SOYBEAN OIL
Chemwatch Material Safety Data Sheet
Issue Date: 1-Nov-2007 CHEMWATCH 19928
NC317TCP Version No:2
CD 2007/4 Page 1 of 12
Section 1 - CHEMICAL PRODUCT AND COMPANY IDENTIFICATION
PRODUCT NAME
SOYBEAN OIL
SYNONYMS
"soybean oil soy degummed soya-bean soja bean Lincoln Manchurian oil", "chinese pea oil
soybeanseed soya oil", soy, "degummed soya-bean", "soja bean Lincoln Manchurian oil",
"chinese pea oil", "soybeanseed soya oil"
PRODUCT USE
Directly as food, as cooking oil and emulsified in mayonnaise, dressings. Carrier for oil
soluble food dyes. In the manufacture of margarine, shortenings, confectionery and soap.
In drying oil industries for paints, varnishes, linoleum, printing ink. Source of soybean
fatty acids used in alkyd resins dimer acid manufacture.
SUPPLIER
Company: Quantum Chemicals Pty Ltd
Address:
70 Quantum Close
Dandenong South
Victoria 3175
Telephone: 03 8795 8000
Emergency Tel: 1300 131 001
Fax: 03 8795 8099
HAZARD RATINGS
Flammability
Toxicity
Body Contact
Reactivity
Chronic
SCALE: Min/Nil=0 Low=1 Moderate=2 High=3 Extreme=4
Section 2 - HAZARDS IDENTIFICATION
STATEMENT OF HAZARDOUS NATURE
NON-HAZARDOUS SUBSTANCE. NON-DANGEROUS GOODS. According to the Criteria of
NOHSC, and the ADG Code.
� SOYBEAN OIL
Chemwatch Material Safety Data Sheet
Issue Date: 1-Nov-2007 CHEMWATCH 19928
NC317TCP Version No:2
CD 2007/4 Page 2 of 12
Section 2 - HAZARDS IDENTIFICATION
POISONS SCHEDULE
Exempt
RISK SAFETY
Cumulative effects may result following Do not breathe gas/ fumes/ vapour/ spray.
exposure*.
* (limited evidence). Avoid contact with skin.
Section 3 - COMPOSITION / INFORMATION ON INGREDIENTS
NAME CAS RN %
soybean oil 8001-22-7 100
Natural oil from soybeans with composition:
triglycerides of oleic acid - 26%
triglicerides of linoleic acid - 49%
triglicerides of linolenic acid - 11%
triglicerides of saturated acids - 14%
free fatty acids - >1%
phospholipids (lecithin) - >4%
Section 4 - FIRST AID MEASURES
SWALLOWED
路 Immediately give a glass of water.
路 First aid is not generally required. If in doubt, contact a Poisons Information Centre
or a doctor.
EYE
If this product comes in contact with eyes:
路 Wash out immediately with water.
路 If irritation continues, seek medical attention.
路 Removal of contact lenses after an eye injury should only be undertaken by skilled
personnel.
SKIN
If skin or hair contact occurs:
路 Flush skin and hair with running water (and soap if available).
路 Seek medical attention in event of irritation.
INHALED
路 If fumes or combustion products are inhaled remove from contaminated area.
路 Other measures are usually unnecessary.
NOTES TO PHYSICIAN
Treat symptomatically.
Section 5 - FIRE FIGHTING MEASURES
EXTINGUISHING MEDIA
路 Foam.
路 Dry chemical powder.
路 BCF (where regulations permit).
路 Carbon dioxide.
路 Water spray or fog - Large fires only.
� SOYBEAN OIL
Chemwatch Material Safety Data Sheet
Issue Date: 1-Nov-2007 CHEMWATCH 19928
NC317TCP Version No:2
CD 2007/4 Page 3 of 12
Section 5 - FIRE FIGHTING MEASURES
FIRE FIGHTING
路 Alert Fire Brigade and tell them location and nature of hazard.
路 Wear full body protective clothing with breathing apparatus.
