 |
 |
MATERIAL SAFETY DATA SHEET:
E-300 Steel Over-Coat System TM
Polyurethane Moisture Cure Coal Tar Top Coat.
|
Emergency Number Chem.
Tel 1-800-255-3924 |
|
|
1. CHEMICAL PRODUCT IDENTIFICATION: E-300 Steel Over-Coat System TM
|
| Product Name: Formulation 292-7-A
Product Code: E-300
Chemical Family: Moisture Cure Prepolymer |
|
|
2. COMPOSITION/INFORMATION ON INGREDIENTS:
|
INGREDIENT NAME
/CAS NUMBER |
EXPOSURE LIMITS |
|
CONCENTRATION (%) |
|
HAZARDOUS INGREDIENTS |
|
|
|
| Solvent Naptha (AR100)
64742-95-6 |
|
|
OSHA: Not Established
ACGIH: Not Established
Supplier
50.000 ppm |
|
23-27% |
|
Diphenylmethane Diisocyanate (MDI) (2,2; 2,4)
26447-40-5 |
|
|
OSHA : Not Established
ACGIH: Not Established |
|
7.2 % |
| Non-isomer specific CAS number includes 2,2' MDI and 2,4' MDI. |
|
|
4,4'-Diphenylmethane Diisocyanate
101-68-6 |
|
|
OSHA : .02 ppm Ceiling.20 mg/m3 Ceiling
ACGIH: .005 ppm TWA.051 mg/m3 TWA |
5.9 % |
|
Polyisocyanate based on
(MDI)
Specific chemical identity is withheld as a trade secret |
|
|
OSHA.- Not Established
ACGIH.- Not Established |
39.5% |
|
Xylene
1330-20-7 |
|
|
OSHA: 100.00 ppm TWA
150.00 ppm STET,
ACGIH: 100.00 ppm TWA
150.00 ppm STEL |
2% |
|
Iron Oxide (micaceous)
Iron Oxide (Fe203) - IC. I. Pigment Red 101)
1309-37-1 |
|
|
OSHA : Not Established
ACGIH: 5.00 mg/m3 TWA (dust & fume) |
5 % |
|
|
|
Coal Tar [Modified refined], [black-esh-silver color]. |
|
|
This particularly refined
modified Coal Tar is not required to be listed as Hazardous
material. |
18 % |
|
Silicon Dioxide
(Amorphous)
7631-86-9 |
|
|
OSHA : 6.00 mg/m3 TWA
ACGIH: 10.00 mg/m3 TWA |
Approx. 1.8 % |
|
3. PHYSICAL PROPERTIES:
|
|
|
PHYSICAL FORM
|
Liquid |
COLOR
|
Pigmented Red
101 |
ODOR
|
Of solvent |
BOILING POINT
|
Not established |
MELTING/FREEZING POINT
|
Not established |
SOLUBILITY IN WATER
|
Isocyanate: Insoluble, reacts with water to liberate C02
gas |
SPECIFIC GRAVITY
|
1. 14 |
BULK DENSITY
|
Approximately 12.5 lbs/gal. |
% VOLATILE BY WEIGHT
|
Approximately 22-27 |
VAPOR PRESSURE
|
Not established |
|
4. FIRE AND EXPLOSION DATA:
|
FLASH POINT:
|
|
|
Not established {Xylene: 83 F (28.3 C)} |
FLAMMABLE LIMITS:
|
|
|
UPPER EXPLOSIVE LIMIT (UEL) (%): |
6.0 AR100 |
|
LOWER EXPLOSIVE LIMIT (LEL)(%): |
0.9 AR100 |
|
UPPER EXPLOSIVE LIMIT (UEL)(%): |
7.0 Xylene |
|
LOWER EXPLOSIVE LIMIT (LEL)(%): |
1.0 Xylene |
|
|
|
EXTINGUISHING MEDIA:
|
|
|
Dry Chemical; Carbon Dioxide; Foam |
SPECIAL FIRE FIGHTING PROCEDURES:
|
|
|
Full emergency equipment with
self-contained breathing apparatus and protective clothing should be worn by firefighters.
