Preliminary Information on Manufacturing, Processing, Distribution, Use, and Disposal: Cyclic Aliphatic Bromide Cluster (HBCD) CASRNs: 25637-99-4 3194-55-6 3194-57-8


February 2017
Office of Chemical Safety and
Pollution Prevention
U.S. EPA
Preliminary Information on Manufacturing, Processing,
Distribution, Use, and Disposal:
Cyclic Aliphatic Bromide Cluster (HBCD)
CASRNs:
25637-99-4
3194-55-6
3194-57-8
Br
February 2017
Support document
for Docket EPA-HQ-OPPT-2016-0735
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This document provides a preliminary public summary of available information collected by EPA's
Office of Pollution Prevention and Toxics (OPPT) in the Office of Chemical Safety and Pollution
Prevention (OCSPP) on the manufacturing (including importing), processing, distribution in commerce,
use, and disposal of this chemical. This is based on existing data available to EPA, including information
collected under the Chemical Data Reporting rule, information from other Agency databases, other
U.S. Government agencies, publicly available information from states, and a review of published
literature. In addition, the document includes information reported to EPA by producers and users of
the chemical in the United States and in other countries.
This preliminary use information and any additional use information received in the docket by March
15, 2017 will inform efforts to develop the scope of the chemical risk evaluation required under section
6(b)(4) of the Toxic Substances Control Act, and will inform any risk management efforts following risk
evaluation.
Mention of trade names in this document does not constitute endorsement by EPA. To verify products
or articles containing this chemical currently in commerce, EPA has identified several examples. Any
lists are provided for informational purposes only. EPA and its employees do not endorse any of the
products or companies.
This document does not contain confidential business information (CBI).
The cyclic aliphatic bromide cluster identified in EPA's 2012 TSCA Work Plan for Chemical Assessments
includes three chemicals whose CASRNs are listed on the previous page. There are no known uses of
the third chemical, 3194-57-8. Therefore, for the purpose of this document, the use of the term
"HBCD" refers to either CASRN (25637-99-4and 3194-55-6), or both. (See EPA Problem Formulation,
2015)
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TABLE OF CONTENTS
TABLE OF CONTENTS	3
CONTACT	3
MANUFACTURING, PROCESSING AND USE	4
1.	Manufacturing (Including Importing)	4
Manufacturing Process	4
2.	Processing	5
Processing of HBCD in Expanded Polystyrene (EPS)	6
Processing of HBCD in Extruded Polystyrene (XPS)	6
Processing of HBCD in Textiles	7
3.	Products and Articles	7
4.	Distribution	7
5.	Use	7
Major commercial use:	7
Minor commercial uses:	7
Uses in Consumer Products	8
Past and potential other uses	8
6.	Disposal of Waste and Recycling/Recovery	9
Disposal of Waste	9
Recycling and Recovery	9
USEFUL TYPES OF INFORMATION	10
APPENDIX: SOURCES CONSULTED	11
LIST OF TABLES
Table 1: Possible Processing Industries:	6
CONTACT
Sue Slotnick, OPPT, National Programs Chemical Division (NPCD), 202-566-1973,
slotnick.susan@epa.gov.
Docket: HQ-QPPT-2016-0735
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MANUFACTURING, PROCESSING AND USE
1. Manufacturing (Including Importing)
Data reported for the Chemical Data Reporting (CDR) period for 2016 for HBCD indicate that between 1
and 10 million pounds of HBCD were manufactured in or imported into the United States in 2015; in
2014, 2013, and 2012, between 10 and 50 million pounds of HBCD were manufactured (including
imported) each year ^2. The precise production volume is confidential business information (CBI).
HBCD is manufactured or imported as a powder or pellets and incorporated into a polymer matrix such
as polystyrene foam. (EPA Problem Formulation, 2015, section 2.4.1)
Some companies that reported information to CDR have announced their intention to discontinue
manufacturing HBCD.3
While HBCD has recently been listed as a chemical required to be reported to the Toxics Release
Inventory (TRI), reports have not yet been submitted and data are not available.
Manufacturing Process
Industries that manufacture HBCD are classified in the North American Industry Classification
System as NAICS 325 Chemical Manufacturing.
