substances, search the names listed
to determine if the substance you wish to report is included.
IMPORTANT: CAS Registry Numbers are very specific.
One CAS Registry Number may identify a class of iso-
mers; another Number, a specific isomer of that class.
For example, the CAS Registy Number for trichloroethane
(nonspecific) is 25323-89-1; the CAS Registry Number
for the specific isomer 1,1,1-trichloroethane, however,
is 71-55-6. Be certain the CAS Registry Number you
report exactly identifies the chemical substance you
wish included on the Inventory to the greatest degree
of specificity which is appropriate for the chemical
substance you are reporting.
A chemical substance which lacks a molecular formula
representation may be on the Candidate List but identified
by a name with which you are not familiar. You should,
therefore, check the names listed under the appropriate
subset heading(s) in the UVCB Section. To determine the
appropriate subset heading(s), first scan the hierarchical
list of subset headings which appears at the beginning of
the UVCB Section in the Candidate List. Select the most
specific headings applicable. A substance which falls
within a given sequence of subset headings of increasing
specificity (e.g., "Fats and Oils;" "Fats and Oils, plant;"
"Coconut oil") will be found only under the most specific
heading in the sequence which is applicable. In some cases,
you will find a substance in a fairly specific subset,
because the substance is one of a large number of related
substances in the UVCB Section (e.g., the sodium salt of
sulfated coconut oil will be found under "Coconut oil"). In
other cases, the most specific applicable subset may be very
generic because the substance does not come from a class of
related materials which EPA judged large enough to justify
a separate subset (e.g., the sodium salt of sulfated mustard
seed oil will be found under "Fats and Oils, plant").
95
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Appendix 4
Alternative Sources of
CAS Registry Numbers
A reportable chemical substance which does not appear
on the TSCA Candidate List of Chemical Substances may have
already been assigned a Chemical Abstracts Service (CAS)
Registry Number, particularly if the substance can be repre-
sented by a definite chemical structure diagram. By search-
ing one or more of the CAS Registry Number sources described
in this appendix, one may find for such a substance its pro-
per CAS Registry Number. Finding the CAS Registry Number
will greatly simplify its reporting for the Inventory. With
its CAS Registry Number, the chemical substance may be
reported using Form B and identified simply by entering its
CAS Registry Number and a specific chemical name. Without
the CAS Registry Number, the chemical substance must be
reported using Form C and identified by detailed chemical
information of the type specified in Appendix 5.
CAS Publications
The Chemical Abstracts Service offers a number of
documents which are useful sources of CAS Registry Numbers.
These are:
1. the CA Volume or Collective Chemical Substance
Indexes,
2. the CA Volume or Collective Formula Indexes,
3. the CA INDEX GUIDE, and
4. the CA REGISTRY HANDBOOK — Common Names (on
microform).
The first three sources are commonly found in major academic
libraries; the fourth is commercially available from the
Chemical Abstracts Service.
CAS Registry Numbers may be found in these publications
by searching lists of trivial or common names, systematic CA
Index Names, or molecular formulas — the same options
provided by the Candidate List (see Appendix 3). These
sources, however, identify many more substances than are
listed on the Candidate List. They cover the full range of
substances reported in the scientific and technical litera-
ture, whereas the Candidate List was drawn from existing
compilations of substances and contains only those substances
which EPA had reason to suspect were commercial. Sample
pages from each of these four sources appear at the end of
this appendix.
The first three sources are published by CAS in con-
junction with the publication of Chemical Abstracts. Chemi-
cal Abstracts is a weekly journal comprised of abstracts and
index entries for recent publications relevant to chemistry
and chemical engineering. CAS compiles comprehensive volume
indexes every six months. The CA Volume Chemical Substance
Index relates the CA Index Names of substances, along with
their CAS Registry Numbers, to CA Abstract Numbers for
publications, abstracted ir the volume, in which the sub-
stances were mentioned.
97
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Key to CA Chemical Substance Index format:
CA Index Name CAS Registry Number
1,2-Hexadiene
,6-bromo- [60857-51-4]
prepn. and reaction of, with
magnesium and dimethylphenyl-
azirine, 177147j
Description of CA Abstract Number
substance's role
in document
Similarly, the CA Volume Formula Index relates the molecular
formula for substances, along with their CA Index Names and
CAS Registry Numbers, to the pertinent document abstracts of
the volume.
Key to CA Formula Index format:
Molecular formula
CA Index Name
C3H4F2°2
Propanoic acid, 2,3-difluoro-
¦ [373-96-6] , P29577j
CAS Registry Number
CA Abstract Number
CAS also produces five-year collective indexes which
combine the contents of the corresponding volume indexes.
Searching these indexes is advised because of their broader
five-year scope. The CA Eighth Collective Index covers
documents referenced by CA from 1967 through 1971 and is the
first collective index to include*CAS Registry Numbers. The
Ninth Collective Index covering documents referenced by CA
from 1972 through 1976 is currently being issued.
The CA INDEX GUIDE provides easy access to the appro-
priate index headings used in the CA Chemical Substances
Indexes and the CA General Subject Indexes. The main body
of the CA INDEX GUIDE is an alphabetic listing of cross-
references, synonyms, and indexing policy notes. Substance
names (and subject terms) used in the literature are refer-
enced to the corresponding CA Index Name and CAS Registry
Numbers (and General Subject Index headings). Only the sub-
stance cross-references are useful in finding CAS Registry
Numbers.
Key to CA INDEX GUIDE format:
Common substance name CA Index Name
~""~Chiferbutol jS''
See 2-Propanol,1,1,1-trichloro-
2-methyl- [57-15-8]
CAS Registry Number
98
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The CAS REGISTRY HANDBOOK — Common Names (on micro-
form) consists of two parts: the Name Section and the
Number Section. The Name Section lists alphabetically a
variety of substance names commonly used in the fields of
chemistry, biochemistry, medicine, and commerce. The types
of names in this listing include common names, trademarks,
brand names, and trivial names. Each name is associated
with a CAS Registry Number; molecular formulas are included
for substances of known composition. The Number section
lists, in ascending CAS Registry Number order, the various
synonymous common substance names associated with each CAS
Registry Number referenced in the Handbook.
Key to CAS REGISTRY HANDBOOK — Common Names; Name
Section format:
Common substance name CAS Registry Number
CAS also publishes the CAS REGISTRY HANDOOK — Number
Section which is a comprehensive listing of substances re-
gistered in the CAS Chemical Registry System. The Handbook
lists, in ascending CAS Registry Number order, the CA Index
Name and molecular formula for each CAS Registry Number.
The Handbook is not intended to be a source of CAS Registry
Numbers. It may be used, however, to confirm a chemical
substance identity, a CA Index Name, or molecular formula
linked to a particular CAS Registry Number. It cannot be
emphasized too strongly that CAS registrations are highly
specific. Different positional isomers, stereochemical
isomers, and salt forms have distinct CAS Registry Numbers.
The REGISTRY HANDBOOK — Number Section, with its inclusion
of the usually systematic CA Index Names, will help to
validate a CAS Registry Number that might have been obtained
from a search using a non-chemically descriptive substance
name.
Other Sources
CAS Registry Numbers may also be found in computer-
based information retrieval systems. Several on-line infor-
mation systems that include CAS Registry Numbers are the
NIH/EPA Chemical Substructure Search System, the National
Library of Medicine's CHEMLINE file, and Lockheed's CHEMNAME
file. These systems also contain EPA Code Designations for
substances which appear on the Candidate List and, there-
fore, may be of use for purposes of reporting using Form A.
Many academic and public libraries are equipped with
facilities for searching these computer-based files.