路 Prevent, by any means available, spillage from entering drains or water course.
路 Use water delivered as a fine spray to control fire and cool adjacent area.
路 Avoid spraying water onto liquid pools.
路 DO NOT approach containers suspected to be hot.
路 Cool fire exposed containers with water spray from a protected location.
路 If safe to do so, remove containers from path of fire.
FIRE/EXPLOSION HAZARD
路 Combustible.
路 Slight fire hazard when exposed to heat or flame.
路 Heating may cause expansion or decomposition leading to violent rupture of containers.
路 On combustion, may emit toxic fumes of carbon monoxide (CO).
路 May emit acrid smoke.
路 Mists containing combustible materials may be explosive.
Combustion products include: carbon dioxide (CO2), acrolein, other pyrolysis products
typical of burning organic material.
May emit poisonous fumes.
CARE: Water in contact with hot oil may cause foaming and a steam explosion with wide
scattering of hot oil and possible severe burns. Foaming may cause overflow of
containers and may result in possible fire.
FIRE INCOMPATIBILITY
Avoid contamination with oxidising agents i.e. nitrates, oxidising acids, chlorine
bleaches, pool chlorine etc. as ignition may result.
HAZCHEM: None
Section 6 - ACCIDENTAL RELEASE MEASURES
EMERGENCY PROCEDURES
MINOR SPILLS
Slippery when spilt.
路 Remove all ignition sources.
路 Clean up all spills immediately.
路 Avoid breathing vapours and contact with skin and eyes.
路 Control personal contact by using protective equipment.
路 Contain and absorb spill with sand, earth, inert material or vermiculite.
路 Wipe up.
路 Place in a suitable labelled container for waste disposal.
MAJOR SPILLS
Slippery when spilt.
CARE: Absorbent materials wetted with occluded oil must be moistened with water as they
may auto-oxidize, become self heating and ignite.
Some oils slowly oxidise when spread in a film and oil on cloths, mops, absorbents may
autoxidise and generate heat, smoulder, ignite and burn. In the workplace oily rags
should be collected and immersed in water.
Moderate hazard.
路 Clear area of personnel and move upwind.
路 Alert Fire Brigade and tell them location and nature of hazard.
路 Wear breathing apparatus plus protective gloves.
路 Prevent, by any means available, spillage from entering drains or water course.
路 No smoking, naked lights or ignition sources.
路 Increase ventilation.
路 Stop leak if safe to do so.
� SOYBEAN OIL
Chemwatch Material Safety Data Sheet
Issue Date: 1-Nov-2007 CHEMWATCH 19928
NC317TCP Version No:2
CD 2007/4 Page 4 of 12
Section 6 - ACCIDENTAL RELEASE MEASURES
路 Contain spill with sand, earth or vermiculite.
路 Collect recoverable product into labelled containers for recycling.
路 Absorb remaining product with sand, earth or vermiculite.
路 Collect solid residues and seal in labelled drums for disposal.
路 Wash area and prevent runoff into drains.
路 If contamination of drains or waterways occurs, advise emergency services.
Personal Protective Equipment advice is contained in Section 8 of the MSDS.
Section 7 - HANDLING AND STORAGE
PROCEDURE FOR HANDLING
Rags wet / soaked with unsaturated hydrocarbons / drying oils may auto-oxidise; generate
heat and, in-time, smoulder and ignite. This is especially the case where oil-soaked
materials are folded, bunched, compressed, or piled together - this allows the heat to
accumulate or even accelerate the reaction
Oily cleaning rags should be collected regularly and immersed in water, or spread to dry
in safe-place away from direct sunlight or stored, immersed, in solvents in suitably
closed containers.
路 Avoid all personal contact, including inhalation.
路 Wear protective clothing when risk of exposure occurs.
路 Use in a well-ventilated area.
路 Prevent concentration in hollows and sumps.
路 DO NOT enter confined spaces until atmosphere has been checked.
路 DO NOT allow material to contact humans, exposed food or food utensils.
