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Nitrocellulose

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Nitrocellulose Basic information

Product Name:
Nitrocellulose
Synonyms:
  • NITROCELLULOSE MEMBRANES 0.45 MICRON 2&
  • NITROCELLULOSE MEMBRANE 0.45 MICRON*PORE SIZE 7 X 1
  • NITROCELLULOSE (IMMOBILON-NC HATF,*SURFA CTANT-FREE)
  • CELLULOSE NITRATE, 12 WT. % N, VISCOSITY 800-1,000 SEC (WITH 30% IPA)
  • CELLULOSE NITRATE 11 WT. % N VISCOSIT&
  • FILTER MEMBRANE, NITROCELLULOSE*PORE SIZ E: 0.45 UM
  • NITROCELLULOSE MEMBRANE 0.45 MICRON*PORE SIZE 15 X
  • COLLODION SOLUTION, ~7% IN ETHANOL/
CAS:
9004-70-0
MF:
C24H36N8O38
MW:
1044.57344
EINECS:
933-629-2
Product Categories:
  • Pharmaceutical Intermediates
Mol File:
9004-70-0.mol
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Nitrocellulose Chemical Properties

Melting point:
100 °C
Boiling point:
83 °C(lit.)
Density 
1.23 g/mL at 25 °C(lit.)
refractive index 
1.6081 (estimate)
Flash point:
53 °F
storage temp. 
0-6°C
solubility 
esters, ketones, ether-alcohol mixtures (collodion) and glycol ethers: soluble
form 
Viscous Liquid
color 
Clear colorless to light yellow
Specific Gravity
0.765~0.775
PH
pH(25℃):4.0~8.0
Dielectric constant
6.2(Ambient)
Stability:
Stable. Extremely flammable - presents a serious fire risk. Note the very low flash point and extremely wide explosive limits. Readily forms an explosive mixture with air. Incompatible with oxidizing agents, strong acids, strong bases, amines
EPA Substance Registry System
Nitrocellulose (9004-70-0)
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Safety Information

Hazard Codes 
F,Xi,Xn,F+,E,T
Risk Statements 
11-36/38-1-10-67-66-22-19-12-36-3-61
Safety Statements 
23-33-29-16-9-35-26-37/39-45-53
RIDADR 
UN 2556 4.1/PG 2
WGK Germany 
1
RTECS 
QW0970000
8
HazardClass 
1.1D
HS Code 
39122011
Hazardous Substances Data
9004-70-0(Hazardous Substances Data)
Toxicity
LD50 oral in rat: > 5gm/kg

MSDS

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Nitrocellulose Usage And Synthesis

Description

Early explosives used nitric acid. They were so unstable to handle that European scientists tried to find an explosive compound for better safety. Around 1846, it was discovered that concentrated nitric acid absorbed into cotton was not explosive until dried; thus, guncotton was developed by chemical binding of nitrate to cellulose. Preventing spontaneous explosions during the manufacturing process required extensive washing and drying of the cotton. In 1884, a French chemist made smokeless powders from nitrocellulose. Their more stable and slower burning properties enabled development of firearms and artillery ammunitions. Eastman Kodak film products used nitrocellulose as early as 1889. The film was used until 1933 for X-ray films and for motion picture films until 1951.
Nitrocellulose can take on various physical forms, from white fibers to thin sheets to thick liquid. Nitrocellulose can also be a white, yellow, or transparent plastic. Its rigidity varies from brittle to flexible. The unique properties enable nitrocellulose to be used now in a wide variety of products. The variability in physical properties comes from the content of nitrogen and determines the use. The molecular weight of nitrocellulose ranges from 459.28 to 594.28, and the molecular formula is expressed as [C6H7O2(ONO2)3]n. The hydroxyl group of glucose units react to form nitrocellulose chains and membranes.
Nitrocellulose is thus a fibrous solid polymer consisting of the cellulose ester of nitric acid. Its specific gravity is 1.66. Its form can be a white pulpy, cotton-like, amorphous solid in the dried state, or a colorless liquid to semisolid, depending on the degree of nitration. It has low water solubility; however, it is soluble in 25% of a mixture of 1 volume of alcohol and 3 volumes of ether, forming collodion. Nitrocellulose is also soluble in organic solvents such as methanol, acetone, glacial acetic acid, and amyl acetate.