The following describes a method of manufacturing HBCD:
1	Manufacturers (including importers) are required to report under CDR if they meet certain production volume thresholds,
generally 25,000 lb or more of a chemical substance at any single site. Reporting is triggered if the annual reporting
threshold is met during any of the calendar years since the last principal reporting year. In general, the reporting threshold
remains 25,000 lb per site. However, a reduced reporting threshold (2,500 lb) now applies to chemical substances subject
to certain TSCA actions, https://www.epa.gov/chemical-data-reporting/how-report-under-chemical-data-reporting
2	Manufacture means to manufacture, produce, or import for commercial purposes. Manufacture includes the extraction,
for commercial purposes, of a component chemical substance from a previously existing chemical substance or complex
combination of chemical substances. (40 CFR 711.3)
https://www.epa.gov/sites/production/files/2015-12/documents/cdr fact sheet importers final dec2015 O.pdf
3	http://building.dow.com/en-us/newsroom/2016/20161117a (November 17, 2016);
http://www.plasticstodav.com/content/basf-switches-greener-polvfr-flame-retardant-ps-insulation-foam-
portfolio/9557530021539 (November 25, 2014);
http://www.chemanager-online.com/en/news-opinions/headlines/basf-opposes-extension-hbcd-flame-retardants (June
20, 2014);
http://www.prnewswire.com/news-releases/albemarle-to-discontinue-production-of-hbcd-based-flame-retardants-to-
focus-on-supplving-greencrest-polvmeric-fire-safetv-solutions-300262776.html (May 4, 2016); and
http://investor.chemtura.com/releasedetail.cfm?releaseid=936673 (October 14, 2015)
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"Produced by the addition reaction of bromine to trans, trans, cis-l,5,9-cyclododecatriene, the
cyclic trimer of butadiene. The hexabromocyclododecane that is obtained from this reaction
consists of a mixture of stereoisomers of 1,2,5,6,9,10-hexabromocyclododecane ranging from
oils to an isomer with a 205-208 deg C melting point. Commercially
available hexabromocyclododecane contains a mixture of solid isomers and has a melting point
range of 170-180 deg C (185-195 deg C)."
Ullmann's Encyclopedia of Industrial Chemistry. 6th ed. Vol 1: Federal Republic of Germany: Wiley-VCH
Verlag GmbH & Co. 2003 to Present, p. V5 625 (2003).
2. Processing
Processing4 of HBCD includes the following uses, which were reported to CDR during the 2016
reporting period:
• Processing into a reactant or incorporation into a formulation, mixture, reaction product, or
article
• Basic inorganic chemical manufacturing
• Plastic material and resin manufacturing
• Plastics product manufacturing
• Flame retardants, intermediates, other
In 2015, EPA found that the majority of HBCD was used as a flame retardant in Expanded Polystyrene
(EPS) and Extruded Polystyrene (XPS) products such as insulation boards in building construction. (EPA
Problem Formulation, 2015, section 2.2.2.1) HBCD is incorporated into a polymer matrix such as
polystyrene foam. (EPA Problem Formulation, 2015, section 2.4.1)
4 The term "process" means the preparation of a chemical substance or mixture, after its manufacture, for distribution in
commerce—
(A) in the same form or physical state as, or in a different form or physical state from, that in which it was received by the
person so preparing such substance or mixture, or
(B) as part of an article containing the chemical substance or mixture.
http://uscode. house.gov/view.xhtml?path=/prelim(Stitlel5/chapter53&edition=prelim
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Table 1: Possible Processing Industries:
NAICS CODE
NAICS TITLE
32521
Plastics Material and Resin Manufacturing
325991
Reformulating plastics resins from recycled plastics products
424690
Other Chemical and Allied Products Merchant Wholesalers
326140
Polystyrene Foam Product Manufacturing
326199
Radio housings, plastics, manufacturing
6140
Sheet (i.e., board), polystyrene foam insulation, manufacturing
313312
Textile and Fabric Finishing (except Broadwoven Fabric) Mills
313320
Fabric Coating Mills
314110
Carpet and Rug Mills
314999
All Other Miscellaneous Textile Product Mills
337127
Institutional Furniture Manufacturing
336360
Motor Vehicle Seating and Interior Trim Manufacturing
The following information on processing of HBCD into insulation boards and textiles is from "EPA
Design for the Environment Alternatives Assessment for HBCD," 2014, pp 2-5, 2-6)
https://www.epa.gov/sites/production/files/2014-06/documents/hbcd report.pdf)
Processing of HBCD in Expanded Polystyrene (EPS)
EPS is a rigid foam insulation produced by expansion and molding of expandable polystyrene resin
beads. To manufacture EPS, first a polystyrene resin is produced via suspension polymerization by
chemical manufacturers. HBCD and a blowing agent, usually pentane, are added to the resin during the
polymerization process. Synergists are often used with HBCD in EPS foam to allow the concentration of
HBCD to be reduced. There is also a less economical two-step technology for manufacturing EPS resin
that for the most part has been replaced with the one-step process described here (Grant 2011).