IMPORTANT: In reporting the identity of chemical sub-
stances for the Inventory by Form B, care must be taken to
ensure, first, that the proper CAS Registry Number has been
selected, and second that the chemical name is as specific
as possible. The substance name should un.iq >:ly identify
the substance and should include such information as posi-
tions of chemical substituent groups, salt I.ims and ratios,
Pasolac [65-49-6]
Molecular formula
99
-------
and stereochemistry, as appropriate. Any inconsistency
between the structure associated with a particular CAS
Registry Number and the name supplied will prevent the
substance from being added to the Inventory until clarifying
information is provided.
delA of at of. in tobacco. 189418m
of tohacco
59847q
cigar smoke cvmpn ir. relation to. 189409j
2-Hexadeceae |2674J 29-7]
reaction of. with urtedecene. P 176806m
- . l-chloro-3 7 lUS-tetrametbyl- (4444 J4 *|
condensation of. with hvdroquinones. P 46898f
ft-Hrxadeceoe I IStt99 2Tb 2\
hydruforrnvlatuin of catalysts for. P 142617k
7-Hexadeceoedioic acid
- . 10-*theayl-
dimethyl nirr |5&3S 64-9], P 3246Sy
4*Hrtadecror-(.8-diyul
—. lf-(2-furaayll-
(£l (6W44 9) 9). 77516k
Hcxadeceoesulfoaic acid
dimeriied detergents and foaming agent* for
petroleum rec»vcr>. P 2304lh
Hexadeceooic arid (25447-95-41
of aorta. in ethertmclerasu. collagen and elaatin
assbo seed oil. 19312*
of Lindrra ttrychmfitlto, 156520k
lubricatin| oil emulsion enntf., for aluminum hoi
rolling. P
2-Hexadeceooir acid
it\ 1929 79 J|
hypuHsluf rnation of. 176777c
frepn and hvdroxvlation of. 3237Av
• methyl- (60/2* £4 9)
hydrogenation and esterificetion of. 10&335w
cyclopropvlmcthyl ester, <£)- (60/28 14 51. prepn
and ovictdal activity of. on Telranychu*
urticat, l05-*U5w
-- . 3-methyl-S-oxo-
methyl ester 16*1574 18 7], cyclocondensation with
morphimne. P I43142p
3-Hexadeceooir acid
(£) |/686 W *|
phtaphalidylglycerol rontf . in barley seedlings,
plant id membrane and thylakoid development
in reletiton to. 75043e
of rape, in ripening. 156514m
of wheat leaf plestids. oligochroreatic light in
relation to. 17070a
4-Hexadeceaoic aeM
rlhyl ester. iE)- (59/OJ-/9-6]. prepn and redn of,
2847)h
• 2-methoxy- (405J9-/9-J)
prepn of. a* plant growth regulator. P 1S3S6i
ethyl ester |40539-36-4]. prepn of, as plant growth
regulator. P !S356z
5-Hexadeceooic acid \20Q57-J4-1\
prepn and hvdrozylation of, 159341p
ethyl ester, (£) 160669 24-l\. prepn am) upon of,
lS9:mP
ethyl enter, (2) (60669-23-0], prepn and upon, of,
15.y:i4Jp
6-Hexadeceaotc acid 12/97-46-8]
of Aficroc/ono proitfrrc, 2780h
(D \28290 76 8). of Portuguese mui-of-frv.
30H19w
T-ReudecenOK acid
methyl ester. (Z) (56675-67-J), pheromone activity
of. in beetle. 119918a
- ,7-methyl- \40663-&}-&)
of Portuguese man-of* war, 30619*
9-Hexadeceaoie AC id \209l-29-4\
of Mitroeiono prolt/ero, 2780h
<£) | iOOJO 73-6}
in geol sedimenta, of Narraganselt Bay. R. I..
195567a
in kraft paper mill waste water and treated
effluents therefrom. 130033d
(2) ipalmitolnc oetd) \373-49-9]
of adipose tissue. in hypertriglyceridemia.
157532c
of ajowan and celery and parsley oib. 40675c
of blund plasma. in diabetes and obeaity,
107|72o
of blood plasma, in exercise. 91266k
of blood plasma. in hypertension, 190237h
of blund plasma, in inanition, pituitary in relation
to, 174910a
of bliM*l plasma and organs. of dormouse.
nutrition and season effect on, 3266c
of blood serum, in development. 140428a
of blood serum. in senescence. !57l93t
of blood serum, in senescence, oSenily and set in
relation to. 17976a
of brain, of newborn in culture. i*lt
chromaloc- detn of, in re»in* • '*/en in
relation to. 140956w
formation of. by ichneumon
in geol sedimenla. of Narrr.. i..
195tt~a
of glyceridet, of £trAerir*i
of ilyceridet and phospho! .
hyperoiia. poaiuonal di» '903s
hemolytir activity and irh*. ral
ton in in relation u>. •
insect atlractant contf , for eye 0.*.a: 42l66u
of lipids, of bk«d plasma of twins, geneUcs to
relation U>. I8990ftm-
of lipids, of leaves of cotton from firradiaud
seeds. )73S37p
of tivcr, in elhanoJ intoiicattoo. 172510c
of liver lipids, y ray efTecl on, cyetamiee m
rrlaiMm to. 56912*
of f>-»cJecjlhin. of lung in development, 157|Mj
metab of. by brstn in development in cuHur.
106992v
metab of. by HrLa cell, valine effect on, 174721f
of muscle, of eel in development, 30818v
of oil palm hybrids resistant U> spear rot.
139899)
of Onttf mndtum oceidrntotr. 17431Ow
of Phtalophoro dtfmotitidn. 74606c
of AoiU'mfnMft; lanugmotum. 90?lSj
of Salmonella n-.nnriota R and S forms, cell vail
in relation to 173983f
in sea«ater, fron fringing and barrier reefs, at
Grand Cayman. 130246c
of tohaccu. drve opment in relation to. 119&40u
of Wbrm rh tUrar temp and culture and normal forms, 15£776y
mefhyl-d) ester. (21 \6tM43-Sfi-S], from pareot arid
b> reaction with deuurated methanol in
presence of DMF dineopentyl acetal. P
121369Q
monoest^r with 1,2 3-prooanetnol. -
with methylhydroquinones. P 94551k. P 94552a
with trimethylhydroquinone. P l?4204u
reaction with dimethoxymethylbenxoquinoae, P
IG0359g
reaction with tnme'Jiylhydroquinone nicotinataa. P
159892u
reaction with ub*quinoJ denvs., 173329*
. 3.7.11.15-letrametliyl- (60046-47-9]. 63175a
of tobacco. 59647q
—. 3.7,11 .IS-tetrametbyl-MpkeaylealfMyl)-
(600/2-66-0]
prepn and redn of 63175a
2-He&adccea • 1-a)
- —. 3.7,ll.|$-t*trametkyl-
\R-\R*J?*-«FI|]- {phytol)\150-B6-7)
condensation of. with hydro^uinonea, P 4C806g
esterase activity of pancreatic lipase in reapooat
to. 173343s
formatimi of. ti|ht effect on, chlorophyll to
relation to. 307O4e
from Crocilcno •mdrrtomana, 177666c
of green and blu* -yreen algae, 226lq
of Lebiatae. 306Ti&b
in lacustrine aed menl o( England, 145992q
lecithin membrane* cocitf., structure of, 88902j
otidn of. by nickel peroxide, P 177685b
of pine, chlorophyll defrdn in relation to,
139934f
reaction of. with Uimethylhydroquinonaa. P
124204u
reaction with trimethylhydroquinone nicotinataa. P
159892u
in sediments, of - IJ^J/O-20-JJ. aa insect attracUat. far
male freat dart, 884&3p
II -Bexadecea-l-al
{Z\- (566S3-54-6)
oxidn of. P 15375*
tetradecenyl acetate mixt attractency (or aah
great dart in tvlatioa to. 8&453p
acetau. (£)• (562/« -72-5)
M insect attractant. for male peat dart, 88453o
as pheroiDMie. for sweet potato leaf folder aott.
