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Chlor paraffine is used in PVC cable material as plasticizer or auxiliary plasticizer.
Chlor paraffine is used as a cost-reducing filler in paint, increasing the cost performance.
Chlor paraffine is used as an additive in rubber, paint, and cutting oil to play a role of fire resistance, flame resistance and improve cutting accuracy.
CAS Numbers (common types):
63449-39-8 – Chlor paraffin (general mixture)
85535-84-8 – Chlor paraffin C10–C13
85535-85-9 – Chlor paraffin C14–C17
68920-70-7 – Chlor paraffin mixtures
EC Numbers (examples):
264-150-0
287-477-0
Approximate Chemical Formula: Because it is a mixture, the formula varies.
A representative formula is: C12H19Cl7
SYNONYMS:
Chlorinated paraffin, Chlorinated paraffins, Chlorinated alkanes, Chlorinated paraffin wax, Chloroparaffin, Chlorinated paraffin liquid, Chlorinated hydrocarbons (paraffin type), CERECLOR, Hordaflex, Hordalub, CP-52, CP-70, CP-470, liquid, CHLOROPARAFFIN, Plastoil 1040, Chlorinated Paraffin 52%, Chlorinated Paraffin (70%), Cereclor, CERECLORS52, Plastoil 152, Ncgc00091464-01, Chlorinated waxes, Chlorinated paraffin, Chlorinated paraffins, Chlorinated alkanes, Chlorinated paraffin wax, Chloroparaffin, Chlorinated paraffin liquid, Chlorinated hydrocarbons (paraffin type), CERECLOR, Hordaflex, Hordalub, CP-52, CP-70, CP-470
Chlor paraffine is a water-white or yellow oily viscous liquid.
Chlor paraffine has the advantages of low volatility, flame retardant, odorless, good electrical insulation and cheap price.
Chlor paraffine can replace part of the main plasticize when used in PVC cable material to reduce the cost of the product and improve the electrical insulation, flame resistance and tensile strength of the product.
Chlor paraffines are chemicals manufactured by chlorination of liquid n-paraffin or paraffin wax.
The largest application for Chlor paraffines is as a plasticiser and flame-retardant in flexible PVC.
They are also used as plasticisers in paint, sealants and adhesives.
Higher chlorine content grades are used as flame-retardants in a wide range of rubbers and polymer systems.
Another major outlet for Chlor paraffines is in the formulation of metalworking lubricants where they have long been recognised as one of the most effective additives that can be used in a wide range of engineering areas.
Chlor paraffine is produced by chlorination of straight-chained paraffin wax fractions.
The carbon chain length of commercial Chlor paraffine is usually between 10 and 30 carbon atoms, and the chlorine content is usually between 40 and 70% by weight.
Chlor paraffine is viscous colorless or yellowish dense oils with low vapor pressures, except for those of long carbon chain length with high chlorine content (70%), which are solid.
Chlor paraffine is practically insoluble in water, lower alcohols, glycerol and glycols, but are soluble in chlorinated solvents, aromatic hydrocarbons, ketones, esters, ethers, mineral oils and some cutting oils.
Chlor paraffine is moderately soluble in unchlorinated aliphatic hydrocarbons.
Chlor paraffine consists of extremely complex mixtures, owing to the many possible positions for the chlorine atoms.
Chlor paraffine's appearance is white to yellow viscous liquid.
Chlor paraffine is a versatile, colorless or yellowish liquid or solid.
Chlorine Paraffin, which acts as a secondary plasticizer, is preferred in sectors such as PVC resin and synthetic rubber.
Chlor paraffine is added to the production of cable sheaths as a flame retardant agent because it adds non-flammability to the product.
The degree of chlorination of Chlor paraffine, which are also preferred as working fluids in the metal processing industry, varies by weight.
In industry, Chlor paraffine with chlorination degrees between 30 and 70 are used.
Chlor paraffine also acts as a component of PVC industrial hoses and products such as leather belts and cables.
Chlor paraffine is high compatibility with PVC, rubber, and other polymers.