The expandable resin is sold and transported to molders to create EPS foam. At the molding plant, the
polystyrene resin is first expanded into foam beads via the direct application of steam, which causes
the blowing agent in the resin to expand. Following an aging/maturing step of approximately 2 to 24
hours, the expanded foam beads are molded into rigid closed-cell foam. This process produces blocks
of foam which are cut to desired shapes (such as insulation board) and thicknesses with hot wires
(COWI 2011; EPS Industry Alliance 2011a). Alternatively, the expanded foam beads may be molded into
custom shapes to produce rigid foam construction elements, such as ICFs. This process typically takes
place at temperatures of 120°C (COWI 2011) or below. Trim scrap from the cutting operation can be
recycled into the molding operation under controlled conditions while maintaining required properties.
Molding plants are typically strategically located around the country to minimize the shipping costs of
transporting the lightweight foams to end users.
Processing of HBCD in Extruded Polystyrene (XPS)
XPS is a rigid foam insulation board produced by an extrusion process. To manufacture XPS,
polystyrene resin granules and additives, including blowing agents (typically hydrofluorocarbons (HFCs)
and flame retardants (i.e., HBCD), are mixed in an extruder. The resulting mixture is melted at high
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pressure and high temperatures (ranging from 180-230°C) into a viscous plastic fluid. Due to these high
processing temperatures, HBCD is stabilized with chemical additives to limit effects of any HBCD
decomposition during manufacture, as is discussed in more detail below. Next, the viscous fluid is
forced through a die, expanded into a foam and shaped. The foamed mixture is cooled into continuous
sheets (boards) of closed-cell insulation. The boards are cut to size and production waste is
reprocessed (Wilson 2005; COWI 2011; Extruded Polystyrene Foam Association 2011a; Fabian 2011).
Processing of HBCD in Textiles
For use in textiles, HBCD is formulated into polymer-based dispersions (e.g., acrylic or latex) of variable
viscosity, which are then processed in the textile finishing industry (Harscher 2011).
3. Products and Articles
The products and articles that may contain HBCD are described in EPS, XPS, and textile descriptions
above.
4. Distribution
Based on information reported to CDR for 2016, six facilities manufacture or import HBCD for
wholesale and retail trade. HBCD is available for purchase online from chemical suppliers.
5. Use
Major commercial use:
The main use of HBCD in the US is as a flame retardant in expanded polystyrene foam (EPS) and
extruded polystyrene foam (XPS) (UNEP, 2010; Weil and Levchik, 2009). Use in EPS and XPS accounts
for 95 percent of all HBCD applications and began in the 1980s (EPA, 2014b; UNEP, 2010).
EPS and XPS are used in the US for thermal insulation boards and laminates for sheathing products
used in the building and construction industry. In addition, EPS is used to provide protection from
moisture, prevent freezing, provide a stable fill material, and create high-strength composites in
construction applications. XPS foam board is used mainly for roofing applications and architectural
molding. HBCD is used in both types of foams, because it is highly effective at low-use levels, and
therefore maintains the insulation properties of the EPS and XPS foam (Morose, 2006). EPS boards
contain approximately 0.5 percent HBCD by weight in the final product while XPS boards contain 0.5
to 1 percent HBCD by weight (Extruded Polystyrene Foam Association, 2011; Morose, 2006). (Source
for this subsection: EPA Problem Formulation, 2015, section 2.2.1)
Minor commercial uses:
In the United States, HBCD was historically used as a flame retardant in the backcoating oftextiles.
