Specification
Ingredient Material name TEEL-1 TEEL-2 TEEL-3
Ingredient Original IDLH Revised IDLH
INGREDIENT DATA
Source Ingredient Material name TWA STEL Peak Notes
US ACGIH Threshold Limit
Values (TLV)
propylene glycol
monomethyl ether
- mixture of
isomers
1-Methoxy-2-propanol 50 ppm 100 ppm
Not
Available
TLV® Basis: Eye & URT irr
US NIOSH Recommended
Exposure Limits (RELs)
propylene glycol
monomethyl ether
- mixture of
isomers
Dowtherm® 209,
1-Methoxy-
2-hydroxypropane,
1-Methoxy-2-propanol,
2-Methoxy-
1-methylethanol,
Propylene glycol methyl
ether
360
mg/m3 /
100 ppm
540
mg/m3 /
150 ppm
Not
Available
Not Available
US OSHA Permissible
Exposure Levels (PELs) -
Table Z1
titanium dioxide Titanium dioxide
15
mg/m3
Not
Available
Not
Available
Total dust
US ACGIH Threshold Limit
Values (TLV)
titanium dioxide Titanium dioxide
10
mg/m3
Not
Available
Not
Available
TLV® Basis: LRT irr
US NIOSH Recommended
Exposure Limits (RELs)
titanium dioxide
Rutile, Titanium oxide,
Titanium peroxide
Not
Available
Not
Available
Not
Available
Ca See Appendix A
US OSHA Permissible
Exposure Levels (PELs) -
Table Z1
sodium
aluminosilicate
Silicates - Mica /
Silicates - Soapstone /
Silicates- Soapstone /
Silicates - Talc / Silicates
- Tremolite, asbestiform
0.1
mg/m3
Not
Available
Not
Available
See Table Z-3;less than 1% crystalline silica(respirable dust)
/ See Table Z-3;less than 1% crystalline silica, total dust /
See Table Z-3;less than 1% crystalline silica, respirable dust
/ less than 1% crystalline silica;see 29 CFR 1910.1001;See
Table Z-3;(containing asbestos); use asbestos limit; (STEL
(Excursion limit)(as averaged over a sampling period of 30
minutes)) / less than 1% crystalline silica;See Table Z-3,
(containing no asbestos), respirable dust / (as quartz),
respirable dust;ess than 1% crystalline silica;see
1910.1001;(STEL (Excursion limit)(as averaged over a
sampling period of 30 minutes))
US OSHA Permissible
Exposure Levels (PELs) -
Table Z3
sodium
aluminosilicate
Silicates: Mica / Silicates:
Soapstone / Silicates:
Talc / Silicates: Tremolite,
asbestiforms
0.1 f/cc /
20 mppcf
Not
Available
Not
Available
(less than 1% crystalline silica) / (containing asbestos) Use
asbestos limit;(less than 1% crystalline silica) / (see 29 CFR
1910.1001);(less than 1% crystalline silica)
US NIOSH Recommended
Exposure Limits (RELs)
sodium
aluminosilicate
Synonyms vary depending
upon the specific
aluminum compound.
5 mg/m3
/ 2
mg/m3
Not
Available
Not
Available
Not Available
US ACGIH Threshold Limit
Values (TLV)
diethylene glycol
monobutyl ether
Diethylene glycol
monobutyl ether
10 ppm
Not
Available
Not
Available
TLV® Basis: Hematologic, liver & kidney eff
EMERGENCY LIMITS
propylene glycol monomethyl
ether - mixture of isomers
Propylene glycol monomethyl ether; (Ucar Triol HG-170) 100 ppm 160 ppm 660 ppm
titanium dioxide Titanium oxide; (Titanium dioxide) 30 mg/m3 330 mg/m3 2,000 mg/m3
diethylene glycol monobutyl
ether
Butoxyethoxy)ethanol, 2-(2-; (Diethylene glycol monobutyl ether) 30 ppm 33 ppm 200 ppm
propylene glycol monomethyl
ether - mixture of isomers
Not Available Not Available
titanium dioxide N.E. mg/m3 / N.E. ppm 5,000 mg/m3
sodium aluminosilicate Not Available Not Available
bis(diphenylphosphino)methane Not Available Not Available
diethylene glycol monobutyl
ether
Not Available Not Available
Exposure controls
Appropriate engineering
controls
Articles or manufactured items, in their original condition, generally don't require engineering controls during handling or in normal use.
Exceptions may arise following extensive use and subsequent wear, during recycling or disposal operations where substances, found in the article, may be
released to the environment.
Engineering controls are used to remove a hazard or place a barrier between the worker and the hazard. Well-designed engineering controls can be highly
effective in protecting workers and will typically be independent of worker interactions to provide this high level of protection.
The basic types of engineering controls are:
Process controls which involve changing the way a job activity or process is done to reduce the risk.
Enclosure and/or isolation of emission source which keeps a selected hazard "physically" away from the worker and ventilation that strategically "adds" and
"removes" air in the work environment. Ventilation can remove or dilute an air contaminant if designed properly. The design of a ventilation system must match
the particular process and chemical or contaminant in use.
Employers may need to use multiple types of controls to prevent employee overexposure.
Local exhaust ventilation usually required. If risk of overexposure exists, wear approved respirator. Correct fit is essential to obtain adequate protection.
Supplied-air type respirator may be required in special circumstances. Correct fit is essential to ensure adequate protection.
An approved self contained breathing apparatus (SCBA) may be required in some situations.
Provide adequate ventilation in warehouse or closed storage area. Air contaminants generated in the workplace possess varying "escape" velocities which, in
turn, determine the "capture velocities" of fresh circulating air required to effectively remove the contaminant.
Chemwatch: 9-328075
Version No: 3.9
Page 4 of 10
Recon Ultra Smoke Odor Sealer - White 3092
Issue Date: 03/14/2017
Print Date: 03/14/2017
Continued...