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Alpha-methyl Styrene

EINECS number 202-705-0

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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.

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Aromatic hydrocarbon resins C9

EINECS number Not applicable

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CAS number 64742-16-1/69430-35-9/88526-47-0

C9 hydrocarbon tackifiers are used in adhesives, particularly hot melt adhesives, to provide outstanding tack and to optimise surface adhesion.  C9 hydrocarbon tackifiers are also used in the production of rubber articles, including tyre re-treads, to ensure optimal adhesion between the different layer of rubber.  C9 hydrocarbon tackifiers are also used in road marking paints to ensure outstanding performance and to ensure excellent durability in use.  These resins are used in some industrial and marine coatings to enhance durability.  We have aliphatic (hydrogenated) grades and aromatic (non-hydrogenated) grades available

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Cardanol

EINECS number 609-405-2

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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.

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Cyclohexane

EINECS number 203-806-2

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CAS number 110-82-7

Cyclohexane is an acyclic hydrocarbon from the Cycloalkane family. It is used as a non polar solvent in the chemical industry and a reactant in industrial production of Adipic acid and caprolactam, intermediates in Nylon production.

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Diacetone Alcohol ( DAA)

EINECS number 204-626-7

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CAS number 123-42-2

Diacetone alcohol or DAA is an oxygenated solvent derived from acetone which has two alcohol and ketone functionalities.   It is the solvent of choice for many inks and coatings, including coil coatings, wood varnishes, and architectural coatings.  It is also used in the treatment of textiles and leather and is an excellent cleaning solvent.  It is a good solvent for many organic peroxides.

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Diethanol amine (DEA) 99%

EINECS number 203-868-0

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CAS number 111-42-2

Diethanolamines are used in gas treatment, fertilizers production (especially glyphosate), polyols production, cosmetic industry, cocomids production, polyuretans, etc… Chemical formula : C4H11N02

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Dimethyl ethanolamine (DMEA)

EINECS number 203-542-8

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CAS number 108-01-0

Dimethyllethanolamines are used in the water treatment, polyurethane, pharmaceutical, epoxy resins, coating. Chemical formula C4H11N0

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Dodecyl Phenol

EINECS number 203-202-9

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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.

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Ethyl DIPROXITOL

CAS number 30025-38-8

Ethyl DIPROXITOL is a colourless, hygroscopic, high boiling liquid with a mild odour. It is miscible in any proportion with water and many organic solvents and has good solvent power for nitrocellulose and dyestuffs.
It is used as an intermediate and in formulations in industrial, professional or consumer applications, mainly in surface coatings and printing inks and paints, cleaners, agrochemical or de-icing/anti-icing formulations.

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Ethyl PROXITOL

EINECS number 216-374-5

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CAS number 1569-02-4

Ethyl Proxitol is a colorless, hygroscopic propylene glycol ether. Used in the surface coatings industry and printing inks and to regulate flow, leveling and coalescence. Possesses good volatility, viscosity and solvent power. Ethyl Proxitol can be used as a coupling agent. Used in adhesives.

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Fumaric acid

EINECS number 203-743-0

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CAS number 110-17-8

Fumaric acid is used in the synthesis of several chemicals like unsaturated polyester resins, special alcohols, modification of gum rosin and also in food and beverage applications like sweeteners and acidifier for the soft drinks.

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GTL GS 190

EINECS number 940-726-3

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CAS number 185857-36-7

 GTL Solvent GS190 is a high-performance, low-aromatic, and low-toxicity solvent that is derived from natural gas through the gas-to-liquids (GTL) process. It is a clear, colorless, and odorless liquid with a boiling point of 190 °C (374 °F) and a flash point of 77 °C (171 °F).

