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Material Safety Data
Sheet |
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I. Identification |
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Manufactured By: |
Kryptaglow™ P.O.
Box 272672 Tampa,
FL 33688 24
Hour Emergency Telephone CHEMTREC
1-800-424-9300 |
Revised: 06/11/06 |
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Product Line: |
Kryptaglow®
Automotive Glow Paint Part B (Solvent Base) |
Proper
Shipping Name:
Paint |
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II. hazardous
ingredients |
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CAS
#28182-81-2 Polymeric
Isocyanate ACGIH
TLV: .005 ppm
mon OSHA
PEL: VAPOR PRESSURE: |
ACGIH
STEL: OSHA
CEILING: 0.02 ppm mono LEL%:
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WT%:
75-99 OSHA
PEAK: |
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CAS #123-86-4 Butyl Acetate ACGIH
TLV: 150 PPM TWA OSHA
PEL: 150 PPM
TWA VAPOR PRESSURE: 7.8 mm
Hg20C |
ACGIH
STEL: 200 PPM OSHA
CEILING: LEL%:
1.7 |
WT%:
5-20 OSHA
PEAK: |
Footnote: (1) |
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WARNING MESSAGES: (1)
Reports
have associated repeated and prolonged occupational overexposure to solvents
with permanent brain and nervous system damage. Intentional misuse by deliberately concentrating and
inhaling the contents may be harmful or fatal. Chronic exposure may cause damage to the central nervous
system, respiratory system, lung, eye, skin, liver, gastrointestional tract,
spleen, kidneys, and blood. (2)
See
Section IX for reportable
Hazardous Air Pollutants |
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III. physical data |
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boiling range: 244-262º f evaporation rate: * slower than ether * PERCENT
VOLATILE BY VOLUME: 12.75% WEIGHT
PER GALLON: 9.45 Lbs. VAPOR
DENSITY: * heavier than air * ACTUAL
VOC (lb/gal): 0.94 EPA
VOC (lb/gal): 0.94 EPA
VOC (g/L): 112.65 |
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IV. FIRE AND EXPLOSION
HAZARD DATA |
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flash point: 75º F 24º
C LEL:
Refer to
Section II FLAMMABILITY
CLASSIFCATION: Class 1C DOT
CLASSIFICATION (HAZARDOUS CLASS): * Flammable Liquid * EXTINGUISHING
MEDIA: Carbon dioxide, dry chemical, foam, water spray for large fires. CAUTION! Note that water or foam may cause
frothing due to the liberation of carbon dioxide and that the reaction of
water with hot isocyanates may be violent. If water is used, it should be used in very large
quantities. Unusual fire and explosion hazards: With excessive heat,
cans will rupture from internal pressure and discharge flammable
contents. Vapors may ignite
explosively. Keep away from
heat, sparks and flame. Do not
smoke. Extinguish all flames and
pilot lights, and turn off stoves, heaters, electric motors and other sources
of ignition during use and until all vapors are gone. Prevent build up of vapors by opening
all windows and doors to achieve cross-ventilation. SPECIAL
FIRE FIGHTING PROCEDURES: During a fire, monomeric isocyanate vapors and
other irritating, highly toxic gases may be generated by thermal
decomposition or combustion. Wear
self-contained breathing apparatus and full turn-out gear to fight fire. Isolate from heat, electrical
equipment, sparks and open flame.
Solvent vapors may be heavier than air. Stagnant air may cause vapors to accumulate and travel
along the ground to an ignition source which may result in a flashback to the
source of the vapors. |
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V. health hazard data |
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threshold limit value: See Section II EFFECTS
OF OVEREXPOSURE: ODOR THRESHOLD: There is no available
information on the polymeric isocyanate. The odor threshold of monomeric isocyanate is 0.4
ppm. The monomeric isocyanate is
considered to have poor warning properties, that is if you can smell it, then
it is above the recommended occupational standards for the compound. IRRITATION THRESHOLD: The irritation
threshold for this product has not been clearly established because those
persons sensitized to monomeric isocyanate may show signs and symptoms of
irritation at levels far below those that are not sensitized. INHALATION: ACUTE – Exposure may
cause mucous membrane and respiratory tract irritation, tightness of chest,
headache, shortness of breath, and a dry cough. Inhalation may cause asthma-like symptoms to occur. These symptoms may include coughing,
wheezing, and shortness of breath.