路 Avoid contact with incompatible materials.
路 When handling, DO NOT eat, drink or smoke.
路 Keep containers securely sealed when not in use.
路 Avoid physical damage to containers.
路 Always wash hands with soap and water after handling.
路 Work clothes should be laundered separately. Launder contaminated clothing before re
-use.
路 Use good occupational work practice.
路 Observe manufacturer's storing and handling recommendations.
路 Atmosphere should be regularly checked against established exposure standards to ensure
safe working conditions are maintained.
SUITABLE CONTAINER
Glass container.
路 Metal can or drum
路 Packaging as recommended by manufacturer.
路 Check all containers are clearly labelled and free from leaks.
STORAGE INCOMPATIBILITY
Vegetable oils and some animal fats undergo undesirable deterioration reactions in the
presence of oxygen from the air becoming rancid accompanying off-flavours and smells.
The mechanism of autoxidation of vegetable oils is classically regarded as following a
number of stages being:
路 a usually slow initiation phase
路 a usually rapid propagation
路 and a termination phase
The initiation phase involves the formation of a free radical from a triglyceride
molecule in the fat 鈥? this may be promoted by the presence of heavy metals in the oil, or
by heat or light. The next stage is the reaction of the triglyceride free radical with
oxygen to produce a peroxide free radical, which can react with another triglyceride to
produce a hydroperoxide and another triglyceride free radical. Steps 2 and 3 can repeat
in a chain reaction until two peroxy free radicals collide and neutralize each other.
Some drying oils produce cyclic peroxides instead of hydroperoxides.
� SOYBEAN OIL
Chemwatch Material Safety Data Sheet
Issue Date: 1-Nov-2007 CHEMWATCH 19928
NC317TCP Version No:2
CD 2007/4 Page 5 of 12
Section 7 - HANDLING AND STORAGE
Autoxidation is assisted by higher ambient temperatures (the rate doubling for every ten
degrees Centigrade rise) and by the presence of heavy metal ions, especially copper. The
degree of unsaturation of the oil is also relevant to shelf-life 鈥? oils with a high
linolenic fatty acid content (3 double bonds) being more prone that those with a higher
saturated fatty acid content. Autoxidation can be minimized by the presence of anti
-oxidants, which can act as free-radical inhibitors. Vegetable oils should therefore be
stored in a cool place away from heat and light, and should only come into contact with
inert (glass of stainless steel) containers which will not leach heavy metals. Blanketing
under nitrogen should be considered in bulk storages.
Food grade materials must be protected from all possible contaminants.
Avoid reaction with oxidising agents.
Materials soaked with plant/ vegetable derived (and rarely, animal) oils may undergo
spontaneous combustion.
STORAGE REQUIREMENTS
路 Store in original containers.
路 Keep containers securely sealed.
路 No smoking, naked lights or ignition sources.
路 Store in a cool, dry, well-ventilated area.
路 Store away from incompatible materials and foodstuff containers.
路 Protect containers against physical damage and check regularly for leaks.
路 Observe manufacturer's storing and handling recommendations.
_____________________________________________________
SAFE STORAGE WITH OTHER CLASSIFIED CHEMICALS
+ + + + + +
_____________________________________________________
+: May be stored together
O: May be stored together with specific preventions
X: Must not be stored together
Section 8 - EXPOSURE CONTROLS / PERSONAL PROTECTION
EXPOSURE CONTROLS
The following materials had no OELs on our records
鈥? soybean oil: CAS:8001- 22- 7
MATERIAL DATA
vegetable oil mists (except castor, cashew nut and similar irritant oils)
TLV TWA: 10 mg/m3
ES TWA: 10 mg/m3
OSHA PEL TWA: 15 mg/m3, total particulate; 5 mg/m3, respirable particulate
The common vegetable oil mists are considered "nuisance" particulates which have little
adverse effect on the lung. They do not produce toxic effects or significant organic
disease when exposures are kept under reasonable control. Direct instillation of
vegetable oils into rabbit lungs produces acute bronchitis whilst high oral doses are
laxatives.