GTL Solvent GS190 has a wide range of applications in the industrial sector, including:

  • Coatings and Inks: GTL Solvent GS190 is used as a solvent for coatings and inks, especially in applications where low odor and low toxicity are required.
  • Adhesives and Sealants: GTL Solvent GS190 is used as a solvent for adhesives and sealants, providing excellent solvency and low toxicity.
  • Cleaning and Degreasing: GTL Solvent GS190 is used as a cleaning solvent in applications such as metal degreasing, precision cleaning, and electronics cleaning.
  • Personal Care and Cosmetics: GTL Solvent GS190 is used as an ingredient in personal care and cosmetic products, such as hair sprays, deodorants, and fragrances, due to its low odor and excellent solvency. 
  • Agriculture: GTL Solvent GS190 is used as a carrier solvent for agricultural chemicals, such as herbicides and insecticides, providing excellent solvency and low toxicity.

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GTL GS1927

EINECS number 942-085-5

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CAS number 1809170-78-2

GTL Solvent GS1927 is a type of solvent that is derived from Gas-To-Liquid (GTL) technology. GTL technology involves converting natural gas into high-quality liquid hydrocarbons through a process called Fischer-Tropsch synthesis.

GTL Solvent GS1927 is a high-purity, low-aromatic solvent that is commonly used in various industrial applications, including as a carrier solvent, a cleaning agent, and a solvent for coatings, adhesives, and inks. It is also used in the production of various chemical products, such as plasticizers and resins.

One of the advantages of GTL Solvent GS1927 is its high purity, which makes it a safer and more environmentally friendly alternative to some of the more hazardous solvents that have been used in the past. Additionally, GTL Solvent GS1927 has a relatively low toxicity and low odor, making it a more pleasant and safer solvent to work with.

Overall, GTL Solvent GS1927 is a versatile and useful solvent that has a wide range of industrial applications.

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GTL GS215

EINECS number 940-727-9

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CAS number 18437281-03-2

GTL Solvent GS215 is a type of solvent that is derived from Gas-To-Liquid (GTL) technology. GTL technology involves converting natural gas into high-quality liquid hydrocarbons through a process called Fischer-Tropsch synthesis.

One of the advantages of GTL technology is that it can produce highly paraffinic products of constant composition. This means that the resulting solvents, like GTL Solvent GS215, have consistent chemical properties, which can make them easier to work with and more reliable in various industrial applications.

GTL Solvent GS215 is a high-purity, low-aromatic solvent that is commonly used in various industrial applications, including as a carrier solvent, a cleaning agent, and a solvent for coatings, adhesives, and inks. It is also used in the production of various chemical products, such as plasticizers and resins.

One of the benefits of GTL Solvent GS215 is its high flash point, which makes it a safer solvent to work with in high-temperature environments. Additionally, GTL Solvent GS215 has a relatively low toxicity and low odor, making it a more pleasant and safer solvent to work with.

Overall, GTL Solvent GS215 is a versatile and useful solvent that has a wide range of industrial applications, and its consistent chemical properties make it a reliable and predictable choice for many applications.

 

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GTL GS270

EINECS number 940-730-5

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CAS number 1437281-01-0

GTL Solvent GS270 is a type of solvent that is derived from Gas-To-Liquid (GTL) technology. GTL technology involves converting natural gas into high-quality liquid hydrocarbons through a process called Fischer-Tropsch synthesis.

GTL Solvent GS270 is a high-purity, low-aromatic solvent that is commonly used in various industrial applications, including as a solvent for coatings, inks, and adhesives. It is also used in the production of various chemical products, such as plasticizers and resins.

One of the benefits of GTL Solvent GS270 is its high flash point, which makes it a safer solvent to work with in high-temperature environments. Additionally, GTL Solvent GS270 has a low toxicity and low odor, making it a more pleasant and safer solvent to work with.

GTL Solvent GS270 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, GTL Solvent GS270 is a reliable and high-quality solvent that is derived from a sustainable and environmentally friendly technology. Its chemical properties make it a safe and effective solvent for various industrial applications.

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GTL GS310

EINECS number 940-734-7

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CAS number 1437280-85-7

GTL Solvent GS310 is a type of solvent that is derived from Gas-To-Liquid (GTL) technology. GTL technology involves converting natural gas into high-quality liquid hydrocarbons through a process called Fischer-Tropsch synthesis.