Chlor paraffine has good thermal and chemical stability.
Chlor paraffine is a group of industrial chemicals consisting of chlorinated straight-chain paraffin hydrocarbons.
These substances are produced by chlorination of paraffin fractions obtained from petroleum.
Chlor paraffine is a chlorinated derivative of alkanes, which has the advantages of low volatility, flame retardancy, good electrical insulation and low price.
Chlor paraffine is a light yellow viscous liquid.
The freezing point of Chlor paraffine is -30 and the relative density is 1.16(25/25).
Chlor paraffine is insoluble in water, soluble in organic solvents and various mineral oils.
Chlor paraffine is a light yellow to yellow oily viscous liquid.
The freezing point of Chlor paraffine is less than -20, and the relative density (25/25) is 1.22-1.26.
Chlor paraffine is soluble in benzene and ether, slightly soluble in ethanol, insoluble in water.
Chlor paraffine is resin powder, white or light yellow, relative density is 1.65(25/4).
Chlor paraffine is a group of chemicals that consists of chlorinated hydrocarbons.
Chlor paraffines are formed by the chlorination of long-chain hydrocarbons and have varying degrees of chlorine content.
Chlor paraffines (CPs) are complex mixtures of polychlorinated n-alkanes.
The chlorination degree of Chlor paraffine can vary between 30 and 70 wt%.
Chlor paraffines are subdivided according to their carbon chain length into short chain CPs (SCCPs, C10–13), medium chain CPs (MCCPs, C14–17) and long chain CPs (LCCPs, C>17).
Depending on chain length and chlorine content, Chlor paraffines are colorless or yellowish liquids or solids.
Chlor paraffines are synthesized by reaction of chlorine gas with unbranched paraffin fractions (2 % isoparaffins, 100 ppm aromatics) at a temperature of 80–100 °C.
The radical substitution may be promoted by UV-light.
When the desired degree of chlorination is achieved, residues of hydrochloric acid and chlorine are blown off with nitrogen.
Epoxidized vegetable oil, glycidyl ether or organophosphorous compounds may be added to the final product for improved stability at high temperatures.
Commercial products have been classified as substances of unknown or variable composition.
Chlor paraffines are complex mixtures of chlorinated n-alkanes containing thousands of homologues and isomers which are not completely separated by standard analytical methods.
Chlor paraffines are produced in Europe, North America, Australia, Brazil, South Africa and Asia.
In China, where most of the world production capacity is located, 600,000 tons of Chlor paraffines were produced in 2007.
Chlor paraffines (CPs) are complex mixtures of polychlorinated n-alkanes (paraffin wax).
The chlorination degree of Chlor paraffine can vary between 30 and 70 wt%.
CPs are subdivided according to their carbon chain length into short-chain Chlor paraffine (SCCPs, C10–13), medium-chain CPs (MCCPs, C14–17) and long-chain CPs (LCCPs, C>17).
Depending on chain length and chlorine content, Chlor paraffine are colorless or yellowish liquids or solids.
Chlor paraffines are synthesized by reaction of chlorine gas with unbranched paraffin fractions (<2 % isoparaffins, <100 ppm aromatics) at a temperature of 80–100 °C.
The radical substitution may be promoted by UV-light.
CxH(2x+2) + y Cl2 → CxH(2x−y+2)Cly + y HCl
When the desired degree of chlorination is achieved, residues of hydrochloric acid and chlorine are blown off with nitrogen.
Epoxidized vegetable oil, glycidyl ether or organophosphorous compounds may be added to the final product for improved stability at high temperatures.
Commercial products have been classified as substances of unknown or variable composition.
Chlor paraffines are complex mixtures of chlorinated n-alkanes containing thousands of homologues and isomers which are not completely separated by standard analytical methods.
Chlor paraffines are produced in Europe, North America, Australia, Brazil, South Africa and Asia.
In China, where most of the world production capacity is located, 600,000 tons of Chlor paraffines were produced in 2007.
Production and use volumes of CPs exceeded 1,000,000 tons in 2013.