PERSONAL PROTECTION
� SOYBEAN OIL
Chemwatch Material Safety Data Sheet
Issue Date: 1-Nov-2007 CHEMWATCH 19928
NC317TCP Version No:2
CD 2007/4 Page 6 of 12
Section 8 - EXPOSURE CONTROLS / PERSONAL PROTECTION
EYE
路 Safety glasses with side shields
路 Chemical goggles.
路 Contact lenses may pose a special hazard; soft contact lenses may absorb and
concentrate irritants. A written policy document, describing the wearing of lens or
restrictions on use, should be created for each workplace or task. This should include a
review of lens absorption and adsorption for the class of chemicals in use and an account
of injury experience. Medical and first-aid personnel should be trained in their removal
and suitable equipment should be readily available. In the event of chemical exposure,
begin eye irrigation immediately and remove contact lens as soon as practicable. Lens
should be removed at the first signs of eye redness or irritation - lens should be
removed in a clean environment only after workers have washed hands thoroughly. [CDC
NIOSH Current Intelligence Bulletin 59].
HANDS/FEET
Suitability and durability of glove type is dependent on usage. Factors such as:
路 frequency and duration of contact,
路 chemical resistance of glove material,
路 glove thickness and
路 dexterity,
are important in the selection of gloves.
Wear chemical protective gloves, eg. PVC.
Wear safety footwear or safety gumboots, eg. Rubber.
OTHER
路 Overalls.
路 P.V.C. apron.
路 Barrier cream.
路 Skin cleansing cream.
路 Eye wash unit.
RESPIRATOR
Selection of the Class and Type of respirator will depend upon the level of breathing
zone contaminant and the chemical nature of the contaminant. Protection Factors (defined
as the ratio of contaminant outside and inside the mask) may also be important.
Breathing Zone Level Maximum Protection Half- face Full- Face
ppm (volume) Factor Respirator Respirator
1000 10 A- AUS P -
1000 50 - A- AUS P
5000 50 Airline * -
5000 100 - A- 2 P
10000 100 - A- 3 P
100+ Airline**
* - Continuous Flow ** - Continuous-flow or positive pressure demand.
The local concentration of material, quantity and conditions of use determine the type of
personal protective equipment required.
For further information consult site specific
CHEMWATCH data (if available), or your
Occupational Health and Safety Advisor.
� SOYBEAN OIL
Chemwatch Material Safety Data Sheet
Issue Date: 1-Nov-2007 CHEMWATCH 19928
NC317TCP Version No:2
CD 2007/4 Page 7 of 12
Section 8 - EXPOSURE CONTROLS / PERSONAL PROTECTION
ENGINEERING CONTROLS
General exhaust is adequate under normal operating conditions. If risk of overexposure
exists, wear SAA approved respirator. Correct fit is essential to obtain adequate
protection. Provide adequate ventilation in warehouse or closed storage areas. 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.
Type of Contaminant: Air Speed:
solvent, vapours, degreasing etc., 0.25- 0.5 m/s (50- 100 f/min)
evaporating from tank (in still air)
aerosols, fumes from pouring operations, 0.5- 1 m/s (100- 200 f/min.)
intermittent container filling, low speed
conveyer transfers, welding, spray drift,
plating acid fumes, pickling (released at
low velocity into zone of active
generation)
direct spray, spray painting in shallow 1- 2.5 m/s (200- 500 f/min)
booths, drum filling, conveyer loading,
crusher dusts, gas discharge (active
generation into zone of rapid air motion)
grinding, abrasive blasting, tumbling, high 2.5- 10 m/s (500- 2000 f/min.)
speed wheel generated dusts (released at
high initial velocity into zone of very
high rapid air motion).