Chemical Properties

pale yellow syrupy liquid

Chemical Properties

Nitrocellulose is a pulpy, cotton-like solid, or a colorless liquid solution.

Uses

In manufacture of collodions; in lacquer coatings, inks, adhesives. Cellulose hexanitrate is used in explosives and propellants. Celloidin is used for embedding sections in microscopy; in electrotechnics, photography, galvanoplasty.

Uses

Nitrocellulose is used as a propellant in artillery ammunition, in small-arms ammunition, in chemical explosives, and in smokeless powder. It is made by reacting cotton with nitric acid.

Uses

Products using nitrocellulose range from a strong, resistant plastic to an unstable class B (highly flammable, explosive when confined) explosive material. The major products include smokeless gun powder, waterproof fuses in pyrotechnics, inks, adhesives, varnishes, resins, lacquer coatings, embedding sections in microscopy, photography, and plastics. Nitrocellulose membranes are used to immobilize DNA, RNA, or protein to probe with a labeled sequence or antibody in experimental laboratory methods such as Western blotting. Other uses include skin protectants for cosmetics and microfilters. Nitrocellulose is also currently utilized in photography, lacquers, patent and natural leathers, artificial pearls, process engraving, and cements. Guncotton dissolved in a 25% acetone solvent can be used for wood finishing, providing deep luster.

Preparation

Cellulose nitrate is prepared according to the following reaction:
C6H10O5+HNO3-->[-C6H7O2(OH)(ONO2)2-]n
The nitrogen content for plastics is usually about 11%, for lacquers and cement base it is 12%, and for explosives it is 13%. The standard plasticizer added is camphor.
Key properties of cellulose nitrate are good dimensional stability, low water absorption, and toughness. Its disadvantages are its flammability and lack of stability to heat and sunlight.

Definition

cellulose nitrate: A highly flammablematerial made by treating cellulose(wood pulp) with concentratednitric acid. Despite the alternativename nitrocellulose, the compound isin fact an ester (containing CONO2groups), not a nitro compound(which would contain C–NO2). It isused in explosives (as guncotton) andcelluloid.

Definition

Collodion: a thin film of cellulosenitrate made by dissolving the cellulosenitrate in ethanol or ethoxyethane,coating the surface, andevaporating the solvent.

General Description

Pale yellow syrupy liquid with an ether-like odor. Floats on water. Produces an irritating vapor. Immiscible with water. Boiling point is around 94°F.

Air & Water Reactions

Highly flammable. Insoluble in water.

Reactivity Profile

Nitrocellulose is a solution of pyroxylin in ether and alcohol with a flash point of approximately 0°F.

Hazard

Flammable, dangerous fire and explosion risk. Somewhat less flammable when wet.

Health Hazard

High concentration of ether fumes may cause narcosis, loss of consciousness and respiratory paralysis if inhaled. Contact with eyes causes irritation.

Fire Hazard

Nitrocellulose is a white fibrous solid or amorphous powder. It is wetted with water, alcohol, or other solvent for handling and storage. It may be made to various forms, gel, flake, granular, or powder. Dry material is a low explosive and often used in combination with another explosive, such as nitroglycerine, to obtain more brisance for the composition. Dry nitrocellulose does not detonate but deflagrates. When wetted with water or alcohol, its sensitivity is considerably reduced.
Nitrocellulose presents three types of hazards. As mentioned earlier, it is an explosive compound. It explodes upon burning or friction. It is a flammable solid having a flash point of 13°C (55 °F). It can therefore ignite at ambient temperatures, thus presenting a severe fire and explosion hazard. It burns at a very rapid rate. The combustion products consist of extremely toxic gases: notably, hydrogen cyanide, carbon monoxide, and oxides of nitrogen.
Fires involving nitrocellulose should be fought with extreme caution. Unmanned fixed turrets and hose nozzles should be used. Since nitrocellulose produces oxygen on decomposition, a large volume of water should be applied through spray nozzles to cool the material and wet the entire surface. Self-contained breathing apparatus must be worn by firefighters for protection against highly toxic gases. .

