EINECS number 203-466-5
CAS number 107-13-1
Acrylonitrile is a colorless, volatile liquid that is widely used in the chemical industry as a building block for a variety of products. It is also known as vinyl cyanide or cyanoethylene.Some of the common uses of acrylonitrile include:Production of Synthetic Fibers: Acrylonitrile is a key raw material for the production of synthetic fibers, including acrylic and modacrylic fibers, which are used in textiles and apparel.Production of Plastics and Resins: Acrylonitrile is used to produce a variety of plastics and resins, such as acrylonitrile-butadiene-styrene (ABS), styrene-acrylonitrile (SAN), and acrylonitrile-styrene-acrylate (ASA) resins, which are used in a range of applications including automotive parts, pipes, and packaging.Production of Adhesives and Sealants: Acrylonitrile is used to produce adhesives and sealants, which are used in a variety of applications including construction, automotive, and aerospace industries.Production of Carbon Fibers: Acrylonitrile is a key raw material for the production of carbon fibers, which are used in aerospace, military, and sporting goods applications due to their high strength and light weight.Production of Specialty Chemicals: Acrylonitrile is also used in the production of specialty chemicals such as acrylic acid, acrylamide, and adiponitrile, which are used in a variety of applications including water treatment, personal care, and pharmaceuticals.Acrylonitrile is a hazardous chemical and must be handled with care. Exposure to acrylonitrile can cause respiratory problems, skin irritation, and can be toxic if ingested or absorbed through the skin. Therefore, proper safety precautions must be taken when handling and using acrylonitrile.
EINECS number 202-705-0
CAS number 98-83-9
Alpha-methyl styrene or 2-phenylpropene is a colorless or slightly yellow hydrocarbon aromatic, flammable aromatic organic liquid having an unpleasant odor. It is practically insoluble in water. It is a by-product in the productionn of phenol according to the cumene process.
Alpha-methyl styrene (AMS) is a chemical intermediate used in the manufacture of plasticizers, resins and polymers.
EINECS number 609-405-2
CAS number 37330-39-5
Cardanol is a natural organic compound that is derived from cashew nutshell liquid (CNSL). CNSL is a viscous, dark brown liquid that is obtained from the shells of cashew nuts. Cardanol is one of the major components of CNSL and is known for its various industrial applications.
Cardanol is primarily composed of a phenolic compound with a long hydrocarbon side chain.It is a natural alkylphenol . It is used in the production of various products such as resins, friction materials, coatings, and surface coatings. It is valued for its high chemical reactivity and the ability to undergo various chemical modifications to produce different derivatives with specific properties. For instance, it can be used to synthesize cardanol-based resins, which have applications in the manufacturing of adhesives, varnishes, and even as an ingredient in brake linings.
Cardanol is often considered an eco-friendly alternative to certain synthetic chemicals, as it is derived from a renewable and natural source, and its production can help reduce the environmental impact of certain industrial processes.
EINECS number 201-052-9
CAS number 77-73-6
Dicyclopentadiene, abbreviated DCPD, is the dimer of cyclopentadiene (CPD). In the pure state DCPD is a volatile solid with a characteristic odour. Dicyclopentadiene is coproduced in large quantities in the steam cracking of naphtha and gas oils to ethylene. In addition, it can be prepared in a Diels-Alderreaction of 2 cyclopentadiene molecules.
Most dicyclopentadiene is used as co-monomer in the production of synthetic resins, in particular unsaturated polyesters and synthetic rubbers, for example EPDM. Poly (DCPD), which contains some dicyclopentadiene as monomer is used in printing inks and engineering plastics.
EINECS number 203-202-9
CAS number 104-43-8
Dodecylphenol, or para dodecylphenol also known as 1-dodecyl-4-nonylphenol or simply DDP, is a chemical compound belonging to the family of alkylphenols. It is characterized by having a dodecyl (12-carbon) hydrocarbon chain attached to a phenolic ring. This chemical structure gives dodecylphenol unique properties and applications in various industries. It is an alkylphenol.
Dodecylphenol is commonly used as an intermediate chemical in the synthesis of surfactants and emulsifiers. Surfactants are compounds that lower the surface tension of liquids, allowing them to spread more easily, while emulsifiers help mix substances that do not normally blend, such as oil and water. These applications are found in various products, including detergents, industrial cleaners, and certain agricultural chemicals.
It’s important to note that there are concerns about the environmental and health impacts of some alkylphenols, including dodecylphenol, due to their potential endocrine-disrupting properties. As a result, there have been regulatory restrictions and efforts to find alternative compounds in some applications.