Within each range the appropriate value depends on:
Lower end of the range Upper end of the range
1: Room air currents minimal or favourable 1: Disturbing room air currents
to capture
2: Contaminants of low toxicity or of 2: Contaminants of high toxicity
nuisance value only
3: Intermittent, low production. 3: High production, heavy use
4: Large hood or large air mass in motion 4: Small hood - local control only
Simple theory shows that air velocity falls rapidly with distance away from the opening
of a simple extraction pipe. Velocity generally decreases with the square of distance
from the extraction point (in simple cases). Therefore the air speed at the extraction
point should be adjusted, accordingly, after reference to distance from the contaminating
source. The air velocity at the extraction fan, for example, should be a minimum of 1-2
m/s (200-400 f/min.) for extraction of solvents generated in a tank 2 meters distant from
the extraction point. Other mechanical considerations, producing performance deficits
within the extraction apparatus, make it essential that theoretical air velocities are
multiplied by factors of 10 or more when extraction systems are installed or used.
Care: Atmospheres in bulk storages and even apparently empty tanks may be hazardous by
oxygen depletion. Atmosphere must be checked before entry.
Requirements of State Authorities concerning conditions for tank entry must be met.
Particularly with regard to training of crews for tank entry; work permits; sampling of
atmosphere; provision of rescue harness and protective gear as needed.
� SOYBEAN OIL
Chemwatch Material Safety Data Sheet
Issue Date: 1-Nov-2007 CHEMWATCH 19928
NC317TCP Version No:2
CD 2007/4 Page 8 of 12
Section 9 - PHYSICAL AND CHEMICAL PROPERTIES
APPEARANCE
Pale yellow to amber-yellow oil; floats on water. A slight characteristic odour taste. A
triglyceride oil. Mixes with ether, chloroform, petroleum ether and carbon disulfide.
Viscosity in centipoises is 99.7 cp. at 10 C, 50.1 cp.at 25 C .
PHYSICAL PROPERTIES
Liquid.
Does not mix with water.
Floats on water.
Molecular Weight: Not applicable Boiling Range (掳C): Not available
Melting Range (掳C): - 16 to - 10 Specific Gravity (water=1): 0.916- 0.922
Solubility in water (g/L): Immiscible pH (as supplied): Not applicable
pH (1% solution): Not applicable Vapour Pressure (kPa): Negligible
Volatile Component (%vol): Negligible Evaporation Rate: Not Available
Relative Vapour Density (air=1): Not Flash Point (掳C): 282
Available
Lower Explosive Limit (%): Not available Upper Explosive Limit (%): Not available
Autoignition Temp (掳C): 445 Decomposition Temp (掳C): 352
State: Liquid Viscosity: 45.8 cSt@40掳C
Section 10 - CHEMICAL STABILITY AND REACTIVITY INFORMATION
CONDITIONS CONTRIBUTING TO INSTABILITY
路 Presence of incompatible materials.
路 Product is considered stable.
路 Hazardous polymerisation will not occur.
Section 11 - TOXICOLOGICAL INFORMATION
POTENTIAL HEALTH EFFECTS
ACUTE HEALTH EFFECTS
SWALLOWED
Overexposure is unlikely in this form.
The material has NOT been classified by EC Directives or other classification systems as
"harmful by ingestion". This is because of the lack of corroborating animal or human
evidence. The material may still be damaging to the health of the individual, following
ingestion, especially where pre-existing organ (eg. liver, kidney) damage is evident.
Present definitions of harmful or toxic substances are generally based on doses producing
mortality rather than those producing morbidity (disease, ill-health). Gastrointestinal
tract discomfort may produce nausea and vomiting. In an occupational setting however,
ingestion of insignificant quantities is not thought to be cause for concern.
Use in food, and as food additive indicates high degree of tolerance.
EYE
Although the liquid is not thought to be an irritant (as classified by EC Directives),
direct contact with the eye may produce transient discomfort characterised by tearing or
conjunctival redness (as with windburn).