During a fire, MDI vapors and other irritating, highly toxic gases may be
generated by thermal decomposition or combustion. (See Section VIII.) At
temperatures greater than 400 F (204 C), this product may polymerize and
decompose which can cause pressure build-up in closed containers. Explosive
rupture is possible. Therefore, use cold water to cool fire-exposed
containers. Solvent vapors may be heavier than air. Under conditions of
stagnant air, vapors may build up and travel along the ground to an ignition
source which may result in a flash back to the source of the vapors. |
|
|
UNUSUAL FIRE / EXPLOSION HAZARDS:
|
|
DO NOT USE WATER OR HALOGENATED
EXTINGUISHING AGENTS. Aluminum can react with these extinguishing agents to form
hydrogen gas. Hydrogen gas is flammable and explosive. |
|
5. HUMAN HEALTH DATA:
|
|
ROUTE (S) OF ENTRY:
|
|
Inhalation; Skin Contact; Skin Absorption; Eye
Contact |
|
|
|
HUMAN EFFECTS AND SYMPTOMS OF OVEREXPOSURE:
|
|
ACUTE INHALATION
|
|
|
Isocyanate vapors or mist at concentrations
above the TLV or other appropriate exposure limit can irritate (burning
sensation) the mucous membranes in the respiratory tract (nose, throat,
lungs) causing runny, nose, sore throat, coughing, chest discomfort,
shortness of breath and reduced lung function (breathing obstruction).
Persons with a preexisting, nonspecific bronchial hyperreactivity can
respond to concentrations below the TLV with similar symptoms as well as
asthma attack. Exposure well above the TLV may lead to bronchitis,
bronchial spasm and pulmonary edema (fluid in lungs). These effects are
usually reversible. Chemical or hypersensitive pneumonitis, with flu-like
symptoms (e.g., fever, chills), has also been reported. These symptoms can
be delayed up to several hours after exposure. Solvent vapors are
irritating to the eyes, nose, and throat. Symptoms of irritation can
include: red, itchy eyes, dryness of the throat and tightness in the
chest. Other possible symptoms of overexposure include: headache, nausea,
narcosis, fatigue and loss of appetite. Persons exposed to 200 ppm of
Xylene experienced eye, nose and throat irritation. Concentrations of
10,000 ppm of Xylene can be immediately dangerous to life and health.
Overexposure to aluminum may cause upper and lower respiratory irritation.
Symptoms may include cough and shortness of breath. |
|
|
CHRONIC INHALATION
|
|
|
As a result of previous repeated overexposures
or a single large dose, certain individuals may develop isocyanate
sensitization (chemical asthma) which will cause them to react to a later
exposure to isocyanate at levels well below the TLV. These symptoms, which
can include chest tightness, wheezing, cough, shortness of breath or
asthmatic attack, could be immediate or delayed up to several hours after
exposure. Similar to many non-specific asthmatic responses, there are
reports that once sensitized an individual can experience these symptoms
upon exposure to dust; cold air or other irritants. This increased lung
sensitivity can persist for weeks and in severe cases for several years.
Chronic overexposure to isocyanate has also been reported to cause lung
damage (including decrease in lung function) which may be permanent.