Production of Chlor paraffine for industrial use started in the 1930s, with global production in 2000 being about 2 million tonnes.
Currently, over 200 Chlor paraffine formulations are in use for a wide range of industrial applications, such as flame retardants and plasticisers, as additives in metal working fluids, in sealants, paints, adhesives, textiles, leather fat and coatings.
Chlor paraffines do not have the characteristic mild and unpleasant odor.
Odor is probably due to small amounts of product from relatively low molecular mass with a small but measurable vapor pressure.
The carbon chain length and chlorine content of paraffin determine the chemical and physical properties of Chlor paraffines.
Increases in carbon chain length and degree of chlorination of certain paraffins increase viscosity and density, but reduce volatility.
Chlor paraffines normally contain stabilizers added to prevent degradation.
Common stabilizers include epoxidized esters and epoxidized compounds such as soybean oils, pentaerythritol, thymol, urea, acetonitriles, and organic phosphates.
Chlor paraffines are a class of chemicals used for a variety of applications.
Chlor paraffine can be classified according to the length of their chlorine chains, and commercial formulations may include a mix of compounds in this class.
CAS 106232-86-4 is considered a Long Chain Chlor paraffine (LCCP), with 24 chlorine atoms.
The long form is less environmentally sensitive than short-length varieties.
Chlor paraffine is largely inert, almost insoluble in water, and flame retardant.
Chlor paraffine can function as a plasticizing additive for metal lubricants and cutting fluids, plastics, rubber, paint, adhesives, and more.
Most of the world’s Chlor paraffine is produced in China.
USES and APPLICATIONS of CHLOR PARAFFINE:
Chlor paraffine is widely used in different industrial sectors.
In the plastics industry, Chlor paraffine functions as a secondary plasticizer in PVC products such as cables, wires, flooring materials, synthetic leather, plastic sheets, and pipes.
In the metalworking industry, Chlor paraffine is used as an extreme-pressure additive in cutting fluids and metalworking lubricants.
In paints and coatings, Chlor paraffine is used in industrial coatings, marine paints, protective coatings, and road marking paints.
Chlor paraffine is also used in rubber and sealant applications, including rubber compounding, adhesives, and sealants.
In the textile industry, Chlor paraffine is applied as a flame-retardant treatment for fabrics.
Other applications of Chlor paraffine include leather processing, waterproofing materials, and construction sealants.
Chlor paraffine is widely used as additives for the production of plasticized PVC, lubricating-cooling mixtures for the cutting and metal printing sector, for the formulation of paints, enamels and sealants, in the rubber and leather industry.
Applications of Chlor paraffine: Plastics, Rubber Industry, Tanning Industry.
Chlor paraffine is used in PVC cable material as plasticizer or auxiliary plasticizer.
Chlor paraffine is used as a cost-reducing filler in paint, increasing the cost performance.
Chlor paraffine is used as an additive in rubber, paint, and cutting oil to play a role of fire resistance, flame resistance and improve cutting accuracy.
Chlor paraffine is used as an anticoagulant and anti-extrusion agent for lubricating oil.
Chlor paraffine can also be used to produce floor materials, hoses, artificial leather, rubber and other products, and can also be used as an additive in polyurethane waterproof coatings, polyurethane plastic runways, lubricants, etc.
Chlor paraffine is mainly used as PVC cable material plasticize or auxiliary plasticize.
Chlor paraffine is used in rubber production
Chlor paraffine is used as a non-flammable plasticizer in PVC formulations.
Chlor paraffine is used in the production of acrylic and vinyl paints.
Chlor paraffine is used to prevent burning in cable sheaths.
Chlor paraffine is used as a high pressure additive in lubricants.
Chlor paraffine is used as a working fluid in metal processing.
Chlor paraffines are used as secondary plasticizers for polyvinyl chloride (PVC) and can be partially replaced by primary plasticizers such as phthalates and phosphate esters.
Chlor paraffines are also used as metallic processing fluids or metalworking lubricants or cutting oils, as well as extreme pressure additives due to their adhesive qualities, compatibility with oils and the ability to release hydrochloric acid at high temperatures.