SKIN
The liquid may be miscible with fats or oils and may degrease the skin, producing a skin
reaction described as non-allergic contact dermatitis. The material is unlikely to
� SOYBEAN OIL
Chemwatch Material Safety Data Sheet
Issue Date: 1-Nov-2007 CHEMWATCH 19928
NC317TCP Version No:2
CD 2007/4 Page 9 of 12
Section 11 - TOXICOLOGICAL INFORMATION
produce an irritant dermatitis as described in EC Directives .
Entry into the blood-stream, through, for example, cuts, abrasions or lesions, may
produce systemic injury with harmful effects. Examine the skin prior to the use of the
material and ensure that any external damage is suitably protected.
INHALED
The material is not thought to produce adverse health effects or irritation of the
respiratory tract (as classified by EC Directives using animal models). Nevertheless,
good hygiene practice requires that exposure be kept to a minimum and that suitable
control measures be used in an occupational setting.
Inhalation of oil droplets or aerosols may cause discomfort and may produce chemical
inflammation of the lungs.
Fine mists generated from plant/ vegetable (or more rarely from animal) oils may be
hazardous. Extreme heating for prolonged periods, at high temperatures, may generate
breakdown products which include acrolein and acrolein-like substances.
CHRONIC HEALTH EFFECTS
Substance accumulation, in the human body, may occur and may cause some concern following
repeated or long-term occupational exposure.
Glyceryl triesters (triglycerides) undergo metabolism to become free fatty acids and
glycerol. Animal studies show that there is no toxicity when given by mouth unless the
material takes up a large proportion of energy intake.
TOXICITY AND IRRITATION
unless otherwise specified data extracted from RTECS - Register of Toxic Effects of
Chemical Substances.
No significant acute toxicological data identified in literature search.
Refined grades are edible. Non irritant.
Section 12 - ECOLOGICAL INFORMATION
Unsaturated vegetable oils are often used in paints which upon "drying" produce a
polymeric network formed of the constituent fatty acids.
During the drying process, a number of compounds are produced that do not contribute to
the polymer network. These include unstable hydroperoxide (ROOH) the major by-product of
the reaction of oxygen with unsaturated fatty acids. The hydroperoxides quickly decompose
, forming carbon dioxide and water, as well as a variety of aldehydes, acids and
hydrocarbons. Many of these compounds are volatile, and in an unpigmented oil, they would
be quickly lost to the environment. However, in paints, such volatiles may react with
lead, zinc, copper or iron compounds in the pigment, and remain in the paint film as
coordination complexes or salts. A large number of the original ester bonds in the oil
molecules undergo hydrolysis releasing individual fatty acids. Some portion of the free
fatty acids react with metals in the pigment, producing metal carboxylates. Together, the
various non-cross-linking substances associated with the polymer network constitute the
mobile phases. Unlike the molecules that are part of the network itself, they are capable
of moving and diffusing within the film, and can be removed using heat or a solvent. The
mobile phase may play a role in plasticising the paint film, preventing it from becoming
too brittle.
One simple technique for monitoring the early stages of the drying process is to measure
weight change in an oil film over time. Initially, the film becomes heavier, as it
absorbs large amounts of oxygen. Then oxygen uptake ceases, and the weight of the film
declines as volatile compounds are lost to the environment.
As the oil ages, a further transition occurs. Carboxyl groups in the polymers of the
stationary phase lose a hydrogen ion, becoming negatively charged, and form complexes
with metal cations present in the pigment. The original network, with its nonpolar,
covalent bonds is replaced by an ionomeric structure, held together by ionic
interactions. At present, the structure of these ionomeric networks is not well
understood.
Substances containing unsaturated carbons are ubiquitous in indoor environments. They
� SOYBEAN OIL
Chemwatch Material Safety Data Sheet
Issue Date: 1-Nov-2007 CHEMWATCH 19928
NC317TCP Version No:2
CD 2007/4 Page 10 of 12
Section 12 - ECOLOGICAL INFORMATION
result from many sources (see below). Most are reactive with environmental ozone and many
produce stable products which are thought to adversely affect human health.The potential
for surfaces in an enclosed space to facilitate reactions should be considered.