GTL Solvent GS310 is a high-purity, low-aromatic solvent that is commonly used in various industrial applications, including as a solvent for coatings, adhesives, and inks. It is also used in the production of various chemical products, such as plasticizers and resins.

One of the advantages of GTL Solvent GS310 is its high flash point, which makes it a safer solvent to work with in high-temperature environments. Additionally, GTL Solvent GS310 has a relatively low toxicity and low odor, making it a more pleasant and safer solvent to work with.

GTL Solvent GS310 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, GTL Solvent GS310 is a reliable and high-quality solvent that is derived from a sustainable and environmentally friendly technology. Its chemical properties make it a safe and effective solvent for various industrial applications.

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Hexane Extraction Grade

EINECS number 265-151-9

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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.

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Hexane Polymerisation

EINECS number 265-151-9

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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.

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Hydrogenated C9 tackifier resins

EINECS number Not applicable

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CAS number 64742-16-1/69430-35-9/88526-47-0

C9 hydrocarbon tackifiers are used in adhesives, particularly hot melt adhesives, to provide outstanding tack and to optimise surface adhesion.  C9 hydrocarbon tackifiers are also used in the production of rubber articles, including tyre re-treads, to ensure optimal adhesion between the different layer of rubber.  C9 hydrocarbon tackifiers are also used in road marking paints to ensure outstanding performance and to ensure excellent durability in use.  These resins are used in some industrial and marine coatings to enhance durability.  We have aliphatic (hydrogenated) grades and aromatic (non-hydrogenated) grades available.

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Iso-Amylene – 2MB

EINECS number 247-975-0

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CAS number 26760-64-5

Isoamylene is a colorless, flammable liquid with a disagreeable odor. Isoamylene contains two methylbutene isomers in a ~93/7 molar ratio: 2-Methyl 2-Butene and 2-Methyl 1-Butene. Isoamylene is produced with a special process.

Isoamylene is used in the synthesis of many chemicals and chemical intermediates, with numerous applications including: Flavours & fragrances, Pesticides, Growth regulators, Pharmaceuticals, Healthcare products, Catalysts, Peroxides, Phenolic resins, Hot melt adhesives, Anti-oxidants and UV stabilizers.

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Isoamyl Alcohol

Pentanols – 99% (Isoamyl Alcohol)

Isoamyl Alcohol (at a minimum purity of 99%), is a mixture of isomers 3-methyl, 1-butanol and 2-methyl , 1-butanol, with a preponderance of the first (aproximately 85%). The raw material used by PETROM in the production of Isoamyl Alcohol is fusel oil, which in turn is a byproduct of the distilling of ethyl alcohol (ethanol).

Applications: The main applications of Isoamyl Alcohol are:

– the manufacturing of paints and varnishes, to produce isoamyl acetate;

– the manufacturing of plasticizers for the production of DIAP (DiisoAmyl phthalate);

– the manufacturing of perfumes, for the recovery of oils and essences;

– the synthesis of fragrances and aromas;

– the production of isoamyl salicylate, applied widely in soaps and cosmetic fragrances;

– the purification of phosphoric acid, acting as an extraction solvent.

– the production of Xanthates (mining industry)

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Isohexane LNH

EINECS number 265-151-9

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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.

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Isophorone (IP)

EINECS number 201-126-0

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CAS number 78-59-1

Isophorone or IP is an oxygenated solvent derived from acetone with one ketone group.  It is an excellent solvent for a wide range of coatings and inks.  It is also synthesis intermediate for the production of chloroxylenol (A key antimicrobial) and also synthetic Vitamin E.  It is used as an extraction solvent and in frothers and grinding aids.

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Isopropyl Alcohol

EINECS number 200-661-7

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CAS number 67-63-0

Isopropyl alcohol, also known as isopropanol or IPA, is a colorless, flammable liquid with a strong odor. It is a common solvent with a wide range of applications in industry, healthcare, and household settings.