Chlor paraffines are added to paints, coatings and sealants to improve resistance to water and chemicals, such as marine paints, industrial floor coatings, containers and coatings for swimming pools.
Chlor paraffine can be used in additives in combination with chlorinated polyethylene or chlorinated rubber for the impregnation of textiles, in particular fireproof surface coating and natural fiber fabrics, and in combination with chlorinated polyethylene or chlorinated rubber for the soiling and waterproofing of synthetic fibers.
Due to its polar properties, Chlor paraffine is also used as lubricants for leather and similar raw materials.
Due to full compatibility, low volatility, good stability and non-flammability, various types of Chlorine Paraffin are used as plasticizers in preparations of solvent and emulsion paints and varnishes.
Adding Chlor paraffine to paints or varnishes increases their hardness, gloss and resistance to acids and alkalis and improves the elasticity of the final product.
Chlor paraffine is suitable for incorporation into PVC compounds and a range of other compounds and polymers, including polystyrene, polyethylene, polyester resins and natural and synthetic rubbers in products such as conveyor belts, polystyrene foam and glass fiber reinforced polyester.
Chlor paraffine is used textiles for carpets, carpet backing, tarpaulins and tents and Paints can be treated with compositions to induce flame retardancy.
Chlor paraffine is used in lubricants as an extreme pressure additive, where it forms a tenacious film on working parts.
In cutting oils Chlor paraffine is used as an additive to minimize ‘weld’ formation.
In paints Chlor paraffine is used as a plasticizer for binders and resins.
Chlor paraffine is also used in caulks and sealants.
Chlor paraffine is used as an excellent carrier for powders such as pigments, stabilizers and inorganic fire retardants.
Applications of Chlor paraffine: PVC, synthetic rubber, garden hose, industrial hose, leather, belts, cables, paints, adhesives, sealants.
Intended use of Chlor paraffine: Used as plastifier.
Chlor paraffine increases the fluidity in end material.
Chlor paraffine is used widely as a secondary plasticizer in flexible PVC compounds notably cable, footwear, hosing, conveyor belting, coated fabric and profiles.
In these applications Chlor paraffine can be used to partially replace more expensive primary plasticizers.
In compounds with flame-retardant requirements, Chlor paraffine is used to partially replace more expensive primary flame-retardants.
An important benefit of Chlor paraffine is its ability to reduce the unit cost of flexible PVC compounds.
Chlor paraffine is widely used in many industrial sectors because of their flame-retardant, plasticizing, lubricating, and chemical-resistant properties.
Chlor paraffine is commonly used as secondary plasticizers in PVC, additives in metalworking fluids, flame retardants, and ingredients in paints, coatings, and sealants.
Chlor paraffines are complex mixtures and are usually classified according to carbon chain length and chlorine content.
Chlor paraffine is used in rubber manufacturing.
Chlor paraffine is used in vinyl and acrylic paints.
Chlor paraffine is used as a non-combustible plasticizer in PVC formulations.
Chlor paraffine is used as a fire-retardant additive in cable sheaths.
Chlor paraffine is used as a high pressure additive in lubricants.
Chlor paraffine is used as a working fluid in metalworking.
Plastics Industry uses of Chlor paraffine: Secondary plasticizer in PVC products, Cables and wires, Flooring materials, Synthetic leather, Plastic sheets and pipes.
Metalworking Industry uses of Chlor paraffine: Extreme-pressure additive in cutting fluids and metalworking lubricants
Paints and Coatings uses of Chlor paraffine: Industrial coatings, Marine paints, Protective coatings, Road marking paints.
Rubber and Sealants uses of Chlor paraffine: Rubber compounding, Adhesives, Sealants.
Chlor paraffine is used Textile Industry, Flame-retardant treatment of fabrics
Other Applications of Chlor paraffine: Leather processing, Waterproofing materials, Construction sealants.
Application of Chlor paraffine: Suitable for flame retardant of various products.