However, supported by information gathered from research, industry, and consumer product
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organizations, EPA/OPPT believes that HBCD is no longer used in consumer textile applications
outside of the auto industry. EPA/OPPT received information from a group of textile formulators that
the end uses of HBCD-containing textiles are for military, institutional, and aviation applications such
as durable carpet tiles for hospitals or prisons (EPA, 2012e; Friddle, 2011). Use in this application is
quite small; in 2005 only 1 percent of total production volume of HBCD was used in textiles in the US
(EPA, 2012e). HBCD is typically found in textile back coatings at levels of 10-25 percent (Harscher,
2011). (Source for this subsection: EPA Problem Formulation, 2015, section 2.2.2.2.)
Uses in Consumer Products
In 2011, EPA investigated use of HBCD in textiles available for sale to consumers. The only uses were
in floor mats, headliners, and possibly other interior fabrics in automobiles made in or imported to
the US (EPA, SNUR 2015). HBCD is currently regulated under Annex XIV of European Union's
Regulation on Registration, Evaluation, Authorisation and Restriction of Chemicals (REACH), which set
a "sunset date" for the use of the chemical of August 21, 2015. In response to the REACH regulation,
the auto industry has formed a consortium to help US manufacturers understand the new
requirements; develop tools, processes and best practices; and coordinate compliance efforts. The
consortium consists of five North American sponsoring companies: Chrysler, Ford, General Motors,
Honda, and Toyota (AIAG, 2011). It is likely that as companies discontinue the use of HBCD in
European cars to comply with the REACH regulation, they will discontinue its use in North American
automobiles as well. (EPA Problem Formulation, 2015, section 2.2.2.2.1)
A very small number of individual consumer items containing HBCD were recently identified by the
state of Washington: a plastic protective glove (material also identified as "glove rubber palm fabric")
and a bean bag chair, https://fortress.wa.gov/ecy/publications/documents/1404021.pdf
The Ecology Center in Ann Arbor, Michigan tested for flame retardant chemicals in child car seats for
automobiles. In a 2016 report, the center identified brominated cyclododecanes (without determining
the degree of bromination) in two car seats. The Ecology Center expects that these chemicals are
HBCD. See page 10 at: http://www.ecocenter.org/healthy-stuff/pages/download-print-report-graphics
Past and potential other uses
EPA identified potential end-products identified by EPA in 2015 based on data from the Consumer
Product Safety Commission in 2001 and the European Chemicals Agency (ECHA) in 2008 and 2009:
•	Insulation in non-construction application (e.g. refrigerated transport)
•	Insulation boards against frost heaves of road and railway embankments
•	High impact polystyrene (HIPS) for electrical and electronic equipment such as refrigerator
lining, wire and cable applications, computers
•	Distribution boxes for electrical lines
•	Upholstered furniture, draperies, wall coverings, and interior textiles such as roller blinds
Source: (See EPA Problem Formulation, 2015, p. 20, 68)
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Potential Uses Based On Current International Uses of HBCD:
Researchers in the Republic of Korea detected HBCD in food-related polystyrene products and buoys
used for oyster farming. http://dx.doi.Org/10.1016/i.chemosphere.2014.02.022
The Australian Department of Health and Aging reports that minimal amounts of HBCD are used in
industrial packaging including packaging durable goods and beanbag fill and imported into the country
already incorporated into various articles such as inkjet printers, projectors, scanners, ventilation
units for offices, compact fluorescent lights, and LCD digital audiovisual systems (NICNAS, 2012).
There are no data to indicate that HBCD is used in the US for these uses. (Source for this subsection:
EPA Problem Formulation, 2015, section 2.2.2.2.
6. Disposal of Waste and Recycling/Recovery
Disposal of Waste
TRI data are not yet available for HBCD, but releases from industrial sites to waste water treatment
plants (WWTP), surface water, air and landfill are expected (EC, 2008; Environment Canada, 2011;
NICNAS, 2012). HBCD is expected to remain largely immobile in landfills (EPA, 2014) and therefore
industrial releases to water and air are of greater interest to EPA/OPPT than industrial releases to
landfills. Disposal of EPS and XPS may result in releases to the environment as a result of demolition
of buildings or material that is left on or in the soil (EPA, 2014); EPA/OPPT believes these releases are
likely to be lower than industrial releases on a per-site basis. (Problem Formulation, Section 2.4.1)
Recycling and Recovery
Polystyrene insulation board may be recycled into new polystyrene boards or other applications
(European Commission 2008; Sail 2010). Polystyrene is easier to recycle compared to other foam
insulation materials because it can be melted and reformed with minimal chemical modification (U.S.