One of the primary uses of isopropyl alcohol is as a cleaning agent and disinfectant. It is often used to clean electronic devices, medical equipment, and other surfaces that require sterilization. It is also used in the production of hand sanitizers, surface disinfectants, and other cleaning products.

Isopropyl alcohol is also commonly used as a solvent in the production of pharmaceuticals, cosmetics, and other consumer products. It can dissolve a wide range of substances, making it a versatile ingredient in many formulations.

In addition, isopropyl alcohol is often used as a fuel additive, as it can help improve the performance of gasoline engines by reducing the formation of deposits and improving fuel efficiency.

However, isopropyl alcohol can be hazardous if not handled properly. It is flammable and should be stored and handled in a well-ventilated area away from sources of ignition. Direct contact with skin or inhalation of vapor can also cause irritation, so appropriate precautions should be taken when using this substance.

Overall, isopropyl alcohol is a versatile and widely used solvent with a range of applications in industry, healthcare, and household settings. Its ability to dissolve a wide range of substances and its effectiveness as a cleaning agent and disinfectant make it an essential component of many products and formulations.

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LA0 Linear Alpha 0lefin

Linear alpha olefins, often abbreviated as LAOs, are a type of chemical compound belonging to the family of alpha-olefins. Alpha-olefins are a class of organic compounds with a double bond (alkene) at the alpha position, which means the double bond is located at the beginning of the carbon chain.

Linear alpha olefins are characterized by having a linear, straight-chain structure. They have the general chemical formula CnH2n, where “n” represents the number of carbon atoms in the chain. They are typically produced through the oligomerization of ethylene, a process that links together multiple ethylene molecules to form longer carbon chains.

Linear alpha olefins are versatile chemicals with a wide range of applications, including:

Linear alpha olefins, often abbreviated as LAOs, are a type of chemical compound belonging to the family of alpha-olefins. Alpha-olefins are a class of organic compounds with a double bond (alkene) at the alpha position, which means the double bond is located at the beginning of the carbon chain.

Linear alpha olefins are characterized by having a linear, straight-chain structure. They have the general chemical formula CnH2n, where “n” represents the number of carbon atoms in the chain. They are typically produced through the oligomerization of ethylene, a process that links together multiple ethylene molecules to form longer carbon chains.

Linear alpha olefins are versatile chemicals with a wide range of applications, including:

  1. Lubricant and lubricant additive manufacturing: LAOs are used in the production of synthetic lubricants and lubricant additives, providing improved performance characteristics over conventional mineral oil-based lubricants.

  2. Polymer manufacturing: Linear alpha-olefins serve as feedstocks in the production of various polymers, including high-density polyethylene (HDPE), linear low-density polyethylene (LLDPE), and low-density polyethylene (LDPE). These polymers are used in products such as plastic films, bottles, and pipes.

  3. Surfactants and detergents: LAOs are used to produce surfactants and detergent intermediates, contributing to the formulation of cleaning and personal care products.

  4. Specialty chemicals: They are employed in the manufacture of various specialty chemicals, including antioxidants, synthetic alcohols, and flavors.

  5. Agricultural chemicals: LAOs may be used in the production of agricultural chemicals such as pesticides and herbicides.

Product range : 

C 6 : Hexene 

C 8: Octene 

C 10: Decene

C 12: Dodecene 

C 12-14: Blend 

C 14: Tetradecene

C 14-16: Blend

C 16: Hexadecene 

C 16-18: Blend 

C 18: Octadecene 

C20-24: CAS number 93924-10-8

C 24-28: Blend 

C 30+

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LAO C10

EINECS number 212-819-2

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CAS number 872-05-9

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x.  Unlike other linear olefins with the same formula the LAOs have their double bond position at the primary carbon or alpha position. LAO C10 is C10H20 with the chemical name 1-Decene.

LAO C10 1-Decene is used as a monomer in copolymers and is an intermediate in the production of epoxides, aqueous detergents, linear alkyl benzenes, amines, oxo alcohols, synthetic lubricants, synthetic fatty acids, and alkylated aromatics.