Sensitization can either be temporary or permanent. Chronic exposure to
organic solvents has been associated with various neurotoxic effects
including permanent brain and nervous system damage. Symptoms include loss
of memory, loss of intellectual ability and loss of coordination. Prolonged
or repeated exposure to fine aluminum powder may cause scarring of the lung
tissue (pulmonary fibrosis). Signs and symptoms of exposure include
difficulty breathing, coughing, drowsiness, loss of appetite and rapid
breathing. One
cause of brain damage (encephalopathy) has occurred in connection with
scarring of the lung tissue due to aluminum dust. Aluminum content of the brain was 20
times normal levels. |
|
|
|
|
ACUTE SKIN CONTACT
|
|
|
Isocyanates react with skin protein and
moisture and can cause irritation which may include the following symptoms:
reddening, swelling, rash, scaling or blistering. Cured material is
difficult to remove. Repeated or prolonged skin contact with solvent can
result in dry, defatted and cracked skin causing increased susceptibility
to infection. In addition, skin irritation (i.e. redness, swelling) that
may develop into dermatitis may occur from skin contact. Solvents may
penetrate the skin causing effects similar to those identified under acute
inhalation exposure. |
|
|
|
|
CHRONIC SKIN CONTACT
|
|
|
Prolonged contact can cause reddening,
swelling, rash, scaling, blistering, and in some cases, skin sensitization:
Individuals who have developed a skin sensitization can develop these
symptoms as a result of contact with very small amounts of liquid material
or as a result of exposure to vapor. See results of intradermal test in
Section XII Animal Toxicity Data, SENSITIZATION. Chronic skin exposure to
the solvent may cause effects similar to those identified under chronic
inhalation effects. |
|
|
|
|
ACUTE EYE CONTACT
|
|
|
Liquid, aerosols or vapors are severely
irritating and can cause pain, tearing, reddening and swelling. If left
untreated, corneal damage can occur and injury is slow to heal. However,
damage is usually reversible. See Section VI for treatment. |
|
|
|
|
CHRONIC EYE CONTACT
|
|
|
Prolonged vapor contact may cause
conjunctivitis. |
|
|
|
|
ACUTE INGESTION
|
|
|
Can result in irritation in the mouth, stomach
tissue and digestive tract. Symptoms can include sore throat, abdominal
pain, nausea, vomiting and diarrhea. Vomiting may cause aspiration
resulting in chemical pneumonitis. |
|
|
|
|
CHRONIC INGESTION
|
|
|
None found. |
|
|
|
|
CARCINOGENICITY
|
|
|
NTP : |
Not listed |
|
|
IARC : |
Not listed |
|
|
OSHA : |
Not regulated |
|
|
OTHER : |
See results of two year MDI inhalation study
in Section XII Animal Toxicity Data, CARCINOGENICITY. |
|
|
|
MEDICAL CONDITIONS
|
|
|
AGGRAVATED BY EXPOSURE : Asthma, other respiratory disorders
(bronchitis, emphysema, bronchial hyperreactivity), skin allergies, eczema. |
|
|
|
|
EXPOSURE LIMITS :
|
|
|
Not established for this product as a whole,
refer to Section II for exposure limits of hazardous constituents. |
|
|
|
|
|
|
|
6. EMERGENCY AND FIRST AID PROCEDURES:
|
FIRST AID FOR EYES:
|
|
Flush with clean, lukewarm water (low pressure) for
at least 15 minutes while holding eyelids open. Obtain medical attention.
Refer individual to an opthalmologist for immediate follow-up. |
FIRST AID FOR SKIN:
|
|
Remove contaminated clothing immediately. Wash affected areas thoroughly with soap and water. Wash contaminated clothing
thoroughly before reuse. For severe exposures, get under safety shower and
remove clothing. Get medical attention, and consult physician. |
FIRST AID FOR INHALATION:
|
|
Move to an area free from risk of further exposure.
Administer oxygen or artificial respiration as needed. Obtain medical
attention. Asthmatic-type symptoms may develop and may be immediate or
delayed up to several hours. Consult physician. |
FIRST AID FOR INGESTION:
|
|
DO NOT INDUCE VOMITING. Give a glass of milk or water to drink. DO NOT GIVE ANYTHING BY MOUTH TO AN UNCONSCIOUS PERSON.
Consult a physician. |
NOTE TO PHYSICIAN:
|
|
Eyes: Stain for evidence of corneal injury. If cornea is burned, instill antibiotic steroid preparation frequently.
Workplace vapors have produced reversible corneal epithelial edema
impairing vision.
Skin: Treat as contact dermatitis. If burned, treat as thermal burn.