Agricultural Uses

Cellulose nitrate is a highly flammable material made by treating cellulose (wood pulp) with a mixture of concentrated nitric acid and concentrated sulphuric acid. Despite the alternative name, nitrocellulose, cellulose nitrate is an ester of cellulose containing -ONO2 groups and is not a nitro compound. It is used in explosives and celluloid.

Agricultural Uses

When cellulose is acidulated with a mixture of concentrated nitric acid and sulphuric acid, nitrocellulose is formed, which is also called cellulose nitrate. The nitrocellulose is used in explosives and celluloid, since it is highly inflammable. Nitrocellulose is not a nitro compound, but an ester containing -CONO2groups.

Industrial uses

Cellulose nitrates are materials made by treatingcellulose with a mixture of nitric and sulfuricacids, washing free of acid, bleaching,stabilizing, and dehydrating. For sheets, rods, and tubes it is mixed with plasticizers and pigmentsand rolled or drawn to the shape desired.The lower nitrates are very inflammable, butthey do not explode like the high nitrates, andthey are the ones used for plastics, rayons, andlacquers, although their use for clothing fabricsis restricted by law. The names cellulose nitrateand pyroxylin are used for the compounds oflower nitration, and the term nitrocellulose isused for the explosives.The outstanding toughness properties ofcellulose nitrate lead to its continuing use insuch applications as optical frames, shoe eyelets,ping pong balls, and pen barrels.

Safety Profile

Very low oral toxicity. Flammable solid. Highly dangerous fire hazard in the dry state when exposed to heat, flame, or powerful oxidizers. When wet with 35% of denatured ethanol it is about as hazardous as ethanol alone or gasoline. Dry cellulose tetranitrate burns rapidly with intense heat and ignites easily. Moderately dangerous explosion hazard. To fight fire, use copious volumes of water; alcohol foam. CO2 is effective in extinguishing fires of nitrocellulose solvents. See also EXPLOSIVES, HIGH.

Potential Exposure

It is used in making explosives, rocket propellants and celluloid.

Environmental Fate

The physicochemical properties of nitrocellulose limit dispersion throughout the environment. In addition to those noted earlier, the melting point of the solid is relatively high (between 169 and 170℃), the flash point is 12.8 ℃, and nitrocellulose is nonvolatile. Nitrocellulose is insoluble in water, and thus is not detected in high concentrations in water, and tends to stay on sediments. Direct decomposition of nitrocellulose is unlikely, as the degradation process needs a severe chemical reaction like alkaline hydrolysis to break its beta 1 → 4- glucoside units bond linkages.
Because of its particulate character, specific gravity, and low solubility, nitrocellulose particles tend to accumulate in sediments in aqueous systems. The settled particles are very stable and resistant to degradation for long periods of time. They appear to remain unchanged in the environment. Their biodecomposition by microorganisms is also not likely. No studies are available on their long-range transport.

storage

Nitrocellulose should be stored as a wetted substance and never allowed to go dry. Storage should be in a cool, well-entilated location isolated from all heat sources. Shipping should be in steel drums or barrels wet with 25-35% alcohol, water, or other solvent.

Shipping

UN2555, UN2556 and UN2557 requires a shipping label of “FLAMMABLE SOLID.” They fall in DOT Hazard Class 4.1. UN0342 and UN0343 requires a shipping label of “EXPLOSIVE.” They fall in DOT Hazard Class 1.3C.

Incompatibilities

Dust and powder form explosive mixture with air. Keep wet; do not allow to become dry. Dry material is a shock-sensitive explosive. Desensitize using water or alcohol. Incompatible with oxidizers (chlorates, nitrates, peroxides, permanganates, perchlorates, chlorine, bromine, fluorine, etc.); contact may cause fires or explosions. Keep away from alkaline materials, strong bases, strong acids, oxoacids, epoxides.

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