140061a
Coasah Vsl 7MI Coaalitm
Indev GaUe
Before Uaii| Tkk lain
acetate. (Z)~ (340/0-?/-4). pheromotie activity of, is
sweet pole ir leaf folder both. 140061a
acetate. (7V . ant with (Z) 9- tetradecen-1 -yl
acetate (59969-06-9). insect atiractant, (or
male great dart. 8&4S3f>
15-Hexadecea-l-al
methanesulfonate (59/0/-J7-JJ. prepn and phenol
_ . . . "Allh
alkvlation by. 2847
-j-61
aiGg
index
105335*
1 -Betadecya-Val
, 3,7.1l.lS-tetraaKbyl- {drhvdro*30f>
(29/7J-23-/J. P 192179q
tsomtrttaUon of
catalysts for. P 142638t
in presence of aily! vanadate. 7S209x
2-Heuoecya-1 -«l
methanesulfonate J59/0/-/4-3]. prepn and pbeaol
deriv O-aJkvlation by. 284-methyl-6-<4-mctbo»ypfceayh 6 e«e-
l-(methylphcnylhydrazone) (59624-60-/). |
and redn. of. 32807q
. 3-mcibyl-4-{4-mrthy)pbeayl) € ems
l-(methy)phenylhydraxone) (59624-6/-?). 32SCT7q
—. S-aethyl-(-«se4-ykesyl*
1-imethylphenylhydraxooe) I59624-S9-6],
and hydroteaalion df. 32807q
I,4-Bexadieaami6e
, N-(aaioocarbeayl)- (6006/-^S-4)
preservatives, in storage of wasua frm Coed
processing. 96713b
. N-<4-etboxypbeayl>- (59923-6/-41
selective epoxidn. of. by urea peroxide, 6287ly
, N-bydroxy- \407^€2-4\
Corynt bacterium rrnale (rowth and 1
to. 764c
—. AMiaiao-ltf-ayratei-l-ylaetkylK-
160499-60-7]
analgesic and antunflammatory activity of, P
1239181
. AM2-*e- |6042^-I0-1).
I23706x
Bexadieae [42296-74-2]
by codin>eriution of butadiene with ethylene.
62575e
potymer with ethene and 1-propeoe (9046 4> 5).
rubber, vulcanising acenta for.
bis(monoperoxyacetu) a
I and bie(monopcrox3
yketall as. P 79433e
. etboxy- (60/30-59-6)
of wine, geranium odor of, 1074294
M-Hexadieae
, C-bromo- (60657-5/-41
prepn and react)oo of. with marnesium and
dimethylphenylajiriDC, 177147)
. (-chloro- (60857-50-J)
reaction of. with lithium artd dimethylpbenylaxirim,
177l47j
IJ-Hexad'teae (592-46-J)
aerosols formation by nitrogen dioxide and. ia
photocbem feat flow reactor. 129664d
cycloaddn reaction of. wiUi cyanofen.
2-cyano-S-rthylpyTidioe froa, P 108549a
cydoaddn reaction with cyanogen, P 192567q
formation of. in decane aromautation. tar rlsrriiapa
in relation to. 126867a
selective hydrafenation of. catalyata for, P 5361a
(£V |20237-34-7], prepa of. by oti«omerisauoa ef
butadiene witA ethylene. P 193336a
ruthenium complex (6/00J-5J-0J. 177603e
. 4i-dibreme > methyl [5WJ5-35-*], 3061ft
100
-------
CiHiCliO
Bthenc. 1.2 diehloto-l-neihoty- 142345-8/-J),
143205m
Propane). 2.2-dichloto- |273/3 32-2). P 21«T7n
—. 2^ dtchloro- j/0/40-89 3). I4293lh
2-Prap«nuflf, t.l -dichioro- (5/3 6796c. P
155078k
1.3 dtchloro- (534-07-6). P S67Cq. 78761y. P
108280k. I0857U P 125295a. P 142647V. P
16121 Iq. P 18483If
Propanov) chloride. 2 chkwo- (7623-09-81. P
20904y. 406441. 6774If. P 123578* 143061m. P
IS97Un. P 1770Mu
— . 3 -chk*tr (625-36-5). P S7QS*. P 21325*. P
2278In. 3323lj. 406441. P 462?7n. P 46425a. P
63n«*v. 7779S4. P 778Mr. 87091*. 93435p, P
10KV**. P 123772t. 1596064. P 1598&k. P
»77»Wrto. P 1925771
2-Propen-l 99S4r
CiH«C1iOi
Acetic Kid. dichkm-
methv! eMer \116- U !\. 4991b. 5158*. 20565*.
77X\1y. 12351 fen. 158849y
Amir? ,4C acid. 2.2-d»chtor©-
methvl «ier (60062-75-/), 77595k
Carbunnchlondic Mid
2 -chlornethvl ester \627-ll-2\, P 33010a. P
4*99Ac. 93370p
Proptftuir ac>d. 2.2-dicblom- |75 99-OJ See
Chemical Substance Index
cak.um wh 153606-78-3). 57893c
compd with butyl carbemimidolhtoate (1:1)
159972 04 -2). 57893c
compd with 1.1-dimethylethvl
carbamimidothioate U:l) (59972-07-5),
&7B93c
compd with ethyl carbamimidothioate (1:1)
(59972-02-01. 5789V
compd with heptyl carbamimidothmet* (1:1)
(59972 //-/[.57893c
compd with I-methvlbutyl cmrbamimidothioeLf
(I II |SS972-0»-7l. S7«93c
compd with 3-methylbotvl carbamimidothioate
(1:1) 159972-HH>\. 57893c
coinpd with methyl carbamimidothioate (1:1)
(59972-0/-9). 57893c
compd with I -melhvlheptyl carbamimidothioate
(1 1) 159972-;2-2l.57S93c
compd with 1-methvtpropyl carbamimidothioate
(1 11 159972-05-31. 57893c
compd with 2-methylpropyl carbamimidothioate
(1:1) (.59972-06-4). 57893c
coinpd with octyl carbamtmtdoLhtoaU (1:1)
15.*606-79-4), 57893c
compd with pentyl ear bamimidothiaale (1:1)
(59972-08-6). 57893c
compd with propyl carhamimidothioata (1:1)
(59972 03-/1. 57893c
milt with N.N'-b*»n-meihylrthyl)-6-=
(methylthioM,3,5-tna2Jne-2.4-diaaum
J60623-12-3). 1876741
mm salt(/27-20-8), 1IS3n. 5785*. 15222c.
5789 k. P 58093d. 104935c. P 1386311,
187643a. 1876SIh
sodium «all. labeled with chlorine-36
159645-52-2). P 45990u
Propanoic-/-1^ ac*d. 2£-dichloro- (60062-73-91.
77595k
Propanoic 2-««C acid. ^-dichloro- (60062-77-J).
77595k
CifteCbOsSi
1,3 ¦ Pmpanediaulfonyt dicfilohde.
(58A86-69-4). P93828u
C>H«CUNOi
Formamide. AM2.2»2-trichlor©-) hydrnivethyl)-
(5/5-82-21. P 62686a. P 93863b. I92033n
CsHeCUNSi
Propanemtrile, 2-(lrichloro*ilyD- (262/-0/-4).
I60228p
C>H«CIK)P
Phosphonic dichloride. {1-(chloromethyDeiKenyl)-
|MJ£7-2/-7), 106722T
CiH«Cl<
Propane, tetrachloro- 12564/-6? 7). 88134k
- —. 1.1.1.3-tetrachloro- (/07D-78-6). 323.T7m.