Department of the Interior n.d.). To do so, the polystyrene is melted and re-expanded into insulation
or packaging (Wilson 2005). For example, used EPS insulation boards may be ground up and molded
with virgin EPS to form new boards (European Commission 2008).
Similarly, XPS may also be melted and reused in the manufacture of new insulation board (Herrenbruck
n.d.). Due to the use of flame retardants (i.e., HBCD), as well as the dust and dirt accumulated during
use and removal, used EPS and XPS can typically only be recycled into building insulation, and cannot
be recycled into non-building applications, such as packaging (U.S. Department of the Interior n.d.).
Although there is some recycling of polystyrene insulation in Europe - for example, Germany collects
used polystyrene and recycles it into building insulation on a national level (European Commission
2008) - it is unclear to what extent the recycling of EPS and XPS takes place in the United States
(Herrenbruck n.d.). (EPA Design for the Environment Alternatives Assessment for HBCD, 2014, Section
2.2.1)
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USEFUL TYPES OF INFORMATION
This document presents a summary of information currently available to EPA on this chemical. To more
fully characterize the manufacturing, processing, distribution, disposal, and use of this chemical, and to
inform the development of the scoping document for this chemical, EPA is interested in obtaining
additional information on:
•	the expected trends in manufacturing and import volumes of this chemical;
•	the overall number and location of sites which process, distribute, use, recycle, or dispose of the
chemical;
•	the functional uses for this chemical;
•	which industry sectors use this chemical;
•	what concentrations (weight fraction) of the chemical are used in industrial, commercial, and
consumer applications;
•	what types of products or articles contain this chemical;
•	what are patterns of distribution, e.g. internet sales;
•	what volume of the chemical is used for each type of use (e.g. insulation, textiles);
•	which uses have been discontinued or phased out;
•	the likelihood that other chemicals will replace this chemical and what are they;
•	the likelihood that HBCD will replace other flame retardants that are phasing out;
•	uses for recycled HBCD-containing materials;
•	approximate number and description of individuals who can be exposed to the chemical, e.g.
industrial workers, commercial workers, high-frequency consumer use, low-frequency
consumer use, children, etc; and
•	the typical setting for use (e.g. outdoors, indoors, industrial commercial, residential, vehicular)
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APPENDIX: SOURCES CONSULTED
•	U.S. EPA Chemical Inventory
https://www.epa.gov/tsca-inventory
•	U.S. EPA ChemView
https://iava.epa.gov/chemview
•	TRI P2 information
https://www.epa.gov/toxics-release-inventorv-tri-program/pollution-prevention-p2-and-tri
•	U.S. EPA HPVHC (access through Chemical Data Access Tool - CDAT)
https://java.epa.gov/oppt chemical search/
•	U.S. EPA HPVIS and HPV HC (access through Chemical Data Access Tool - CDAT)
https://java.epa.gov/oppt chemical search/
•	DfE Alternatives Assessments
https://www.epa.gov/saferchoice/design-environment-alternatives-assessments
•	Safer Chemical Ingredients List
https://www.epa.gov/saferchoice/safer-ingredients
•	Green Chemistry awards
https://www.epa.gov/greenchemistry/presidential-green-chemistry-challenge-winners
•	Greener products and services
https://www.epa.gov/greenerproducts/identify-greener-products-and-services
•	Pollution Prevention
https://www.epa.gov/p2/pollution-prevention-case-studies
https://www.epa.gOv/p2/grant-programs-pollution-prevention#sra