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LAO C12

EINECS number 203-968-4

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CAS number 112-41-4

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x. Unlike other linear olefins with the same formula the LAOs have their double bond position at the primary carbon or alpha position. LAO C10 is C12H24 with the chemical name 1-Dodecene. LAO C12 1-Dodecene is used as intermediates in a variety of market applications including surfactants, detergents, lubricant additives and paper sizing.

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LAO C12-14 Blend

EINECS number C12: 203-968-4 C14: 214-306-9

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CAS number C12: 112-41-4 C14: 1120-36-1

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x, unlike other linear olefins with the same formula the LAOs have their double bond position at the primary carbon or alpha position. LAO C12-14 is C12H24 with the chemical name 1-Dodecene and C14H28 with the chemical name 1-Tetradecene.
LAO C12-C14 Blend is used in surfactant applications.

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LAO C14

EINECS number 214-306-9

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CAS number 1120-36-1

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x, unlike other linear olefins with the same formula the LAO’s have their double bond position at the primary carbon or alpha position. LAO C14 is C14H28 with the chemical name 1-Tetradecene.

LAO C14 is used in synthetic lubricants, surfactants, detergents, viscosity adjustors, personal care products, intermediates and paper sizing.

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LAO C14-16 Blend

EINECS number C14: 214-306-9 C16: 211-105-8

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CAS number C14: 1120-36-1 C16: 629-73-2

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x, unlike other linear olefins with the same formula the LAOs have their double bond position at the primary carbon or alpha position. LAO C14-16 is C14H28 with the chemical name 1-Tetradecene and C16H32 with the chemical name 1-Hexadecene
LAO C14-16 Blend is used in common blends for different applications.

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LAO C14-16-18 Blend

EINECS number C14: 214-306-9 C16: 211-105-8 C18: 204-012-9

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CAS number C14: 1120-36-1 C16: 629-73-2 C18: 112-88-9

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x.Unlike other linear olefins with the same formula the LAOs have their double bond position at the primary carbon or alpha position. LAO C14-16-18 is C14H28 with the chemical name 1-Tetradecene and C16H32 with the chemical name 1-Hexadecene and C18H36 with the chemical name 1-Octodecene
LAO C14-16-18 Blend is used in common blends for different applications.

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LAO C16

EINECS number 211-105-8

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CAS number 629-73-2

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x, unlike other linear olefins with the same formula the LAOs have their double bond position at the primary carbon or alpha position. LAO C16 is C16H32 with the chemical name 1-Hexadecene.
LAO C16 1- Hexadecene is used in Alkenyl Succinic, Anhydride (ASA), Functional Drilling Fluids, Foodadditives, Leather Tanning Agents, Alpha Sulphonates.

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LAO C16-18 Blend

EINECS number C16: 211-105-8 C18:204-012-9

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CAS number C16: 629-73-2 C18: 112-88-9

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x.Unlike other linear olefins with the same formula the LAOs have their double bond position at the primary carbon or alpha position. LAO C16-18 is C16H32 with the chemical name 1-Hexadecene and C18H36 with the chemical name 1-Octodecene
LAO C16-18 Blend is used as the hydrophobes in oil-soluble surfactants and as lubricating fluids

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LAO C18

EINECS number 204-012-9

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CAS number 112-88-9

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x, unlike other linear olefins with the same formula the LAOs have their double bond position at the primary carbon or alpha position. LAO C18 is C18H36 with the chemical name 1-Octadecene
LAO C18 1-Octadecene is used in Alkenyl Succinic Anhydride ( ASA) , Functional Drilling Fluids, Foodadditives, Leather Tanning Agents, Alpha Sulphonates.

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LAO C20-24 Blend

EINECS number 300-202-1

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CAS number 93924-10-8

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x.Unlike other linear olefins with the same formula the LAOs have their double bond position at the primary carbon or alpha position.
LAO C20-24 alpha olefin, is recommended for applications such as maleic anhydride copolymers, lube-oil additives, di-/polyhalides, and functional drilling fluids just to name a few.