Chlor paraffine is widely used in plastics, rubber, fiber and other industrial fields as a plasticizer, fabric and packaging materials surface treatment agent, adhesive materials and coatings modifier, high pressure lubrication and metal cutting wear-resistant agent, fungicide, waterproofing agent, ink additives.
Chlor paraffine acts as plasticizer and flame retardant.
Chlor paraffine is used as a secondary plasticizer in PVC resins, plasticizers extender in synthetic rubber, chlorinated rubber, nitrocellulose polystyrene, polyurethane and polysulfide based sealants, etc.
Chlor paraffine is also used in PVC cable and wire jacketing.
Chlor paraffine is used as a secondary plasticizer in polymer compositions (cable, shoe and other flexible PVC compounds, films, plastisols, linoleum, etc.), as a component in oiling compositions in leather industry.
Well combined with basic plasticizers based on phthalic acid (dibutyl phthalate and dioctylphthalate) and easily introduced into PVC compositions used for the production of “flexible” (cables, hoses, boots, films, linoleum, etc.) and “rigid” (conduits, fittings) products.
Chlor paraffine is used in many applications.
Chlor paraffine can be used in PVC, synthetic rubber production and as a secondary plastifier in applications such as PVC garden and industrial hoses, leather belt and cables.
Chlor paraffine is also used in paints.
Chlor paraffine can be used as a flame retardant and PVC plasticizer.
Chlor paraffine is widely used in the production of cable materials, flooring materials, hoses, artificial leather, rubber and other products.
As well as applied to coatings, lubricants and other additives.
Chlor paraffines are widely used as flame retardants and plasticizers in various industries, including the manufacturing of plastics, rubber, paints, and textiles.
Chlor paraffine offers several beneficial properties, including excellent thermal stability, flame retardancy, low volatility, and chemical resistance.
These properties make them valuable additives in the production of flexible PVC products, such as cables, pipes, and flooring materials.
Chlor paraffines act as effective flame retardants, improving the fire resistance of these materials.
Chlor paraffine is used as a secondary plasticizer in PVC processes.
Shows plasticizer properties.
Because it is economical, Chlor paraffine saves money compared to primary plasticizers.
-Agricultural Uses of Chlor paraffine:
Liquid is an amorphous (non-crystalline) form of matter intermediate between gases and solids in which the molecules are much more highly concentrated than in solids.
Liquids take the shape of their containers but have fixed volume at a particular temperature and are incompressible.
Liquid molecules are free to move within the limits set by intermolecular attractive forces.
At the aid liquid interface the vibration of the molecules causes some of them to be ejected from the liquid at a rate depending on the surface tension.
The tendency of molecules to escape from a liquid surface is called fugacity and is largely responsible for evaporation.
When the air space is restricted, the escaping molecules eventually saturate the air and thus the number of molecules leaving the liquid is equal to those returning to it as a result of molecular attraction.
In these circumstances, the liquid/air system is said to be in equilibrium.
Liquids vary greatly in viscosity, boiling point, vapor pressure and surface tension.
Mercury has a specific gravity of 13.6 and the highest surface tension of all liquids.
Glass has the highest viscosity.
Polar liquids are those where molecules have opposite electrical charges on their terminal atoms or groups, which impart a force called dipole moment.
Water is a polar liquid with high dielectric constant.
Pure hydrocarbon liquids are generally non-polar.
CHEMICAL CHARACTERISTICS, PROPERTIES, BENEFITS, AND USES OF CHLOR PARAFFINE:
Chlor paraffine consists of complex mixtures of polychlorinated n-alkanes produced by the chlorination of paraffin hydrocarbons derived from petroleum.
The properties of Chlor paraffines depend mainly on the carbon chain length and the chlorine content in the molecule.
These substances show high compatibility with polymers such as PVC, rubber, and other elastomeric materials.
Chlor paraffines also exhibit good thermal stability and chemical resistance, which makes them suitable for demanding industrial applications.
Chlor paraffines possess several important industrial properties.
Chlor paraffines act as flame retardants and secondary plasticizers, especially in polymer formulations.
In addition, Chlor paraffines provide extreme pressure lubrication in metalworking applications and contribute to chemical and water resistance in many formulations.