Respiratory: Treatment is essentially symptomatic. |
|
7. EMPLOYEE PROTECTION RECOMMENDATIONS:
|
EYE PROTECTION REQUIREMENTS:
|
|
Liquid chemical goggles. Vapor resistant goggles should be worn when contact lenses are in use. In a splash hazard
environment chemical goggles should be used in combination with a full
face-shield. |
SKIN PROTECTION REQUIREMENTS:
|
|
Permeation resistant gloves (butyl rubber, nitrile rubber). Cover as much of the exposed skin area as possible with
appropriate clothing. If skin creams are used, keep the area protected
only by the cream to a minimum. |
RESPIRATORY/VENTILATION REQUIREMENT:
|
|
Exhaust ventilation sufficient to keep the airborne concentrations of the solvent, polyisocyanate, MDI and other
hazardous constituents below their respective TLVs or other appropriate
exposure limits must be utilized. Exhaust air may need to be cleaned by
scrubbers or filters to reduce environmental contamination. In addition, a
respirator that is recommended or approved for use in isocyanate containing
environments (air purifying or fresh air supplied) may be necessary.
Consider type of application and environmental concentrations. Observe OSHA
regulations for respirator use (29 CFR 1910.134). In spray applications,
when the airborne isocyanate monomer concentrations are known to be below 0.05
ppm and if the polyisocyanate (polymeric, oligomer) concentrations are known to
be below 10 mg/m3, a properly fitted air-purifying (combination organic
vapor and particulate) respirator, proven by test to be effective in isocyanate
containing spray paint environments, will provide sufficient protection. The use of a positive
pressure supplied air respirator is mandatory when: airborne isocyanate
concentrations are not known, either of the above guidelines are exceeded, or if spraying is
performed in a confined space or area with limited ventilation. It is possible to be
exposed to airborne solvent or isocyanate vapors even during non-spray operations such
as mixing, and brush or roller application, depending on the conditions of
application. For example, heating of material or application to a hot substrate may increase
emissions from the coating. Therefore, when airborne concentrations during such
non-spray operations exceed the TLV of 0.005 ppm for isocyanate monomer, but are
below 0.05 ppm, at least an air purifying (organic vapor) respirator is required. If
airborne concentrations are unknown or exceed 0.05 ppm; or if operations are
performed in a confined space, a supplied air respirator must be worn. In addition, solvent
concentrations should be considered when determining the selection and use
of a respirator. Refer to Patty's Industrial Hygiene and Toxicology, Volume 1
(3rd edition) Chapter 17 and Volume III (1st edition) Chapter 3, for guidance concerning
appropriate air sampling strategy to determine airborne concentrations. |
MONITORING:
|
|
Isocyanate exposure levels must be monitored. Monitoring of airborne isocyanates in the breathing zone of
individuals should become part of the overall employee exposure characterization program. Monitoring techniques have been developed by
NIOSH, and OSHA. Upon request Mobay can make available methods which are
modifications of these NIOSH and OSHA methods. |
MEDICAL SURVEILLANCE:
|
|
Medical supervision of all employees who handle or come in contact with MDI is recommended. This should include
preemployment and periodic medical examinations with respiratory function
tests (FEV, FVC as a minimum). Persons with asthmatic-type conditions,
chronic bronchitis, other chronic respiratory diseases or recurrent skin
eczema or sensitization should be excluded from working with MDI. Once a
person is diagnosed as being sensitized to MDI, no further exposure can be
permitted. |
ADDITIONAL PROTECTIVE MEASURES:
|
|
Safety showers and eyewash stations should be available. Educate and train employees in safe use of product. Follow
all label instructions. For additional information, contact Miles Product
Safety Department for Polymers. |
|
8. REACTIVITY DATA:
|
STABILITY:
|
|
This is a stable material. |
HAZARDOUS POLYMERIZATION:
|
|
May occur; Contact with moisture or other
materials which react with isocyanates or temperatures over 400 F (204 C)
may cause polymerization. |
INCOMPATIBILITIES:
|
|
Water, amines, acids, strong bases and alcohols.