A hypersensitive pneumonitis may also occur if the person is
sensitized. This syndrome is
characterized by fever, nonproductive cough, wheezing, chills and shortness
of breath. The effects of acute
exposure may be delayed in onset up to 12-24 hours. CHRONIC – Repeated exposure may cause an allergic
sensitization of the respiratory tract.
This is characterized by an asthma-like response upon reexposure to
the chemical. The symptoms may
include coughing, wheezing, shortness of breath and chest tightness. SKIN: Acute – Skin contact may
cause an irritation consisting of transient redness. This irritant effect would not be
expected to result in permanent damage.
CHRONIC – Repeated contact may cause irritation of the skin and
an allergic skin reaction consisting of a hive-like rash on locations not
even directly contacted by the liquid. EYE: The effects of liquid directly
contacting the eye can be significant.
This may result in severe irritation and possible damage to the cornea
and impairment of vision. The
effects of high vapor concentration may vary from slight irritation with
tearing and a burning sensation to keratitis consisting of inflammation of
the cornea and impairment of vision. INGESTION: ACUTE – Can result in
irritation of the mouth, stomach tissue and digestive tract. Gastroenteritis may result with any
or all of the following symptoms: nausea, vomiting, diarrhea, and/or
headache. CHRONIC – More
pronounced gastroenteritis effects would probably occur if this material was
repeatedly ingested. TARGET ORGAN TOXICITY: Irritation to
the skin, eyes, mucus membrane, and respiratory tract. REPRODUCTIVE AND DEVELOPMENTAL TOXICITY:
This material is not known or reported to be a developmental or reproductive
toxin. CARCINOGENICITY: This material is not
known or reported to be carcinogenic by any reference source including IARC,
OSHA, NTP or EPA. MUTAGENICITY: Monomeric isocyanate has
been tested to determine its potential for mutagenic activity in the Ames
assay and under the conditions of the study was found to be negative. There is no available information on
the polymeric isocyanate. MEDICAL
CONDITIONS PRONE TO AGGRAVATION BY EXPOSURE: Asthma, Chronic respiratory
disease (e.g. Bronchitis, Emphysema), Eye disease, Skin disorders and
Allergies. PRIMARY
ROUTE(S) OF ENTRY: Eyes, Ingestion, Skin, Inhalation EMERGENCY
AND FIRST AID PROCEDURES: EYES: Immediately flush with large
amounts of water for at least 15 minutes, occasionally lifting the upper and
lower eyelids. Call a physician
at once. SKIN: Immediately flush with water for
15 minutes. Wash the
contaminated skin with soap and water.
If irritation develops, call a physician. If clothing comes in contact with the product, the clothing
should be laundered before reuse. INGESTION: Immediately drink large
quantities of water. DO NOT
induce vomiting. Call a
physician at once. DO NOT give
anything by mouth if the person is unconscious of if having convulsions. INHALATION: If person experiences
nausea, headache or dizziness, person should stop work immediately and move
to fresh air until these symptoms disappear. If breathing is difficult, administer oxygen, keep the
person warm and at rest. Call a
physician. In the event that an
individual inhales enough product to lose consciousness, person should be
moved to fresh air at once and a physician should be contacted
immediately. If breathing has
stopped, artificial respiration should be given immediately. In all cases, ensure adequate ventilation
and provide respiratory protection before the person returns to work. |
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VI. reactivity data |
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stability: * stable * HAZARDOUS
POLYMERIZATION: * will not occur * INCOMPATIBLITY:
Material can react violently with strong bases, strong oxidizing agents, and
strong reducing agents. HAZARDOUS
DECOMPOSITION PRODUCTS: Burning will produce toxic fumes. CO, nitric oxide,
isocyanate-containing vapors. CONDITIONS
TO AVOID: In the absence of catalyst, the reaction with water is slow and
nonviolent, generating carbon dioxide gas. This gas can cause sealed containers to expand and
possibly rupture. Elevated
temperatures will increase the reaction rate of this material with
water. This material should be
stored in tightly closed containers to prevent moisture contamination. Do not reseal containers if moisture
contamination is suspected. |
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VII. spill or leak
procedures |
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spill/leak procedure: Evacuate
nonessential personnel. Remove
all sources of ignition and ventilate the area. Notify appropriate authorities if necessary. Put on personal protective
equipment. Dike or impound
spilled material and control further spillage if feasible. Use vermiculite, Fullers’ earth
or other absorbent material.