77535r
CsH«CUO
1-Prugand,^.S.SJ-Utrachloro- (59778-03-91.
CiH«Cl«OSa
Propanoy) chloride. S-(trich)oretheny1)c
{(trichlorufulyOmeihyi)- (59J6/ 37-4], 5749i
CiH«Cr«NiO»
Chromium. di-»-hydroxyoclakis(nitraU>"0){«u- =
Jprupanedioeio(2-)-0.0':0":(/"||ietre-
!60/(*-/4-/|. 857721
CjH.DjO
Otirane 2.3 W:. methyl- (59454-2J 81. 2l929e
CiH«FI
1 Hnnrnt. 2-fli>oro-3-»odo- (5675-.W-2J. 20478v
CsHH,FjNO»S
Carbtmic and. |(trifluonMnethyll«uinny)|-
methyl e*Ler (596/7-35-5). 32363a
CiHiF«0
1 Propanol. 2.2 3.3-tetrailiioro-(76-37-9). 5130|.
33327v. 155698n
mU (4/578-54-5). 45906y
CsHiFiOi
Peroxide. 2-fluoroethv) trifluoromelhyl
(6090/-7J-71, 176764w
CsHtFiNi
2.2-Propanediamine. 1.1.1.3.3.3-hcufluoro-
[1737-80-01. 78073a
CiHiFaNP
Phoiphoranamine, l.l-difluoro-N-methyl-l.l-o
bi»(trifluoromethyl>- (60049-35-6], 623S3f
CsH«Hg
Mcrcur>'. ethvnylmethy)- |//89-66-8), 62351d
CsH«Lii
Lithium, •t-cyclapropylidenedi- 1H4NOj
Cyclopropane, nitro-
»on{|-) (602)/-47-4|. 77396w
1-Propene, 3-nitro-
»onil-) |602//-46-J). 77396*
CiHPS
U,2-Dioxaphospholane. 2-both»^cyaMto-
[20X9-43-1]. 123229u
CjH salt (60255-6»-8). S4212u
monohydrochlonde {/467-/6-9|. 32918b
mono(letrapheny)borflte(l-)) 133570-62-^1. P
48414v
perrhlorate I2 l» |60SA6-83-6]. 152178|
ailvrr(l-f) salt \42879 93-6\. P 2137U
•odium sail |5587-42-8|. P 1600954
I -Propene. 3-diato- [2032-04-4). P 33275b, P
33364e. 62912n
2-Propenenitrile. 3-amino-
KZi- (24.S32-82-9|. 62315v
l//-Pvraxnle [268-13-1], 1505lw, 20461j. 29119m.
29202h. 45827w. 629T9q. 6^320e. 73036T.
77337c. 78)85p. I05078q. 123)60q. P 129227p.
13I326p, 159552K 171664d
C>H«NiO
Aceumide. 2-cv»ftO- (/07-9/-5J P 21120), P
21348q, r.Wp. 32785f. 46571 v. 63006*. P
63085c. 778.^. 89818>, P 108530a, P I08683u.
P 1430941. P I60072h. 176»22w, 177304K,
192202*. P 194077d
Carbonocyanidic amide, methyl- (39088-4/-0). P
77926o
2//-lmid«zol-2-one. 1.5-dihydro- (59589-63-81. P
32838a
2-Propanone, 1 -diato- (2684-62-01, 5.S57b. 62490y,
93452s
lW-Pyraiol-3-ol 160456-92-0], I23060»
I W-Pvrazol-5-ol 4'»0456-93-/|, 123060|
3H-Pyr«io1-3-orw. 1.2-dihydro- (/37-45-/J.
123060c
. 2.4 -dihydro- | /J7-44-01. P 34103T
4W- Pvraiol-4-one, 2.3-dihydro- 127662-65-3).
123060c
C»H«NiOS
4-lmidatolidinone. 2-thioxo- (503-87-7). P
143l36q. 160C2lr. P 161303*
1.3,4-OsadiAC(ilf-'il3^ -thione, 5-melhy|-
(J//»-/7-3|. P 108669m. P 108670b
4-Thiaiolidmonr. 2 imino-
monohydrochloride (2/92-06-5). 134978p
CiH^NjOSi
4-ThiAzolidinone. 3-amino-2-thioxo- |/438-/6-0|. P
1431141. 161854b
C>l(.NrOi
Acetic ectd. diazo-
methvl ester |wU2-/6-2|. 94l59p. 108120b. P
108313y
Acetonitrik. (melhoxvimino)-
M-osrie. (£1- (34«57-30-2l. 93667r.!
. tmelhvl-oci-nilro)-
(Z)- (3496/-8Z-4]. 93667r. 93668a
Cvbamic acid, cytno-
methyl etUr (2/729-98-#). 21240y. p 21363r. P
88534r. P 19272M
methyl esltr. sodium «ah (5/234-9*-/). P 32469T
2.4-Imioaiolidinedtone |46/-72-3|. 958y. P 1431360.
160021r. 177924k
Sydraw. 3-methyl- (6939-/2-4). 63001b
CxHtNsOxS
2/rf-1.2.4-Oiadiazin-3<4/f)-one, dibydn>-5-tluas»-
(59696-55-8). 124272q
U.4-Thi»diarol-2(3//>-ooe. 5-flMthosy~
J[/7605-27-5). R 10&l26d
•jyiethybdtfooyl)-
sa*K£ «cj >•*«
Ifooiy)-
13477/-55-«
CiRtNHMJ
Uranate<2-). ]ethaned»oaU><2-)-0.O]=
dioxoperoiv(ur«a-0)-
diammonium (599J0-/4-2). 28039y
dihydrofen. compd with {uan»din* (1:2)
(59930-/6-4). 28039v
disodtua (59930-/3-/). 28039y
C»R4NtS
l//-lmidaxolethiol (4955^-/9-6). )78369v
l//-lmiduole-4-thiol (24748-68-3). K576q
2H-I(sidaxo)e-2-thione. lj-dihvdro- 1872-35-5). P
21373u. P 21487). P 33015*. Uttttp
li5-Thudiaiol«. 3-roethvl- |572S-«-3l 123257b
2-ThiaioUmine |96-50-4|. P S421c. P 21090i. P
2l360n. P 21417m, P 32657r. 32938h, P
46440b, 46480q. 63023k. P 63077f. 71605*. P
8S52lv. P 94380d. P 110024y. P 110094*. P
1239721. 153743k P 158804c. P 159923c.
192323c
mocio{4-((melhosycaxbony!)aaiao)=
benxenesul/onau) (60007-74-/{. 63023k
CsH«NiS>
Carbamodithioic acid, cysno-
BMnocnethyl ester. po<«Mium salt (/0/9/-6/-4).
3291lu. I08573h, P 108654k
l^,4-Thi»diaxole-5(2K)-thione. 3-methyl-
(36988-2/-3], P 5666m. P 21402c. P 46712a. P
46722*. P 108651c
U.4-TKiadiatoif~2(3it»-thiont, 5-methyl-
(29490-/9-5) See ChrmicaJ SubftAfw* Indcs
C1H4N4
l^.4-Triaim-3-amine \1120-99-6). 46585c
1.3.5-Triaiin-2-amine 4/22-04-71. 123183<
CsHiN«0
1.3,5-Triazin-2(lK)-one. 4-amino- (93Z-86-?).