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LAO C24-28

EINECS number 300-203-7

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CAS number 93924-11-9

LAO C24-28 stands for “Linear Alpha Olefins with a carbon chain length of 24 to 28”. It is a type of chemical compound that belongs to the family of linear alpha olefins, which are unsaturated hydrocarbons with a terminal double bond.

LAO C24-28 is mainly used as a co-monomer in the production of polyethylene (PE) and polypropylene (PP) plastics. It acts as a comonomer to modify the properties of the final product, such as improving its tensile strength, flexibility, and impact resistance. LAO C24-28 is also used as a raw material in the production of lubricants, surfactants, and other specialty chemicals.

Linear alpha olefins, including LAO C24-28, are produced by the oligomerization of ethylene, which is a basic building block of the petrochemical industry. LAO C24-28 is considered a high-value product due to its relatively long carbon chain length and is used in a range of industrial applications where high performance is required.

It is important to handle LAO C24-28 with care, as it is a flammable liquid that can cause skin and eye irritation upon contact. Protective equipment and proper handling procedures should be used when working with this compound.

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LAO C30+

EINECS number 200-815-3

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CAS number 74-85-1

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x. Unlike other linear olefins with the same formula the LAOs have their double bond position at the primary carbon or alpha position.
LAO C30+ alpha Olefin (LAO) is olefins recommended for PVC lubes,fertilizer coating,oriented stand board.

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LAO C6

EINECS number 209-753-1

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CAS number 592-41-6

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x.  Unlike other linear olefins with the same formula the LAO’s have their double bond position at the primary carbon or alpha position. LAO C6 is C6H12 with the chemical name 1-Hexene.

LAO C6 1-hexene is used as a co-monomer in co-polymerization reactions with, for example, ethylene. Another application is the production of hexanaldehyde by oxidation. A third possibility is to extend the carbon chain with carbon monoxide by carrying out a hydroformylation reaction to produce heptanoic acid.

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LAO C8

EINECS number 203-893-7

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CAS number 111-66-0

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x, unlike other linear olefins with the same formula the LAOs have their double bond position at the primary carbon or alpha position. LAO C8 is C8H16 with the chemical name 1-Octene.

LAO C8 1-octene is used as a monomer in copolymers and is an intermediate in the production of epoxides, amines, oxo alcohols, synthetic lubricants, synthetic fatty acids, and alkylated aromatics.

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Linear Alkyl Benzene (LAB)

EINECS number 284-660-7

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CAS number 84961-70-6

LAB (linear alkyl benzene) is the main feedstock for the production of LABSA (Linear Alkyl Benzene Sulphonate) which is the most widely used raw material in the world for powder and liquid laundry detergents.  LAB is also used as a speciality solvent and as a component in some heat transfer fluids.

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Maleic Anhydride

EINECS number 203-571-6

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CAS number 108-31-6

Maleic anhydride is a white solid. It is manufactured by oxidation of butane or benzene. The main outlet for maleic anhydride is the manufacture of unsaturated polyester resins. Other applications include production of butanediol, tetrahydrofuran, gamma butyrolactone, various other resins copolymers.

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Melamine

EINECS number 203-615-4

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CAS number 108-78-1

Melamine is an organic compound with the formula C3H6N6. It is a polyvalent organic base. Melamine structurally consists of an aromatic ring composed of 3 carbon and 3 nitrogen atoms. Melamine is the cyclic trimer of cyanimide.

Melamine is mainly used as raw material for melamine resins and coatings. By a reaction with aldehydes (usually formaldehyde) thermosetting plastics can be produced. Melamine-formaldehyde is strong, light, hard and resistant to acids and bases.

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Methyl diethanol amine (MDEA)

EINECS number 203-312-7

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CAS number 105-59-9

Methyldiethanolamines are used in oil & gas treatment, lubricants, concrete. Chemical formula C5H13N02

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Methyl DIPROXITOL

EINECS number 252-104-2

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CAS number 34590-94-8

Methyl DIPROXITOL is a colourless, hygroscopic,high boiling liquid with a mild odour. It is miscible in any proportion with water and many organic solvents and has a good solvent power for nitrocellulose and dyestuffs.
This substance is used in the following products: coating products, anti-freeze products and lubricants and greases.