EINECS number 265-151-9
CAS number 64742-49-0
Hexane extraction grade refers to a type of hexane that is specifically designed and purified for use in extraction processes, particularly in the food and pharmaceutical industries. Hexane is a colorless, flammable liquid hydrocarbon that is commonly used as a solvent for extracting oil and other organic compounds from plant materials.
Hexane extraction grade is typically a high-purity form of hexane, with low levels of impurities such as aromatics, sulfur, and other contaminants that can affect the quality and safety of the extracted products. This grade of hexane is carefully distilled and purified to meet strict quality and safety standards, ensuring that it is suitable for use in food and pharmaceutical applications.
EINECS number 265-151-9
CAS number 64742-49-0
Hexane polymerization refers to the process of converting hexane, a hydrocarbon with the chemical formula C6H14, into polymers, which are large molecules made up of repeating subunits.
Hexane polymerization can be achieved through various methods, including:
Ziegler-Natta Polymerization: This method involves the use of a catalyst, such as titanium chloride, to initiate the polymerization reaction. The catalyst is typically dissolved in a solvent, such as hexane, and then added to the monomer, which is also dissolved in the solvent. The reaction is carried out at a high temperature and pressure, resulting in the formation of long polymer chains.
Metallocene Polymerization: This method involves the use of a metallocene catalyst, which is a type of transition metal compound, to initiate the polymerization reaction. The catalyst is typically dissolved in a solvent, such as hexane, and then added to the monomer, which is also dissolved in the solvent. The reaction is carried out at a high temperature and pressure, resulting in the formation of highly uniform polymer chains.
Free Radical Polymerization: This method involves the use of a free radical initiator, such as benzoyl peroxide, to initiate the polymerization reaction. The initiator is typically dissolved in a solvent, such as hexane, and then added to the monomer, which is also dissolved in the solvent. The reaction is carried out at a high temperature and pressure, resulting in the formation of randomly branched polymer chains.
The resulting hexane polymers can be used in various applications, such as in the production of plastics, synthetic rubbers, and adhesives. Hexane polymerization is a complex process that requires careful control of various reaction parameters, such as temperature, pressure, and catalyst concentration, to achieve the desired polymer properties.
EINECS number 265-151-9
CAS number 64742-49-0
Isohexane LNH is a type of hydrocarbon solvent that is primarily composed of isohexane. It is a colorless, clear liquid with a low odor and a low toxicity, making it a relatively safe solvent to work with in various industrial applications.
Isohexane LNH is commonly used as a solvent in the production of various chemical products, including adhesives, coatings, and cleaning products. It is also used in the extraction of natural products, such as vegetable oils and fragrances.
One of the benefits of Isohexane LNH is its low odor and low toxicity, which makes it a more pleasant and safer solvent to work with compared to other solvents. Additionally, it has a high evaporation rate, which can make it a desirable solvent for applications that require quick drying times.
Isohexane LNH is also known for its high solvency power, which means it is effective at dissolving a wide range of substances. This makes it a versatile and useful solvent that has a wide range of industrial applications.
Overall, Isohexane LNH is a reliable and effective solvent that has a variety of industrial applications. Its favorable safety and environmental characteristics, along with its high solvency power, make it a desirable solvent choice for many industries.
EINECS number 201-142-8
CAS number 78-78-4
Isopentane is a hydrocarbon compound with the chemical formula C5H12. It is a colorless, flammable liquid that is commonly used as a solvent in various industrial applications.
One of the key characteristics of isopentane is its low boiling point, which makes it useful as a refrigerant and as a blowing agent in the production of foams. Isopentane is also commonly used as a solvent in the extraction of natural products and in the production of cleaning agents.
In addition to its usefulness as a solvent, isopentane is also used in the laboratory for cryogenic applications, such as cooling samples for electron microscopy or in the preparation of frozen tissue sections.
However, isopentane should be handled with care due to its flammability and potential health hazards. It is important to store and handle it in a well-ventilated area away from sources of ignition.
Overall, isopentane is a versatile and useful solvent with a range of industrial and laboratory applications, particularly due to its low boiling point and solvency power.
EINECS number 200-338-0
CAS number 57-55-6
Monopropylene glycol(MPG), often referred to as propylene glycol or simply propylene glycol is a synthetic organic compound with the chemical formula C3H802. The substance name is 1,2 propanediol.
The MPG USP is a clear, colorless, and odorless liquid with a slightly sweet taste. It is a versatile chemical that has many industrial applications.
USP stands for the United States Pharmacopeia , which is a set of standards and quality specifications for pharmaceuticals. A substance is labeled as “USP” means that it meets the specific quality and purity standards outlined in the United States.