Aluminum can react with strong acid and caustic solutions, water and
halogenated hydrocarbons to form hydrogen gas. |
INSTABILITY CONDITIONS:
|
|
High heat and moisture. |
DECOMPOSITION PRODUCTS:
|
|
By high heat and fire: C0, oxides of nitrogen,
aluminum oxide, traces of HCN, MDI vapors or aerosols. |
9. SPILL AND LEAK PROCEDURES:
|
|
|
SPILL OR LEAK PROCEDURES:
|
|
Evacuate non-essential personnel. Remove all
sources of ignition and ventilate the area. Equip clean-up crew with appropriate protective equipment (i.e., clothing, respiratory,
etc. See Employee Protection Recommendations). Dike or impound spilled material a:: control further spillage if feasible.
Notify appropriate authorities if necessary. Cover spill with sawdust, vermiculite, Fuller's earth or other absorbent material; pour
liquid decontaminate over spillage and allow to react for at least 10 min. Collect material in open containers and add further amounts
of decontamination solution. Remove containers to safe place and cover loosely. Wash down area with liquid decontaminant and flush
area with water. |
NEUTRALIZATION CHEMICALS
|
|
Decontamination Solutions: Ammonium hydroxide (0-10%), detergent (2-5%) and balance water; or
solution of Union Carbide Tergitol TMN-10 (20%) and water (80%). |
WASTE DISPOSAL METHOD:
|
|
Follow all federal, state or local regulations.
Incineration is the preferred method. Empty containers must be handled
with care due to product residue and flammable solvent vapors. Decontaminate containers prior to disposal. Empty decontaminated
containers should be crushed to prevent reuse. DO NOT HEAT OR CUT EMPTY
CONTAINERS WITH ELECTRIC OR GAS TORCH. (See Sections IV and VIII).
Vapor and gases may be highly toxic. |
10. SPECIAL PRECAUTIONS & STORAGE DATA:
|
STORAGE TEMPERATURE (MIN/MAX):
|
|
Not established |
SHELF LIFE:
|
|
Not established |
SPECIAL SENSITIVITY:
|
|
If container is exposed to high heat, 400 F
(204, C) it can be pressurized and possibly rupture. MDI reacts slowly with
water to form C02 gas. This gas can cause sealed containers to expand
and possibly rupture. |
HANDLING/STORAGE PRECAUTIONS:
|
|
Store in tightly closed containers to prevent
moisture contamination. Do not reseal if contamination id suspected. Avon contact with skin and eyes. Do not breathe
aerosols or vapors. Warning properties (irritation of the eyes, nose and throat or odor) are not adequate to prevent chronic
overexposure from inhalation. This material can produce asthmatic sensitization upon repeated inhalation exposures to lower
concentrations. Exposure to vapors of heated MDI can be extremely dangerous.
Employee education and training in the safe use and
handling ; this compound are required under the OSHA Hazard Communication Standard. |
|
|
11. SHIPPING INFORMATION:
|
TECHNICAL SHIPPING NAME:
|
Polyisocyanate solution containing Solvent
Naphtha, Xylene |
FREIGHT CLASS BULK
|
Isocyanate |
FREIGHT CLASS PACKAGE
|
Chemicals NOI (Isocyanate) (NMFC 60000) |
PRODUCT LABEL
|
SLB14579 |
DOT (HM-181) (DOMESTIC SURFACE)
|
PROPER SHIPPING NAME
|
Paint |
HAZARD CLASS OR DIVISION
|
3 |
UN/NA NUMBER
|
UN1263 |
PACKAGING GROUP
|
PG III |
DOT PRODUCT RQ lbs (kgs)
|
50000 lbs (22680.0 kgs) |
HAZARD LABEL (s)
|
Flammable Liquid |
HAZARD PLACARD (s)
|
Flammable |
IMO/ IMDG CODE (OCEAN)
|
PROPER SHIPPING NAME
|
Paint |
HAZARD CLASS DIVISION NUMBER
|
3.3 |
UN NUMBER
|
UN1263 |
PACKAGING GROUP
|
III |
HAZARD LABEL (s)
|
Flammable Liquid |
HAZARD PLACARD (s)
|
Flammable Liquid |
ICAO / IATA (AIR)
|
PROPER SHIPPING NAME
|
Paint |
HAZARD CLASS DIVISION NUMBER
|
3 |
UN NUMBER
|
uN1263 |
SUBSIDIARY RISK
|
None |
PACKING GROUP
|
III |
HAZARD LABEL (s)
|
Flammable Liquid |
RADIOACTIVE?