71930u
monoulvcHUI salt (20293-33-8). 33348c
lH-1^.4-Triaiole-3-carbou»»de 1364/ -0®-5). P
175579c
monoaodium salt (54666-78-3), P 175579c
CiB«N«(h
2-ProoenenitriW. 3.3-diamino-2-nit/o-
(257/3-54-6), 46&59i
IH-Tetraxole-I -acetK aod [21732-17-2], P 5667a. P
123929*. P 160137b
1.3,S-Triazinf-2.4(ltf.3//)~dione. 6-«mino-
(645-93-2), 104986x. 1300741. 1431861
copper salt (37384-/5-9). 73115f
lH-l.2.4-Triazok. l-methyl-3-
-3-n.tro- (2662/ -45-4).
142176c
, 1 -methyl-5-nitro- (2662/-29-4J. I42176r
. 3-methyl-5-nitro- [24/56-65-8). I59994d
4//-l,2.4-Triazok. 4-methv(-3-niiro- J2667/-3/-8).
I42l76r
lH-l^J-Triaiok™4 -carboumide. 5-bvdroty-
(3/76-44-/). P 6010e
moMiodiuiB sah (59343-63-4). P 6010*
C$H«N«S
l//-1.2.4-Triaxole-3*«arbothioam»de (364/-//-0). P
175579c
CiKiNi
l//-l.2.4-Triaxok. 3-azido-l-methy)- |53566-56-6).
142176c
. 5-az>do- l-methyl- (53566-57-71. 142176c
4H-U.4-Tnazole. 3-audo-4-methyl- (53566-58-8).
142176c
C»H«N»0«P»
Triamidodiphoaphoric acid. .V^T^'-tr>c\af*o-
Utrasilver(K) salt (59857-28-2). 403081
C)HiO
Cycloproparvone (5009-27-8). 4855k. 142425*
Cthyne, methozy- (6443-9/-0). 93589s. 1430671
2-Osetanylidene |60644-32-8l. 14223le
2-Propenal (/07-02 8| 5WChemicaJ SubaLance
index
homopolymer (25068-/4-8). 48130c 89291*.
10925(p, 160571v
hoinopolymef. compd with aulfurous acid
(6/574 00-3), 160S7lv
polymer with bentaldehyde (363/3-35-6). P
22(05*
polymer with (chloromethylfotirane
(26:97-38-61. P 22l04u
polvmer with diethenylbenzenc (55279-67-9). P
63981*
pol/m er with 2,2-dtmelhvlpropanal
(363/3-37-8). P 22105^
pot>*mer with ethenylberueoe (25067-45-21.
124796r
polymer with tsocyanaloberuene (26984-89-4). P
polymer with 2-methy1-2-propeno«c acid aftd
2-propeoamide (57604-75-8). P 649291
101
-------
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-------
Parkin [522-00-9] C19H24N2S
Parkinsonin A [6980-27-8] C22H22O11
Parkinsonin B [6980-22-9] C23H24O11
Parkopan [52-49-3] C20H31NO.CIH
ParKS 12 15/7-45-5] C»H2sNO
ParKS 12 Hommel [577-45-5] C20H26NO
Parlef 1530-78-9) C14H10F3NO2
Parlite W [52907-18-3]
Parlodion [9004-70-0]
Parlon [9006-03-5]
Parlon P [58206-43-2]
Parlon P 5 [39390-75-5]
Parlon P 10 [39390-76-6]
Parma) [97-84-9] C17H23N3O
Parmanil [8056-67-5] C10H13N5O4.C9H12N4O3
Parmarose T [39465-78-4]
Parmax AW 2 [77727-77-2]
Parmelin [479-20-9] C19H18O8
Parmelin acid [479-20-9] Ci9HigOs
Parmethasone acetate [7597-82-6] C24H3iFOt
Parroetol DF 30 [54392-06-2]
Parminal [72-44-6] C16H14N2O
Parmol [703-90-2] C8H9NO2
Parmon [24190-29-2] C13H10O
Parmone [24190-29-2] CisHaoO
Parnate 173492-07-8) C9H11N.1/2H2O4S
Parnon 17 7787-37-61* CigHinChNO
Parnox (340-52-3) CieHnNaCh
Parodyne [60-80-0] CuHi2N20
Paroil 142 [54570-94-0]
Paroil 170LC 139387-46-7]
Parol [59-50-7] C7H7CIO
ParolatU [50875-55-9]
Paroleine [8072-95-7]
Paromamine [534-47-4] C12H2SN3O7
Paromamine 3'-phosphate j22642-86-0\ C12H26N3O10P
Paromobiosamine [25423-75-8] C11H22N2O8
Paromomycin [7542-37-2] C23H4&NsOi4
Paromomycine [7542-37-2) C23H45N5O14
Paromomycin I [7542-37-2] C23H45NSO14
Paromomycin II [51795-47-2] C23H4sNsOm
Paromomycin sulfate [7205-49-4] C23H45N5O14.H2O4S
Paromomycin sulfate [7263-89-4] C23H4sNs0m.iH20*S
Paromomycin sulphate [7205-49-U] C23H4iNs0u.H204S
Paromose [527-10-6) C6H14N2O4
Paronit [72738-28-2]
Paronite [12738-28-2]
Paronit UV 10 [39421-87-9]
Parosan [5657-77-8] C10H11ASN2O6
Parosept [94-78-8] CuHizOs
Parotin (7392-87-0)
S-Parotin [77075-90-0)
Parotin A [11015-89-7]
Parowaz [8052-66-2]
Paroxan [3II-45S] CioHuNOeP
Paroxazine [290-47-1] C4HJNO
Paroxon [70-70-2] C9H10O2
Paroxyl [97-44-9] CgHioAsNOs
Paroxypropione [70-70-2] C9H10O2
Parpaml [77-22-5] C18H21NO2
Parpanit [725-85-9] C18H21NO2.CIH
Parpanit hydrochloride [725-85-9] Ci&HriNCh.ClH
Parpanit methylbromide 129345-42-4] C19H30NO2.Br
2-Parpargylthiobenzoxazole [52924-71-7] C10H7NOS
Parphezein [522-00-9] C19H24N2S
Parpon [5 7-37-4] C20H25NO3CIH
Parquine [1400-78-8] C21H39NO8
Parsettensite [12420-57-4]
Parsidol [522-00-9] Ci9H24N2S
Parsidol [7094-08-21 C19H24N2S.CIH
Parsidol hydrochloride [1094-08-2] Ci»H24N2S.C1H
Parsidol monohydrochloride [7094-08-2]
C19H24N2S.C1H
Parsitan [522-00-9] C19H24N2S
Parsley apiole [523-80-8] C12H14O4
Parsley camphor [523-80-8] C12H14O4
Parsley fruit oleoresin [8025-95-4]
Parsley oil [8000-68-8]
Parsley seed oil [8000-68-8]
Parsol (52447-07-3)
Parsol LG [8040-83-3]
Parsol MCX [5466-77-3] C18H26O3
Parsol MOX [5466-77-3] C18H26O3
Parsonite [56372-48-2] H2O.O10P2U.2Pb
Parsonsite [56312-48-2] H2O.O10P2U.2Pb
Parsonsite [12137-57-4] H2O.V2O10P2U.Pb
Parsotil [522-00-9] Ci»H24N2S
Parstelin [8057-08-7] C21H24F3N3S.C9H11N
Partel 1514-73-8] C23H23N2S2.I
Partergin [773-42-81 C20H2&N3O2
Parterol [67-96-9] CssHtsO
Parthemollin [23264-32-6] CisH&O*
Parthenicin (508-59-8] CisHigO*
Parthenin [508-59-8] C1&H1SO4
Parthenolide [20554-84-1] Ci&HjoOs
Partiallyl hvdrolyzed gelatin [9000-70-8]
o Particle [12587^46-1]
U-Particle [12587^47-2]
t Particle [12587-9 "
Parlon [12585-72-1
Partons [12585-724
Partricin (77096-4|
Partricin butyl 1
Partricin ethyl est
Partricin methyl 1
Partricin propyl 1
Partridgeite [7£
Partschinite [724i
Partusisten [7944-7
Partzite [72420-59-6]
ParuraitoW [52907-78-3)
Par\ albumin (Rana esculents muscle, pi 4.50)
[56832-33-8] C520H1122N134O1S7
Parvalbumin (rabbit muscle) [56094-72-3)
C&3sHgsoN 134O170S3
Pan-albumin (Merluccius merluccius muscle)
[72687-92-2]
Parvalbumin (carp muscle) (9066-89-7]
Pan-albumin III (pike) [9066-90-4]
Pan-albumin III (Esox lucius) [52036-77-8]
C532H»4sNl3sOl6«S
Pan-albumin (III Esox lucius) [52036-77-8]
Cs32H84sNi350l66S
Parvalbumin (rabbit muscle) [56094-72-3]
Cs3sHssoN 134O170S3
Parvex [99-00-3] CSH10N2S2
Parvifloral [21973-34-2] CisHiflOj
Parvisoflavanone [49776-79-61 CnHigO;
Parvisoflavone-A (50277-07-5) CzoHisOs
Parvisoflavone-A acetate [49776-76-3] C26H22O9
Panisoflavone-B [50277-02-6] CaoHisOc
o-Parvoline [7723-96-2] C9H13N
0-Parvoline [612-11-3] C9H13N
Parvulin A [53025-22-2]
Parvulin B [53025-23-3]
Parvulin C [53025-24-4]
Paxvuline A 53025-22-2
Parvuline B 53025-23-3
Paxvuline C 53025-24-4
Parwelite [12420-60-9]
Parylene [25722-33-2) (C&Ha).