Anti-freeze and Coolant: MPG is used as a component in anti-freeze and coolant formulations for automotive and industrial applications. It provides freeze protection and helps to prevent corrosion in cooling systems.Solvent:
Solvent: MPG is used as a for a wide range of applications, including printing inks, coatings, and resins.
Food and Beverage: MPG is used as a humectant, solvent, and stabilizer in the food and beverage industry. It is commonly used as a component in flavorings, extracts, and food colorings.
Personal Care and Cosmetics: MPG is a common ingredient in personal care and cosmetic products, including lotions, creams, and hair care products. It helps to improve the texture, viscosity, and stability of these products.
Pharmaceutical: MPG is used as a solvent and a carrier in the pharmaceutical industry. It is used to deliver active ingredients in medications and to help improve their stability.
Overall, MPG is a versatile and widely used chemical in the industry with a variety of applications. However, it is important to handle and use it safely, as it can be toxic if ingested or absorbed through the skin.
EINECS number 203-692-4
CAS number 109-66-0
n-Pentane is a hydrocarbon solvent that is composed of five carbon atoms and 12 hydrogen atoms with a molecular formula of C5H12. It is a clear, colorless liquid with a low boiling point, which makes it an excellent solvent for use in various industrial applications.
One of the primary uses of n-Pentane is as a blowing agent in the production of foam insulation and packaging materials. When heated, n-Pentane vaporizes and expands, creating a foam that can fill the spaces between the insulation or packaging material. This property makes it an excellent choice for use in the construction and packaging industries.
n-Pentane is also used as a solvent in the production of rubber, adhesives, and other chemical products. It can dissolve a wide range of substances, making it a versatile ingredient in many formulations.
Additionally, n-Pentane is sometimes used as a fuel in small engines and stoves, as it burns cleanly and produces less pollution than some other fuels.
Overall, n-Pentane is a versatile solvent and blowing agent that is widely used in the construction, packaging, chemical, and energy industries. Its low boiling point and ability to dissolve a wide range of substances make it an important component of many formulations.
EINECS number 284-325-5
CAS number 84852-15-3
Nonylphenol is a chemical compound belonging to the family of alkylphenols. It is characterized by having a nonyl (a nine-carbon alkyl) hydrocarbon chain attached to a phenolic ring.
Nonylphenol is produced from the chemical reaction between nonene and phenol. It is mainly a para isomer, phenol, 4-nonyl-, branched.
Nonylphenol is often used as an intermediate chemical in the production of surfactants, emulsifiers, and other chemicals. Surfactants are compounds that lower the surface tension of liquids, making them more effective in applications such as detergents and industrial cleaners. Emulsifiers are used to mix substances that do not naturally combine, like oil and water, and are found in various products, including pesticides and paints.
EINECS number 202-679-0
CAS number 98-54-4
p-Tertiary butylphenol (p-TBP) is a chemical compound with a specific structure, characterized by the presence of a tertiary butyl group (a branched, four-carbon alkyl group) attached to a phenolic ring. The “p” in its name indicates that the tertiary butyl group is attached to the para position of the phenolic ring, which means it is attached at the fourth carbon atom from the phenolic hydroxyl group.
It is an alkylphenol.
p-Tertiary butylphenol has applications in various industries, including as a chemical intermediate. It can be used in the synthesis of other compounds, including resins, antioxidants, and stabilizers. These derivatives often find use in the production of rubber, plastics, and other materials. Additionally, p-tertiary butylphenol can function as an antioxidant in lubricating oils and fuels to help prevent the degradation of these products due to oxidation.
It’s worth noting that the chemical structure of p-tertiary butylphenol, specifically the presence of the phenolic ring, provides it with antioxidant properties, making it useful for preserving the quality and longevity of various products that are prone to oxidation and degradation.
Pentane Blend 80/20 is a mixture of two hydrocarbon compounds: 80% n-pentane and 20% isopentane. It is a clear, colorless liquid with a low odor and a relatively low toxicity.
Pentane Blend 80/20 is commonly used as a blowing agent in the production of foams, particularly in the manufacturing of polyurethane foams. It is also used as a solvent in various industrial applications, such as in the extraction of natural products and in the production of cleaning agents.
One of the benefits of Pentane Blend 80/20 is its high vapor pressure, which makes it an effective blowing agent for producing foams. Additionally, its low boiling point and high solvency power make it an effective solvent for various applications.
However, it is important to handle Pentane Blend 80/20 with care, as it is flammable and can be hazardous if not used properly. It should be stored in a well-ventilated area away from sources of ignition.
Overall, Pentane Blend 80/20 is a useful and versatile mixture of hydrocarbons that has a range of industrial applications, particularly in the production of foams and as a solvent. However, its flammability and potential hazards mean it should be handled with caution and proper safety measures.