|
Non-Radioactive |
PASSENGER AIR - MAX. QTY
|
60L |
PASSENGER INSTRUCTION NUMBER
|
309 |
CARGO AIR -MAX. QTY
|
220L |
CARGO AIR INSTRUCTION NUMBER
|
310 |
|
12. ANIMAL TOXICITY DATA:
|
TOXICITY DATA FOR:AR100
|
| ACUTE TOXICITY |
ORAL LD50:
|
|
Greater than 5000 mg/kg (Rat) - Estimated by Exxon |
DERMAL LD50:
|
|
Greater than 2000 mg/kg (Rabbit) - Estimated by
Exxon |
TOXICITY DATA FOR: Diphenylmethane Diisocyanate (Monomeric and Polymeric)
|
|
|
| ACUTE TOXICITY |
ORAL LD50:
|
|
Greater than 15,800 mg/kg (Rats) |
DERMAL LD50:
|
|
Greater than 7900 mg/kg (Rabbit) |
INHALATION LC50:
|
|
Approximately 370-490 mg/m3 for an aerosol of polymeric
MDI (Rat). An LC50 (2 hr.) of greater than 400 mg/m3 was determined on a
dust of monomeric MDI (Rat). |
EYE EFFECTS:
|
|
Slightly irritating. A maximum primary eye irritation
score for a polymeric MDI of 12.0/110 (24 hr.) was obtained. This score is
fairly typical for a number of MDI products. |
SKIN EFFECTS:
|
|
Slight to moderate irritant. Primary dermal irritation
scores are typically below 3.4/8.0 (Draize). |
SENSITIZATION:
|
|
MDI has been shown to produce dermal sensitization in
several species (guinea pigs, mice, rabbits and dogs). Intradermal injection
followed by inhalation challenge resulted in a respiratory sensitization
response in guinea pigs. In addition, there is some evidence to suggest that
cross-sensitization between different types of diisocyanates may occur. |
CHRONIC TOXICITY:
|
|
In a chronic inhalation exposure study, rats were
exposed to an aerosol of polymeric MDI for 6 hours per day, 5 days per week
for a period for two years. The exposure concentrations were 0, 0.2, 1.0 and6.0 mg/m3. Microscopic examination of tissues revealed the effects of
irritation to the nasal cavity and lungs in animals exposed to 1.0 and 6.0
mg/m3. The No Observable Effect Level (NOEL) was 0.2 mg/m3. |
CARCINOGENICITY:
|
|
In the same two year inhalation study described above
(See CHRONIC TOXICITY), the occurrence of pulmonary adenomas (benign tumors)
and a single pulmonary adenocarcinoma (malignant tumor) was considered to be
related to the exposure. These tumors were observed only in rats exposed to
the high concentration of 6.0 mg/m3. |
MUTAGENICITY :
|
|
Monomeric MDI is positive in the Ames assay (with
hepatic microsomal activation). However, it was negative in an in vivo-invitro micronucleus assay. |
AQUATIC TOXICITY:
|
|
LC50 - 24 hr. (static): Greater than 500 mg/liter for
Daphnia magna, Limmea stagnalis, and Zebra fish (Brachydanio rerio) for both
polymeric and monomeric MDI. |
TOXICITY DATA FOR: Aluminum flake
|
| ACUTE TOXICITY |
ORAL LD50:
|
|
Animals given about 1400 ppm in the diet had decreased
phosphorus in the blood and bones. |
EYE EFFECTS:
|
|
Slight irritation (Rabbit) |
MUTAGENICITY:
|
|
Negative |
OTHER TOXICITY DATA :
|
|
Rats, guinea pigs and hamsters exposed to a very fine
aluminum powder did not develop scarring of the lung tissues. Clearance of
dust deposits from the lungs was rapid after exposure was discontinued.