Source of unsaturated Unsaturated substances Major Stable Products
substances (Reactive Emissions) produced following reaction
with ozone.
Occupants (exhaled breath, Isoprene, nitric oxide, Methacrolein, methyl vinyl
ski oils, personal care squalene, unsaturated ketone, nitrogen dioxide,
products) sterols, oleic acid and acetone, 6MHQ, geranyl
other unsaturated fatty acetone, 4OPA, formaldehyde,
acids, unsaturated oxidation nonanol, decanal, 9- oxo-
products nonanoic acid, azelaic acid,
nonanoic acid.
Soft woods, wood flooring, Isoprene, limonene, alpha- Formaldehyde, 4- AMC,
including cypress, cedar and pinene, other terpenes and pinoaldehyde, pinic acid,
silver fir boards, sesquiterpenes pinonic acid, formic acid,
houseplants methacrolein, methyl vinyl
ketone, SOAs including
ultrafine particles
Carpets and carpet backing 4- Phenylcyclohexene, 4- Formaldehyde, acetaldehyde,
vinylcyclohexene, styrene, benzaldehyde, hexanal,
2- ethylhexyl acrylate, nonanal, 2 - nonenal
unsaturated fatty acids and
esters
Linoleum and paints/polishes Linoleic acid, linolenic Propanal, hexanal, nonanal,
containing linseed oil acid 2- heptenal, 2- nonenal, 2-
decenal, 1- pentene- 3 -
one, propionic acid, n-
butyric acid
Latex paint Residual monomers Formaldehyde
Certain cleaning products, Limonene, alpha- pinene, Formaldehyde, acetaldehyde,
polishes, waxes, air terpinolene, alpha- glycoaldehyde, formic acid,
fresheners terpineol, linalool, linalyl acetic acid, hydrogen and
acetate and other organic peroxides, acetone,
terpenoids, longifolene and benzaldehyde, 4- hydroxy- 4-
other sesquiterpenes methyl- 5- hexen- 1- al, 5 -
ethenyl- dihydro- 5- methyl-
2(3H)- furanone, 4- AMC,
SOAs including ultrafine
particles
Natural rubber adhesive Isoprene, terpenes Formaldehyde, methacrolein,
methyl vinyl ketone
Photocopier toner, printed Styrene Formaldehyde, benzaldehyde
paper, styrene polymers
Environmental tobacco smoke Styrene, acrolein, nicotine Formaldehyde, benzaldehyde,
hexanal, glyoxal, N-
methylformamide,
nicotinaldehyde, cotinine
Soiled clothing, fabrics, Squalene, unsaturated Acetone, geranyl acetone,
bedding sterols, oleic acid and 6MHO, 40PA, formaldehyde,
other saturated fatty acids nonanal, decanal, 9 - oxo-
nonanoic acid, azelaic acid,
nonanoic acid
Soiled particle filters Unsaturated fatty acids from Formaldehyde, nonanal, and
plant waxes, leaf litter, other aldehydes; azelaic
and other vegetative debris; acid; nonanoic acid; 9- oxo-
soot; diesel particles nonanoic acid and other oxo-
acids; compounds with mixed
functional groups (=O, - OH,
and - COOH)
� SOYBEAN OIL
Chemwatch Material Safety Data Sheet
Issue Date: 1-Nov-2007 CHEMWATCH 19928
NC317TCP Version No:2
CD 2007/4 Page 11 of 12
Section 12 - ECOLOGICAL INFORMATION
Ventilation ducts and duct Unsaturated fatty acids and C5 to C10 aldehydes
liners esters, unsaturated oils,
neoprene
" Urban grime" Polycyclic aromatic Oxidized polycyclic aromatic
hydrocarbons hydrocarbons
Perfumes, colognes, Limonene, alpha- pinene, Formaldehyde, 4- AMC,
essential oils (e.g. linalool, linalyl acetate, acetone, 4- hydroxy- 4-
lavender, eucalyptus, tea terpinene- 4- ol, gamma - methyl- 5- hexen- 1- al, 5-
tree) terpinene ethenyl - dihydro- 5-
methyl- 2(3H) furanone, SOAs
including ultrafine
particles
Overall home emissions Limonene, alpha- pinene, Formaldehyde, 4- AMC,
styrene pinonaldehyde, acetone,
pinic acid, pinonic acid,
formic acid, benzaldehyde,
SOAs including ultrafine
particles
Abbreviations: 4-AMC, 4-acetyl-1-methylcyclohexene; 6MHQ, 6-methyl-5-heptene-2-one, 4OPA,
4-oxopentanal, SOA, Secondary Organic Aerosols
Reference: Charles J Weschler; Environmental Helath Perspectives, Vol 114, October 2006.