Parylene C [9052-79-7] (CsHtCI).
Parylene M [31977-01-2] (CsHio).
Parylene N [25722-33-2] (CgHg).
Parylene (poly-p-xylylene) [25951-90-0] (CgHio)i
Parzate [742-59-6] C4HgN2S4.2Na
Parzate [12122-67-7] C4H6N2S«Zn
Parzate Liquid [742-59-6] C4HgN2S*.2Na
Parzate zineb [12122-67-7] C4H6N2S4Z11
Parzone [125-28-0] C18H23NO3
PAS [65-49-6] C7H7NO3
PAS 22 [9056-39-7]
PAS 311 [53664-77-0]
Pasade [733-70-8] C7H7NOj.Na
Pasaden [7256-07-5] C23H28F3N3OS.2CIH
Pasalon 1733-70-8) C7H7N03.Na
Pasalon-Rakeet [733-70-8) C7H7NOs.Na
Pasara [65-49-61 C7H7NO3
Pasara calcium [733-75-3] C7H7NOj.1/2Ca
Pascaine [15767-73-4] C13H20N2O3.C7H7NO3
Pascoite [12049-91-1] Ca.1 /3H6O2SV10.17/ 3H2O
Pa^oite [12135-52-3] Ca.i/2H40nV6.> 1/2H2O
Pasem [65-49-6] C7H7NO3
P3 Asepto 68 [ 72772-94-0]
Paseptol 194-73-3] C10H12O3
Pa.««
PASO 8 [32054-59-4] (CioHi«04-C6Hio04.C«HioOj),
Pasolac [65-49-6] CtHtNOs
103
-------
APPENDIX 5
Identifying Chemical Substances
Which Have No Known CAS Registry Number
All chemical substances which are reported for the In-
ventory must be identified clearly. For a substance with a
Chemical Abstracts Service (CAS) Registry Number, reporting
the CAS Registry Number and either a specific chemical name
or EPA Code Designation ensures its unambiguous identifica-
tion for the Inventory. To report a chemical substance
which has no known CAS Registry Number, chemically descrip-
tive information of the type specified in this Appendix must
be submitted using Form C. Such information should be
entered in the appropriate spaces provided in Block V of
Form C. Supplemental sheets, if needed, should be attached
to the form and bear the identifying Form Number of the
specific Form C to which they are attached. (The Form
Number appears in the upper left-hand corner of each Form.)
Class 1 and Class 2 Chemical Substances
The type of chemically descriptive information required
to identify properly a chemical substance depends on whether
the substance is a Class 1 or Class 2 substance.
A Class 1 substance is a chemical substance whose
composition, except for impurities, can be represented by a
definite chemical structure diagram. Examples of Class 1
substances are: trichloroethylene, benzene, sodium chlor-
ide, and dimethylmercury.
A Class 2 substance is a chemical -substance whose
composition, except for impurities, cannot be represented by
a definite chemical structure diagram. Examples of Class 2
substances are: linseed oil, chlorinated butyl rubber, and
the glycerol monoester of hydrogenated cottonseed oil acids.
Polymers which are prepared solely using Class 1 mono-
mers are considered Class 1 substances. On the other hand,
polymers (for example, alkyd resins) which are prepared
using, in whole or in part, Class 2 monomers are considered
Class 2 substances.
Reporting the Identity of a Class 1 Chemical Substance
The following information must be reported to identify
a Class 1 chemical substance which has no known CAS Registry
Number:
I. a specific chemical name,
II. the molecular formula, and
III. the chemical structure diagram.
Each item of information listed above is important to
the proper identification of a Class 1 chemical substance
and is discussed in detail below. In addition, several
examples are provided which illustrate the type of infor-
mation needed to identify and report a Class 1 chemical
substance.
I. A Specific Chemical Name
In the space under "Specific Chemical Name" in Block V
of Form C, a name should be entered which clearly and uniquely
identifies the chemical substance being reported. The name
should identify the positions of attachment of chemical
105
-------
groups or of unsaturation, if any, by the use of locants.
(Locants are numerals or Greek or Roman letters commonly
used in a chemical name to designate the positions of un-
saturated bonds or attachments of chemical groups in a
molecule.) Failure to use locants in naming a substance
which has several isomeric forms will create ambiguity in
the identification of the specific chemical substance being
reported. The following names, as examples, are ambiguous:
ansidine, chlorotoluene, nitrosonaphthol, picolene, xylene.
Chemical groups should also be described by terms which are
unambiguous (e.g., "octyl" should not be used if "2-ethylhexyl"
is meant). Stereochemical descriptors should be included in
the substance name whenever appropriate.
If the substance is a salt, an ester, or an addition
compound and one or both of the components are polybasic,
the name should clearly specify the ratio of the components
(or note that the ratio is unknown). For example:
Fumaric acid, monosodium salt
Mono(2-ethylhexyl) citrate
Glycerol 1,3-dibenzoate
It is essential that the specific chemical name you
enter be unambiguous with respect to the chemical substance
you are reporting. The name is the first item of informa-
tion used in identifying a chemical substance. Any incon-
sistency among the name, the molecular formula, and the
chemical structure diagram will necessarily require further
clarification on your part before the chemical substance can
be entered on the Inventory.
EPA also encourages you to enter, following the spe-
cific chemical name and separated by semicolons, other
common names by which the chemical substance is identified
in the scientific and technical literature, or in product
listings. Do not, however, enter trademarks, abbreviations,
acronyms, or laboratory designations.
11• The Molecular Formula
The molecular formula for a Class 1 chemical substance
should be entered on the line provided in Block V. This
formula is simply an inventory or summation of the kinds and
numbers of atoms present in a molecule of the reported
chemical substance. For example, is the molecular
formula for benzene, and C~H, is the molecular formula for
ethane.
In the case of salts or addition compounds, the molecular
formula may be presented in either a single summation format
or in the "dot-disconnect" format used by CAS. For example,
the molecular formula for the dilithium salt of succinic acid
could be presented as:
C^H^Li20^ (single summation format)
OR
C4H6°4"2L^ (^ot-disconnec't format).