https://www.epa.gov/p2/pollution-prevention-tools-and-calculators
•	U.S. EPA InertFinder
https://iaspub.epa .gov/apex/pesticides/f?p=101:l:
•	U.S. EPA Pesticide Chemical Search
https://iaspub.epa.gov/apex/pesticides/f?p=CHEMICALSEARCH:l:0::NO:l::
•	U.S. EPA Endocrine Disruptor Screening Progmrn
https://www.epa.gov/ingredients-used-pesticide-products/endocrine-disruptor-screening-
program-tier-l-assessments
•	U.S. EPA Hgzgrdous Wgste
https://www.epa.gOv/hw/learn-basics-hazardous-waste#regulations
•	U.S. EPA Superfund chemicgl dgtg mgtrix
https://www.epa.gov/superfund/superfund-chemical-data-matrix-scdm-query
•	U.S. EPA Hgzgrdous Air Pollutgnts
https://www.epa.gov/haps/initial-list-hazardous-air-pollutants-modifications
•	U.S. EPA Significgnt New Alterngtives Policy (SNAP)
https://www.epa.gov/snap
•	U.S. EPA Volgtile Orggnic Compounds
https://www.epa.gov/indoor-air-qualitv-iaq/technical-overview-volatile-organic-
compounds#definition
•	U.S. EPA Toxic gnd priority pollutgnts under the Clegn Wgter Act
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https://www.epa.gOv/eg/toxic-and-priority-pollutants-under-clean-water-act#toxic
•	U.S. EPA Contaminant Candidate list under the Safe Drinking Water Act
https://www.epa.gOv/ccl/contaminant-candidate-list-3-ccl-3#chemical-list
•	U.S. EPA IRIS Assessment
https://cfpub.epa.gov/ncea/iris2/atoz.cfm
•	U.S. EPASffS
https://iaspub.epa.gov/sor internet/registry/substreg/searchandretrieve/substancesearch/search.
do
•	U.S. EPA Chemical and Product Categories (CPCat) Database
https://actor.epa.gov/cpcat/faces/home.xhtml
•	U.S. National Library of Medicine ChemlDplus
https://chem.sis.nlm.nih.gov/chemidplus/
•	U.S. National Library of Medicine Hazardous Substance Data Bank (HSBD)
https://toxnet.nlm.nih.gov/newtoxnet/hsdb.htm
•	U.S. Department of Health & Human Services Household Products Database
https://hpd.nlm.nih.gov/index.htm
•	OSHA Chemical Hazards and Toxic Substances
https://www.osha.gov/SLTC/hazardoustoxicsubstances/index.html
•	NIOSH Workplace Safety and Health Topics Chemicals
http://www.cdc.gov/niosh/topics/chemical.html
•	NIOSH Pocket Guide to Chemical Hazards
http://www.cdc.gov/niosh/npg/npgdcas.html
•	CPSC Chemicals
http://www.cpsc.gov/en/Research--Statistics/Chemicals/
•	CPSC FHSA
https://www.cpsc.gov/Business--Manufacturing/Business-Education/Business-Guidance/FHSA-
Requirements/
•	Food and Drug Administration List of Databases
http://www.fda.gov/Forlndustrv/FDABasicsforlndustry/ucm234631.htm
•	NTP (National Toxicology Program) Substances studied by NTP
http://ntpsearch.niehs.nih.gov/?e=True&ContentType=Testing+Status
•	Department of Energy Protective Action Criteria Database
http://energy.gov/ehss/protective-action-criteria-pac-aegls-erpgs-teels-rev-29-chemicals-concern-
may-2016
•	California Department of Toxic Substances Control Toxics in Products
http://www.dtsc.ca.gov/PollutionPrevention/ToxicslnProducts/index.cfm
http://www.dtsc.ca.gov/SCP/CandidateChemicalsList.cfm
http://www.dtsc.ca.gov/SCP/WhatlsAPriorityProduct.cfm
•	California Office of Environmental Health Hazard Assessment Proposition 65
http://oehha.ca.gov/proposition-65/chemicals
http://oehha.ca.gov/proposition-65/proposition-65-list
•	California Office of Environmental Health Hazard Assessment Biomonitoring
http://biomonitoring.ca.gov/chemicals
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•	California permissible exposure limits for chemical contaminants
https://www.dir.ca.gov/title8/5155table acl.html
•	California hazardous substance list
https://www.dir.ca.gov/title8/339.html
•	California Safe Cosmetics Program - list of chemical agents known or suspected to cause cancer or
developmental or other reproductive harm.