Chlor paraffines are characterized by relatively high viscosity, good thermal stability, and the ability to improve adhesion in certain materials.
Chlor paraffines are also highly compatible with PVC and various elastomers used in industrial products.
The use of Chlor paraffine offers several benefits in industrial formulations.
Chlor paraffine improves the flexibility and durability of plastics and provides effective flame-retardant properties.
Chlor paraffine also enhances the chemical resistance of materials and improves lubrication in metalworking operations.
In coatings and protective layers, Chlor paraffine helps increase durability and resistance to environmental factors.
Furthermore, Chlor paraffine reduces the flammability of polymers and textiles and improves the overall performance of sealants and adhesives.
CHEMICAL CHARACTERISTICS of CHLOR PARAFFINE:
Complex mixtures of polychlorinated n-alkanes
Produced by chlorination of paraffin hydrocarbons
Properties depend on:
*carbon chain length
*chlorine content
MAIN PROPERTIES of CHLOR PARAFFINE:
Chlor paraffines exhibit several important industrial properties:
*Flame retardant
*Secondary plasticizer
*Extreme pressure lubricant
*Chemical resistance
*Water resistance
*High viscosity
*Thermal stability
*Adhesion improvement
*Good compatibility with PVC and elastomers
BENEFITS of CHLOR PARAFFINE:
Advantages of Chlor paraffine in industrial formulations:
Chlor paraffine improves flexibility and durability of plastics
Chlor paraffine provides flame-retardant properties
Chlor paraffine enhances chemical resistance
Chlor paraffine improves lubrication in metalworking operations
Chlor paraffine increases coating durability
Chlor paraffine reduces flammability of polymers and textiles
Chlor paraffine enhances performance of sealants and adhesives
CHEMICAL PROPERTIES of CHLOR PARAFFINE:
Chlor paraffine is insoluble in water and ethanol, soluble in many organic solutions.
Chlor paraffine decomposes when heated above 120℃, release hydrogen chloride gas, iron, zinc and other oxides will promote the decomposition.
HOW IS CHLOR PARAFFINE PRODUCED?
WHAT ARE THE CHARACTERISTICS AND USES?
Chlor paraffine products are light yellow viscous liquid, non-combustible, non-du, non-corrosive.
Chlor paraffine is generally used in fire retardant coatings, resin plasticizers, rubber flame retardants, ink coatings and lubricating additives.
Chlor paraffine is used in cables, water pipes, flooring, artificial leather and plastic products to enhance the gloss, aging resistance and water resistance of the products.
The production process of Chlor paraffine can be roughly divided into thermal chlorination and catalytic chlorination.
The main raw materials include wax oil and liquid chlorine.
Chlorine qi is heated and vaporized with steam, and then passed into a reactor to react with wax oil to prepare Chlor paraffine.
Chlorination and HCL the heat generated in the absorption process is taken away by the circulating cooling water, and the return water temperature of the circulating water is generally 75~85.
In 2005, after the heat balance calculation and analysis of the production process, the original chlorine qi vaporizer and circulating water system were modified.
The newly built Chlor paraffine plant increases the heat exchange area of the vaporizer, the heat source is changed from steam to hot water, and the circulating return water is used to heat the vaporized liquid chlorine, so that the production waste heat can be used.
BENEFITS of CHLOR PARAFFINE:
Chlor paraffine is engineered for superior flame retardancy and enhanced plasticization, particularly in flexible PVC formulations.
Chlor paraffine's low viscosity and high chlorine content deliver excellent compatibility and performance in applications requiring precision and fire safety.