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Methyl Ethyl Ketone (MEK)

EINECS number 201-159-0

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CAS number 78-93-3

Methyl ethyl ketone (MEK) is a clear, colorless, and flammable liquid with a slightly sweet odor. It is a common organic solvent with a wide range of industrial applications.

MEK is primarily used as a solvent in various industries, including the manufacturing of adhesives, coatings, and plastics. It is also used as a cleaning agent, particularly for removing oils and greases from metal surfaces. MEK is a highly effective solvent for many organic materials, including resins, waxes, and oils.

In addition to its solvent properties, MEK is also used as a chemical intermediate in the production of other chemicals, such as methyl isobutyl ketone (MIBK) and peroxides. MEK can also be used as a fuel additive or a component in some special fuels.

MEK is a volatile organic compound (VOC) that can contribute to air pollution and potentially pose health risks to those exposed to it. Proper safety measures, including proper ventilation and protective equipment, should be taken when working with MEK to minimize exposure.

 
 

 

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Methyl Iso Butyl Ketone ( MIBK)

EINECS number 203-550-1

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CAS number 108-10-1

Methyl isobutyl ketone (MIBK) is a colorless organic compound with a pleasant odor. It is a solvent that is widely used in various industrial applications due to its excellent solvency properties and moderate evaporation rate.

MIBK is commonly used as a solvent in coatings, paints, and printing inks. It is also used as a solvent in the manufacture of adhesives, varnishes, and rubber-based products. Additionally, MIBK is used as a chemical intermediate in the production of pharmaceuticals, agrochemicals, and other chemicals.

MIBK can also be used as a denaturant for alcohol, making it unsuitable for human consumption. In the laboratory, MIBK is used as a solvent in various chemical reactions, such as the extraction of alkaloids from plants and the synthesis of pharmaceutical intermediates.

It is important to handle MIBK with care, as it is a flammable liquid that can cause skin and eye irritation upon contact. Protective equipment and proper handling procedures should be used when working with this compound. MIBK also has a low flash point and should be stored and transported in accordance with appropriate safety regulations.

 

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Methyl PROXITOL

EINECS number 203-539-1

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CAS number 107-98-2

Methyl Proxytol is an organic solvent with a wide variety of industrial and commercial uses. Similar to other glycol ethers, it is used as a carrier/solvent in printing/writing inks and paints/coatings. It also finds use as an industrial and commercial paint stripper. It is used as an antifreeze in diesel engines.

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Methyl Proxitol Acetate

EINECS number 203-603-9

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CAS number 108-65-6

Methyl PROXITOL acetate is a colourless, neutral propylene oxide-based glycol ether acetate with a mild odour and a volatility, viscosity and solvent power similar to those of ethylene glycol-based glycol ether acetates.

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Mono ethanol amine (MEA) 99%

EINECS number 205-483-3

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CAS number 141-43-5

Monoethanolamines are used for the wood treatment, oil industry and oil treatment, oil additives production, fertilizers production, production of ethylendiamines (piperazine), detergents and surfactants. Chemical formula : C2H7N0

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Monopropylene Glycol MPG USP

EINECS number 200-338-0

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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.

Applications :

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.

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Nonyl Phenol

EINECS number 284-325-5

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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.

 

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Ortho-xylene

EINECS number 202-422-2

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CAS number 95-47-6

Equilex Chemicals is now an importer of high purity orthoxylene into the European Union. OX is extracted from mixed xylene streams and it is the key raw material in the production of phthalic anhydride. OX derivatives are used in a wide range of resins, plasticisers, medicines and dye products.

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p-tertiary butyl Phenol

EINECS number 202-679-0

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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.

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Pentamer

EINECS number 297-797-2

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CAS number 93762-80-2

Pentamer is a branched olefin produced by the polymerization of propylene. Pentamer is also referred to as propylene pentamer. It is preferred name for branched C15 olefin.