http://www.cdph.ca.gov/programs/cosmetics/Pages/default.aspx
https://safecosmetics.cdph.ca.gov/search/Default.aspx
•	Maine chemicals of high concern
http://www.maine.gov/dep/safechem/highconcern/
•	Massachusetts Toxics Use Reduction Act (TURA) (link includes a link to Higher hazard substances
list)
http://www.mass.aov/eea/waste-mant-recyclina/toxics/toxic-use-reduction/toxics-use-reduction-
act/
•	Massachusetts Complete list of TURA chemicals
http://www.mass.gov/eea/agencies/massdep/toxics/tur/toxics-use-reduction-act-tura-reporting-
and-fees.html
•	Lowell Center for Sustainable Production Chemical, Policy and Science Initiative
http://www.chemicalspolicv.org/chemicalspolicy.us.state.database.php
•	Minnesota Department of Health Toxic Free Kids Act Chemicals of High Concern
http://www.hea lth.state.mn.us/d ivs/eh/hazardous/topics/toxfreekids/highconcern.html
•	Michigan Environmental Health Topics
http://www.michigan.gOv/mdhhs/0.5885.7-339-71548 54783 54784 74881-13050~.00.html
•	New Hampshire Regulated Toxic Air Pollutants
http://des.nh.gov/organization/commissioner/legal/rules/documents/env-al400.pdf
•	New Jersey Right to Know Hazardous Substances
http://web.doh.state.ni.us/rtkhsfs/rtkhsl.aspx
•	Oregon Priority Persistent Pollutants (in water)
http://www.deq.state.or.us/wq/SB737/
•	Oregon Pollutant Profiles
http://www.deq.state.or.us/wq/SB737/docs/LegRpAtt420100601.pdf
•	Oregon Reducing Toxics in Oregon
http://www.oregon.gov/deq/Pages/ToxicsReduction.aspx
•	Oregon Chemicals of Concern for Children's Health
http://public.health.oregon.gov/HealthvEnvironments/HealthyNeighborhoods/ToxicSubstances/Pa
ges/childrens-chemicals-of-concern.aspx
•	Pennsylvania Department of Labor and Industry Hazardous Substance List
http://www.pacode.com/secure/data/034/chapter323/chap323toc.html
•	Rhode Island Air Resources - Air Toxics
http://www.dem.ri.gov/pubs/regs/regs/air/air22 08.pdf
•	Vermont Chemical Disclosure Program for Children's Products
http://www.healthvermont.gov/enviro/chemical/cdp.aspx
•	Washington Chemicals of High Concern to Children
http://www.ecy.wa.gov/programs/hwtr/rtt/cspa/chcc.html
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•	Washington Children's Safe Products Act
http://apps.leg.wa.gov/RCW/default.aspx?cite=70.240
•	Washington Department of Labor & Industries SHARP Publications
http://www.lni.wa.gov/Safety/Research/Pubs/default.asp
•	National Conference of State Legislatures
http://www.ncsl.org/research/environment-and-natural-resources/state-chemical-statutes.aspx
•	Canada Chemicals Portal
http://chemicalsubstanceschimiques.gc.ca/index-eng.php
•	EU ECHA website
https://echa.europa.eu/
•	Australia NICNAS Chemical Information
https://www.nicnas.gov.au/chemical-information
•	Japan Chemical Risk Information Platform (CHIRP)
http://www.nite.go.jp/en/chem/chrip/chrip search/systemTop
•	OECD eChemPortal
http://www.echemportal.org/echemportal/index?pagelD=Q&request locale=en
•	Stockholm Convention on Persistent Organic Pollutants
http://chm.pops.int/TheConvention/ThePOPs/ListingofPOPs/tabid/25Q9/Default.aspx
http://chm.pops.int/TheConvention/ThePOPs/ChemicalsProposedforListing/tabid/251Q/Default.as
£X
•	WHO IPCS (UN)
http://www.who.int/ipcs/en/
•	Other - worker protection information
http://www.dguv.de/ifa/gestis/gestis-internationale-grenzwerte-fuer-chemische-substanzen-limit-
values-for-chemical-agents/index-2.jsp
•	DeLima Associates Consumer Product Information Database (CPID)
https://www.whatsinproducts.eom/chemicals/index/l
•	SRC FatePointers Search Module PHYSPROP
http://esc.syrres.com/fatepointer/search.asp
•	Product and company websites
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