NOTE: In the "dot-disconnect" format- the molecular
formula for metal salts of acids irv des the molecular
formula of the neutral acid. Althc acidic hydrogen
atoms may be lost in salt formation hey are, neverthe-
less, included in this format. Ac drogen atoms
lost in salt formation are not shown in the single
summation format.
106
-------
The molecular formulas for polymers, copolymers, and
chemical substances comprised of polymeric repeating units
may be presented in the manner described in the Molecular
Formulas subsection of Appendix 3.
Ill. The Chemical Structure Diagram
The chemical structure diagram should be entered in the
space provided within Block V and should clearly indicate
the identity of the atoms and the nature of the bonds join-
ing the atoms. Commonly used functional group abbreviations
or shortcuts are acceptable as long as they are unambiguous.
For example:
-Me
-SO.
-Et
-NO.
-Pr
-C0-
-co2h
-CH0
-SOgH
-Ph
Alkyl groups represented by summation-type formulas (e.g.,
C^Hg- or CgH^-) will be assumed to be normal or "straight
chain" unless otherwise designated (e.g., tert-C.H.-).
Carbon atoms in ring systems and their attached nyarogen
atoms need not be explicitly shown. For example:
Og 0
H
Any ionic charges or stereochemistry should be shown clearly.
All known stereochemical details should be provided. There
should also be some indication whether the stereochemistry
shown in the diagram is absolute or merely relative. For
example:
Me
trans
(i.e., relative)
Once again, just as in the case of the chemical substance
name, the ratio of the components for an addition compound
or salt should be indicated clearly if more than one form is
at least theoretically possible. For example:
(H02CCH2)2NCH2CH2N(CH2C02H)2 disodium salt
(H02CCH2)2NCH2CH2N(CH2C02H)2 tetrasodium salt
}'2N—tCH2}-g—NH2 dihydrochloride
Laj3s 1 Chemical Substance Identification Examples
"he eight examples which follow illustrate the informa-
nt .--eded to identify Class 1 chemical substances properly,
ve sxamples are headed by a substance name which is too
ous to be used as a Class 1 substance name. In such
cases, the comment points out the ambiguity. Proper informa-
tion (name, formula, structure) for the identification of a
specific Class 1 substance is then presented.
absolute
Me
0"
CI
(i.e., racemate)
107
-------
A. N-(isobutoxymethyl)acrylamide:
Comment: This chemical name unambiguously identifies a
Class 1 substance.
NAME: N-(isobutoxymethyl)acrylamide
FORMULA: C8H15N02
«
STRUCTURE: CH_=CH-C-NH-CH„-0-CH„-CH-CH
2 II 2 2 I
0 CH3
B. Dixylylethane:
Comment: The name dixylylethane is ambiguous without
the use of locants. The simple incorporation of lo-
cants into the name can eliminate the ambiguity. A
specific Class 1 substance would be identified as:
NAME: 1,l-Di-3,4-xylylethane
OR
1,1-Bis(3,4-dimethylphenyl)ethane
FORMULA: ClgH22
STRUCTURE:
.Me
-Me
C. cis- and trans- Piperylene
Comment: Piperylene, or 1,3-Pentadiene, can be found
on the Candidate List with CAS Registry Number 504-60-
9. This CAS Registry Number, however, is for the non-
stereospecific form of the substance. The cis- and
trans-piperylenes, if reported as individual chemical
substances, should clearly distinguish between the two
isomeric forms.
NAME: cis-Piperylene NAME: trans-Piperylene
(OR cis-1,3-Pentadiene) (OR trans-1,3-
Pentadiene)
FORMULA: C5Hg
STRUCTURE: Me
H
\ _/
/ \
CH=CH.
H
FORMULA: C5HQ
STRUCTURE: Me
/ \
CH=CH,
108
-------
4
cis-3-Methy1-A -tetrahydrophthalic anhydride
4
Comment: While the name 3-Methyl-A -tetrahydrophthalic
anhydride is a systematic or descriptive substance
name, the designation cis is ambiguous. Inspection of
the structural diagram for this substance shows three
asymmetric carbon atoms, that is carbon atoms joined to
four different atoms or groups of atoms.
Points of
asymmetry
The stereochemical designation "cis" indicates that two
chemical groups or atoms are located on the same side
of a reference plan through the molecule (in this case,
the cyclohexene ring). It would take two such designa-
tions to uniquely describe the relationship among the
three centers.
The following data would be adequate to describe the
substance perhaps intended.
4
NAME: cis,cis-3-Methy1-A -tetrahydrophthalic anhydride
OR
4
cis-3-Methyl-cis-& -tetrahydrophthalic anhydride
FORMULA: C9H10°3
STRUCTURE: Me 0
Sodium sebacate 0
Comment: Sebacic acid is a dibasic acid (i.e., de-
canedioic acid). Sodium sebacate could refer to the
mono- or di- sodium salt. If the designation "sodium
sebacate" refers to the fully neutralized acid, the
precise designation "disodium sebacate" should be used
to eliminate the ambiguity. The proper reporting in
that case would be:
NAME: Disodium sebacate
FORMULA: C^H^O^Na OR c10Hi
STRUCTURE: H02C tCH2^-g C02H •
OR
H02C—*CH2-)-g—C02H salt
OR
Na02C—
-------
F.
Chromium manganese oxide
Comment: The reporting of mixed metal compounds con-
taining hydroxyl(-0H), oxy(-O-), oxo(=0), or peroxy(-0-
0-) groups presents special problems. Depending upon
the nature of the metals involved, these compounds may
be represented as salts of inorganic oxo acids or as
mixed metal oxides with no attempt to elucidate the
structure beyond the basic elemental composition. The
substance CrMnO. can be represented in three ways —
the chromium (2+) salt of manganic acid, the manganese
(2+) salt of chromic acid or simply as chromium mang-
anese oxide, i.e., structure unknown. The reporting of
such substances, however, should be as specific as
possible. The use of Stock Numbers in inorganic sub-
stance names is encouraged. (Stock numbers are Roman
numerals added parenthetically to indicate the state or
states of oxidation.) For example:
Iron(II) oxide FeO
Iron (III) oxide Fe20^
Iron(II,III) oxide Fe^O^
The following shows a preferred format for reporting a
specific form of chromium manganese oxide.
NAME: Manganese(II) chromate(VI)
FORMULA: H^CrO.-Mn OR MnCrO.
2 4 — 4
STRUCTURE: 0 0
U II 2+
HO-Cr-OH • Mn OR "O-Cr-O" Mn
II — II
0 0
G. Maleic acid-phthalic acid-propylene glycol terpolymer
Comment: Synthetic polymers reported for the Inventory
should be identified by name, structure, and formula in
terms of the monomer(s) from which they have been
prepared. Also see "Reporting Polymers" in Chapter 2,
page 6
NAME: Maleic acid-phthalic acid-propylene glycol terpolymer
FORMULA: (C .H .0. • CoHr0. • C-,Ho0o)
444 864 3 8 2 x
STRUCTURE: H H C0„H
\ /
/ \.
2
c=c || | . ch3chch2oh
vH02C co2h ^ c°2H oh
;;.e that the structure diagram for maleic acid
arly shows the cis-configuration.]