Scarring of the lung tissue resulted after rats received injections of 100
mg aluminum powder directly into the air passage leading to the lungs
(trachea). |
TOXICITY DATA FOR: Xylene
|
ACUTE TOXICITY
|
ORAL LD50:
|
|
4,300 mg/kg (Rat) |
DERMAL LD50:
|
|
Greater than 1,700 mg/kg (Rabbit) |
INHALATION LC50:
|
|
5,000 ppm (Rat, 4H exp) |
EYE EFFECTS:
|
|
Mild to severe irritation (Rabbit) |
SKIN EFFECTS:
|
|
Moderate irritation (Rabbit) |
|
|
|
|
|
|
13. FEDERAL REGULATORY INFORMATION:
|
OSHA STATUS :
|
|
This product is hazardous under the criteria of
the Federal OSHA Hazard Communication Standard 29 CFR 1910.1200. |
TSCA STATUS :
|
|
On TSCA Inventory |
CERCLA REPORTABLE QUANTITY:
|
|
Xylene: 1000 lbs. |
SARA TITLE III:
|
|
SECTION 302 EXTREMELY HAZARDOUS SUBSTANCES
|
|
|
None |
|
SECTION 311/312 HAZARD CATEGORIES
|
|
|
Immediate Health Hazard; Delayed Health Hazard; Fire Hazard; Reactive Hazard |
|
SECTION 313 TOXIC CHEMICALS
|
|
|
Aluminum (CAS# 7429-90-5) 18-22%;
Xylene (CAS#1330-20-7) 2% |
|
RCRA STATUS
|
|
|
When discarded in its purchased form, this product meets the criteria of
ignitability, and should be managed as a hazardous waste (EPA Hazardous Waste Number D001).(40 CFR 261.20-24) |
|
|
14. OTHER REGULATORY INFORMATION:
|
| The following chemicals are specifically listed by individual states; other
product specific health and safety data in other sections of the MSDS may
also be applicable for state requirements. For details on your regulatory
requirements you should contact the appropriate agency in your state. |
INGREDIENT NAME
/CAS NUMBER
|
CONCENTRATION
|
|
STATE CODE
|
|
|
|
|
|
Solvent Naphtha (AR100)
64742-95-6 23-27 |
|
|
23-27% |
|
PA3, NJ4 |
|
4,4'-Diphenylmethane Diisocyanate
101-68-8 5.9 |
|
|
5.9% |
|
PA1, MA, NJ4 |
|
Diphenylmethane Diisocyanate (MDI)
26447-40-5 7.2 |
|
|
7.2% |
PA3, NJ4 |
|
Polyisocyanate based on MDI
NJTSRN (31765300002)-5898P |
|
|
39.5 |
PA3, NJ4 |
|
Xylene
1330-20-7 |
|
|
2% |
PA1, MA, NJ2 |
|
Silicon Dioxide (Amorphous)
7631-86-9 OSHA : 6.00 mg/m3 TWA |
|
|
Approx. 1.8% |
|
|
Oleic Acid
112-80-1 |
|
|
Less than 1.5 % |
PA1, MA |
|
MA =
|
Massachusetts Hazardous Substance List |
NJ1 =
|
New Jersey Hazardous Substance List |
NJ2 =
|
New Jersey Environmental Hazardous
Substance List |
NJ4 =
|
New Jersey Other - included in 5 predominant
ingredients > 1% |
NJTSRN =
|
New Jersey Trade Secret Registry Number |
PA1=
|
Pennsylvania Hazardous Substance List |
PA3 =
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Pennsylvania Non-
hazardous present at 3% or greater. |
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15. APPROVALS |
| REASON FOR ISSUE |
Revise Section XI |
| PREPARED BY |
B. J. Gambino H. |
| APPROVED BY |
E. Myer |
| APPROVAL DATE |
06/03/94 |
| SUPERSEDES DATE |
06/11/92 |
| MSDS NUMBER |
14579 |
| This information is furnished without warranty, expressed or implied, except that it is accurate to the best knowledge of Environmental Protective Coatings, Inc. . The data on this sheet relates only to the specific material designated herein. Environmental Protective Coatings, Inc. assumes no legal responsibility for use or reliance upon these data. |
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