Pour decontamination solution over spill area and allow to react for
at least 10 minutes. Collect
material in open containers and add further amounts of decontamination
solution. Remove containers to a
safe place, cover loosely, and allow to stand for 24 to 48 hours. Wash down spill area with decontamination
solutions. Decontamination
solutions: nonionic surfactant Union Carbide’s Tergitol TMN-10 (20%)
and water (80%); concentrated ammonia (3-8%), detergent (2%) and water
(90-95%). WASTE
DISPOSAL METHOD: Waste must be disposed of in accordance with federal, state
and local environmental control regulations. Incineration is the preferred method. Empty containers must be handled with
care due to product residue.
Decontaminate prior to disposal.
DO NOT HEAT OR CUT EMPTY CONTAINER WITH ELECTRIC OR GAS TORCH. |
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VIII. special protection
information |
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respiratory protection: A respirator that is
recommended or approved for use in isocyanate containing environments (air
purifying or fresh air supplied) may be necessary for spray applications or
other situations such as high temperature use which may produce inhalation
exposures. A supplied air
respirator (either positive pressure or continuous flow type) is
recommended. Before an
air-purifying respirator can be used, air monitoring must be performed to
measure airborne concentrations of isocyanate monomer, polymeric isocyanate
and organic solvent. During
nonspray operations such as mixing, brushing and rolling applications, etc.,
at elevated temperatures (for example, heating of material or application to
a hot substrate), it is possible to be exposed to airborne isocyanate
vapors. Therefore, when the
coatings system contains solvents and will be applied in a nonspray manner, a
supplied-air (either positive pressure or continuous flow type) respirator
may be appropriate or mandatory.
VENTILATION:
Good industrial hygiene practice dictates that worker protection should be
achieved through engineering controls such as ventilation whenever
feasible. When such controls are
not feasible to achieve full protection, the use of respirators and other
personal protective equipment is mandated. Exhaust air may need to be cleaned by scrubbers or filters
to reduce environmental contamination.
Curing ovens must be ventilated to prevent emissions into the
workplace. If oven off-gases are
not vented properly, it is possible to be exposed to airborne monomeric
isocyanates. PROTECTIVE
GLOVES: Impermeable gloves to prevent skin contact. EYE
PROTECTION: Splash proof eye goggles. In emergency situations, use eye
goggles with a full face shield. OTHER
PROTECTIVE EQUIPMENT: Where contact is likely, wear rubber apron and
boots. Eye wash station and
safety shower should be available.
HYGIENIC
PRACTICES: See Section V |
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IX. special
precautions |
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precautions to be taken in handling and storing: Keep away from
heat. Keep away from sparks,
flame, and other sources of ignition.
Store in a cool, dry place.
Keep container closed when not in use. Avoid contact with eyes, skin and clothing. Avoid breathing vapor or mist. Use with adequate ventilation. Ground and bond containers when
transferring material. Use
explosion proof equipment. Follow
all MSDS/label precautions even after the container is emptied because it may
retain product residues. Wash
thoroughly after handling. OTHER
PRECAUTIONS: Avoid resealing containers that have been contaminated with
water. The resulting reaction
could cause a pressure within the container which is great enough to burst
the container. This
product contains no reportable Hazardous Air Pollutants. |
Co-Leash, Inc.
P.O. Box 272672
Tampa, FL 33688
(P) 813/920-1910 (F)
813/792-1418
www.kryptaglow.com