OR
110
I
-------
Using information from the Candidate List:
(maleic acid
v110-16-7
phthalic acid
88-99-3
propylene glcycol
57-55-6 /
H. Disodium salt of polyethylene glycol lauryl ether
monosulfosuccinate
Comment: Polyethylene glycol and polypropylene glycol
and their many derivatives are most conveniently repre-
sented on the basis of a structural repeating unit for-
mula which simplifies the description of the end groups,
The preferred reporting would include:
NAME: Disodium salt of polyethylene glycol lauryl
ether monosulfosuccinate
FORMULA: (C^O) nc16H30O7S• 2Na
OR
(C2H4°>nC16H28Na2°7S
STRUCTURE:
SO-jH
HO~CCH -CHC tOCH _ CH ^—
Z Z t\ Z Z n
'OC12H25*2Na
OR
SOjNa
Na0oCCHoCHC fOCH0CH0-) OC, 0H0C
Z Z it Z Z n ±Z Z5
OR
C, ~H
12 25
4och2ch2^
SO-jH
I
0CCHCH2C02H-2Na
OR
C, ~H
12 25
4°CH2CH2V
SO^Na
I
•OCCHCH0C00Na
II 2 2
O
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Reporting the Identity of a Class 2 Chemical Substance
The following information should be reported to identify
a Class 2 chemical substance having no known CAS Registry
Number:
I. a specific name, and
II. the method of preparation.
Each item of information listed above is important for
the identification of a Class 2 chemical substance. In
addition, some Class 2 substances may be represented by a
partial or incomplete chemical structure diagram, or may be
described in terms of their general chemical composition.
Each of these items of information is discussed below and
illustrated by several examples.
I. A Specific Name
A Class 2 chemical substance should be identified by a
name, entered in the space below "Specific Chemical Name" of
Block V, which is as descriptive of the substance as possi-
ble. In some cases, the name may take the form of a speci-
fic chemical name containing locants, component ratios, and
stereochemistry. In other cases, the best possible name may
only identify the substance as the reaction product of
specified reactants. Colour Index names and Enzyme Commis-
sion numbers are particularly useful and appropriate desig-
nations for dyes and enzymes, respectively. Bacteria and
fungi (including yeasts) should be identified by their
scientific (i.e., genus/species) names to provide maximum
specificity.
EPA encourages you to enter, following the specific
name and separated by semicolons, other common names by
which the chemical substance is identified in the scientific
and/or technical literature, or in product listings. Do
not, however, enter trademarks, abbreviations, acronyms, or
laboratory designations.
* The Method of Preparation
In the space provided in Block V, enter a description
of the final step of the method used to manufacture or pro-
duce the Class 2 chemical substance.
For substances prepared by chemical reaction, the de-
scription should appear in the form of a reaction scheme,
for example:
A + B -~ C.
The final reaction scheme should unambiguously identify, by
name, the immediate precursor substance(s), the nature of
the reaction, and the reactants whether or not they are
implied by the term used to describe the nature of the reac-
tion. The precursor substance(s) and/or the reactants
should also be identified by their respective CAS Registry
Number(s), if known. Reaction description terms should be
as specific as possible (e.g., acetylation, alkaline hydro-
lysis, chlorination, diazotization, epoxidation). General
reaction terms should, if at all possible, not be used
(e.g., addition, condensation, reaction). The examples
which follow this discussion indicate the appropriate place-
ment of such information in the reaction scheme.
If a Class 2 chemical substance is produced by you
through several different final reaction schemes, describe
each of these final reaction schemes. For example, if it is
produced by either A+B+CorbyD+E+C. Describe C in
terms of both of these final reaction schemes.
112
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For substances which have been produced without chem-
ical reaction, for example, by extraction from a natural
source or reaction mass, specify the source, extraction
process and the nature of the extract.
Other Information
In some cases, a Class 2 chemical substances can be
represented by a partial or incomplete chemical structure
diagram. For example:
A. Hexabromobiphenyl
& ^^ hexabromo derivative
B. Sodium butyl (o_-hydroxypheny 1)benzenesulfonate
OH
Bu
S03Na
C. Ethoxylated hydrogenated tallow amide
R-C-N'
II
0
(CH2CH20)xH
(CH2CH20)yH
R-C- = hydrogenated tallow fatty acid radical
0
In such cases, enter in Block V the partial structural dia-
gram of the reported Class 2 chemical substance, denoting it
as such, in addition to its method of preparation.
In those cases where the general composition of the
Class 2 substance is known, enter in Block V the major
components in addition to method of preparation of the
chemical substance (see Example A below).
Class 2 Chemical Substance Identification Examples
The seven examples listed below demonstrate how to
identify properly a Class 2 chemical substance. Each ex-
ample is headed by a common substance name.
A. Superphosphate
Comment: Superphosphate is a fertilizer obtained by
treating phosphate rock with sulfuric acid. It may be
reported in the following manner:
NAME: Superphosphate
H2S04(7664-93-9)
PREPARATION: Phosphate rock »
Consists predominately of CaH^(PO^)2, CaHPQ^, and
113
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B. Chlorinated butyl rubber
Comment: Chlorinated butyl rubber is obtained by
chlorination of butyl rubber, which is a copolymer of
isobutylene and isoprene.
NAME: Chlorinated butyl rubber
PREPARATION: (isobutylene-isoprene).
copolymer
9010-85-9
C1S02C1 (7791-25-5)
chlorination
(CH0-C=CH_
3 I 2
/
CH.
OR
ch0=ch-c=ch2)x
3
-v^—V
L
copolymer
9010-85-9
C1S02C1 (7791-25-5)
chlorination
C. Blown Castor Oil
Comment: Blown castor oil is prepared £y contacting
castor oil with air or oxygen at 80-130 C. This results
in oxidation along with some polymerization.
NAME: Blown castor oil
OR
Oxidized castor oil
O, (7782-44-7)
PREPARATION: Castor oil —
*8001-79-4 80-130 C
Oxidation plus some polymerization
D. Linseed oil-phthalic anhydride-glycerol resins
Comment: Linseed oil-phthalic anhydride-glycerol
resins should be reported on the basis of their mono-
meric components like any Class 1 synthetic polymer.
NAME: Linseed oil-phthalic anhydride-glycerol resin
PREPARATION: _ CH2OH
T:
Linseed oil + II I 0 + CHOH
*8001-26-1 —w I polymerization
ch2oh
56-81-5
OR
Using information from the Candidate List:
(Linseed oil\ /Phthalic anhydride\ /Glycerol \
*8001-26-1 ) ( 85-44-9 J I 56-81-5 )
kR241-4789 / \ B389-0687 / \ R002-825y polymerization
114
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C.I. Sulfur Brown 42
Comment: Sulfur dyes are made by heating organic
materials with sulfur and sodium sulfide. The exact
compositions of the resulting dyes are usually unknown.
The preferred method for reporting dyes is to include
Colour Index name.
NAME: C.I. Sulfur Brown 42
S03Na
PREPARATION: | Na2S (1313-82-2)
6274-37-9
S (7704-34-9)
->
NOTE: The sodium salt of 2-methyl-3,5-dinitrobenzene
sulfonic acid does not appear on the Candidate List.
The CAS Registry Number for this reactant was found by
consulting sources described in Appendix 4.
Anhydrosorbitol monoester of hydrogenated castor oil
acids
Comment: While sorbitol is a well defined substance,
anhydrosorbitol refers to a combination of cyclic
dehydration products and thus is a Class 2 substance.
The monoester might be reported as:
NAME: Anhydrosorbitol monoester of hydrogenated castor
oil acids
PREPARATION:
, j . j _ mono
« •, i , ^ rogena e esterification esters
Anhydrosorbitol + castor oil acids
*61790-39-4
Ethoxylated anhydrosorbitol monoester of hydrogenated
castor oil acids
Comment: The reaction product of the monoester described
in Example F with ethylene oxide would be reported as:
NAME: Ethoxylated anhydrosorbitol monoester of hydro-
genated castor oil acids
PREPARATION:
O
Anhydrosorbitol monoester / \
of hydrogenated castor + CH^ CI^
oil acids polymerization
75-21-8
115
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