DO NOT discharge into sewer or waterways.
Section 13 - DISPOSAL CONSIDERATIONS
Legislation addressing waste disposal requirements may differ by country, state and/ or
territory. Each user must refer to laws operating in their area. In some areas, certain
wastes must be tracked.
A Hierarchy of Controls seems to be common - the user should investigate:
路 Reduction,
路 Reuse
路 Recycling
路 Disposal (if all else fails)
This material may be recycled if unused, or if it has not been contaminated so as to make
it unsuitable for its intended use. If it has been contaminated, it may be possible to
reclaim the product by filtration, distillation or some other means. Shelf life
considerations should also be applied in making decisions of this type. Note that
properties of a material may change in use, and recycling or reuse may not always be
appropriate.
DO NOT allow wash water from cleaning or process equipment to enter drains.
It may be necessary to collect all wash water for treatment before disposal.
In all cases disposal to sewer may be subject to local laws and regulations and these
should be considered first. Where in doubt contact the responsible authority.
路 Recycle wherever possible or consult manufacturer for recycling options.
路 Consult State Land Waste Authority for disposal.
路 Bury or incinerate residue at an approved site.
路 Recycle containers if possible, or dispose of in an authorised landfill.
Section 14 - TRANSPORTATION INFORMATION
� SOYBEAN OIL
Chemwatch Material Safety Data Sheet
Issue Date: 1-Nov-2007 CHEMWATCH 19928
NC317TCP Version No:2
CD 2007/4 Page 12 of 12
Section 14 - TRANSPORTATION INFORMATION
HAZCHEM: None
NOT REGULATED FOR TRANSPORT OF DANGEROUS GOODS:UN, IATA,
IMDG
Section 15 - REGULATORY INFORMATION
POISONS SCHEDULE: Exempt
REGULATIONS
soybean oil (CAS: 8001-22-7) is found on the following regulatory lists;
Australia Inventory of Chemical Substances (AICS)
Australia Therapeutic Goods Administration (TGA) Substances that may be used as active ingredients in Listed medicines
IMO IBC Code Chapter 17: Summary of minimum requirements
IMO IBC Code Provisioanl Categorization of Liquid Substances
IMO MARPOL 73/78 (Annex II) - List of Noxious Liquid Substances Carried in Bulk
OECD Representative List of High Production Volume (HPV) Chemicals
Section 16 - OTHER INFORMATION
Classification of the preparation and its individual components has drawn on official and
authoritative sources as well as independent review by the Chemwatch Classification
committee using available literature references.
A list of reference resources used to assist the committee may be found at:
www.chemwatch.net/references.
The (M)SDS is a Hazard Communication tool and should be used to assist in the Risk
Assessment. Many factors determine whether the reported Hazards are Risks in the
workplace or other settings. Risks may be determined by reference to Exposures Scenarios.
Scale of use, frequency of use and current or available engineering controls must be
considered.
This document is copyright. Apart from any fair dealing for the purposes of private study, research, review or
criticism, as permitted under the Copyright Act, no part may be reproduced by any process without written permission
from CHEMWATCH. TEL (+61 3) 9572 4700.
Issue Date: 1-Nov-2007
Print Date: 8-Feb-2008
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