FEATURES of CHLOR PARAFFINE:
*Chlorine content: 60–70%
*Low viscosity, excellent flowability
*High flame retardant efficiency
*Excellent compatibility with plasticizers and PVC
*Ideal for wire & cable insulation, conveyor belts, and coated fabrics
PHYSICAL and CHEMICAL PROPERTIES of CHLOR PARAFFINE:
Chemical Name: Chlorinated Paraffin
Chemical Family: Chlorinated hydrocarbons
Chemical Class: Chlorinated alkanes (chlorinated paraffins)
Chemical Name: Chlor Paraffin
Chemical Family: Chlorinated hydrocarbons
Substance Type: UVCB (Unknown or Variable composition, Complex reaction products or Biological materials)
CAS Numbers (common types):
63449-39-8 – Chlor paraffin (general mixture)
85535-84-8 – Chlor paraffin C10–C13
85535-85-9 – Chlor paraffin C14–C17
68920-70-7 – Chlor paraffin mixtures
EC Numbers (examples):
264-150-0
287-477-0
Approximate Chemical Formula: Because it is a mixture, the formula varies. A representative formula is: C12H19Cl7
Appearance: Colorless to pale yellow viscous liquid or waxy solid
Odor: Slight characteristic odor
Physical state: Liquid or solid depending on chlorine content
Density: ~1.16 g/cm³
Freezing point: approx. −30 °C
Boiling point: Decomposes before boiling
Solubility in water: Insoluble
Solubility: Soluble in organic solvents, oils, and chlorinated solvents
Viscosity: High
Chlorine content: 30–70%
CBNumber: CB6199728
Molecular Formula: C24H30Cl20 C15H14Cl18
Molecular Weight: 1000
MDL Number: MFCD00146407
Melting point: 95-110
Boiling point: 413-508 °C
Density: 1.387 g/mL at 20 °C (lit.)
Refractive index: n20/D 1.525
Flash point: 392
Solubility: tetrahydrofuran: 0.1 g/mL, clear
Form: Powder
Viscosity: 27,800 cp (130 °C)
LogP: 5.88-12.83 at 18.7-20 °C and pH 6-7
Indirect Additives used in Food Contact Substances: CHLORINATED PARAFFIN
EPA Substance Registry System: Chlorinated paraffin waxes and hydrocarbon waxes (63449-39-8)
FIRST AID MEASURES of CHLOR PARAFFINE:
-Description of first-aid measures
*General advice:
Show this material safety data sheet to the doctor in attendance.
*If inhaled:
After inhalation:
Fresh air.
*In case of skin contact:
Take off immediately all contaminated clothing.
Rinse skin with
water/ shower.
*In case of eye contact:
After eye contact:
Rinse out with plenty of water.
Call in ophthalmologist.
Remove contact lenses.
*If swallowed:
After swallowing:
Immediately make victim drink water (two glasses at most).
Consult a physician.
-Indication of any immediate medical attention and special treatment needed.
No data available
ACCIDENTAL RELEASE MEASURES of CHLOR PARAFFINE:
-Environmental precautions:
Do not let product enter drains.
-Methods and materials for containment and cleaning up:
Cover drains.
Collect, bind, and pump off spills.
Observe possible material restrictions.
Take up dry.
Dispose of properly.
Clean up affected area.
FIRE FIGHTING MEASURES of CHLOR PARAFFINE:
-Extinguishing media:
*Suitable extinguishing media:
Carbon dioxide (CO2)
Foam
Dry powder
*Unsuitable extinguishing media:
For this substance/mixture no limitations of extinguishing agents are given.
-Further information:
Prevent fire extinguishing water from contaminating surface water or the ground water system.
EXPOSURE CONTROLS/PERSONAL PROTECTION of CHLOR PARAFFINE:
-Control parameters:
--Ingredients with workplace control parameters:
-Exposure controls:
--Personal protective equipment:
*Eye/face protection:
Use equipment for eye protection.
Safety glasses
*Body Protection:
protective clothing
*Respiratory protection:
Recommended Filter type: Filter A
-Control of environmental exposure:
Do not let product enter drains.
HANDLING and STORAGE of CHLOR PARAFFINE:
-Conditions for safe storage, including any incompatibilities:
*Storage conditions:
Tightly closed.
Dry.
STABILITY and REACTIVITY of CHLOR PARAFFINE:
-Chemical stability:
The product is chemically stable under standard ambient conditions (room temperature).
-Possibility of hazardous reactions:
No data available