Pentamer is used for solvent applications and or carrier fluids (e.g. drilling fluids) and as a supplement or replacement for tetramer. Other applications are the production of alkylphenols, alkenylsucinnic anhydride, mercaptans, alcohols and for alkylation of benzene. Pentamer can be used as a synthetic base oil, a refrigeration fluid and as an intermediate for further reaction (e.g. sulphonation).

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Propylene Tetramer (PTM)

EINECS number 298-697-1

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CAS number 93821-12-6

Propylene tetramer, commonly known as tetrapropylene, is an important hydrocarbon compound in the chemical industry. With a molecular formula of C12H24, it has a unique structure and a wide range of applications.

Tetrapropylene is a hydrocarbon made up of 12 carbon atoms and 24 hydrogen atoms. Its unique structure makes it a valuable building block for various chemical processes.

Applications:

Lubricant additives: Propylene tetramer is used as a lubricant additive to enhance the performance of lubricating oils by improving viscosity, stability and overall lubricity.

Chemical synthesis: It serves as a key intermediate in the synthesis of various chemicals, contributing to the production of specialised polymers, plastics and other chemical compounds.

Polymer production: The tetrapropylene molecule plays a role in the creation of specialty polymers used in a wide range of industries, including automotive and manufacturing.

Surfactants: When modified and sulphonated, propylene tetramer is used in the production of surfactants, which are integral to the formulation of soaps, detergents and cleaning products.

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Propylene Trimer Nonene

EINECS number 307-301-9

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CAS number 97593-01-6

Propylene Trimer, also known as Nonene, is a chemical compound derived from the polymerization of propylene. It has a chemical formula of C9H18 and is characterized by a molecular structure with nine carbon atoms. Nonene is typically produced through the process of oligomerization of propylene, resulting in the formation of larger molecules. The most commonly obtained product is the isomer 1-Nonene, which plays a crucial role in various industrial applications.

Production Process:

Nonene is generally produced by oligomerizing propylene, a gaseous hydrocarbon, using a suitable catalyst and specific reaction conditions. This process involves:

  1. Oligomerization: Propylene is chemically combined (oligomerized) to form larger molecules, with the isomer 1-Nonene being the most common target. Catalysts such as solid phosphoric acid or other transition metal compounds are often used to facilitate this reaction.

    Applications:

    Nonene, particularly the isomer 1-Nonene, finds applications in various industrial sectors, including:

    1. Production of Linear Alkylbenzenes (LAB): Isomer 1-Nonene is a key component in the production of linear alkylbenzenes (LAB), which are used in the manufacture of biodegradable detergents and household cleaning products.

    2. Polymerization: Nonenes can be polymerized to produce a variety of polymers and copolymers, such as high-performance synthetic rubber like polyoctenamer.

    3. Lubricant Additives: Nonenes are used as additives in lubricating oils to improve their performance, including enhancing viscosity and lubricity.

    4. Production of Surfactants: When sulfonated, Nonenes are employed in the production of surfactants, which have applications in a wide range of products, including soaps, detergents, and cleaning agents

    5. Chemical Intermediates: Nonenes serve as intermediates in the synthesis of various chemicals and compounds in the petrochemical and chemical industries.

    6. Adhesives: Nonenes can be incorporated into adhesive formulations, contributing to their adhesive properties and flexibility.

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SBP 100/140

EINECS number 64742-49-0

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CAS number 265-151-9

SBP 100/140 stands for “Solvent Boiling Point 100 to 140 degrees Celsius”. It is a type of hydrocarbon solvent that is commonly used in various industrial applications, including as a cleaning agent, a solvent for paints and coatings, and as a carrier solvent for various chemical reactions.

SBP 100/140 is a mixture of various hydrocarbon compounds, such as alkanes and cycloalkanes, that are selected to have a boiling range between 100 and 140 degrees Celsius. This makes it useful for applications that require a solvent with a moderate boiling point range and good solvency power.

SBP 100/140 is a relatively low toxicity solvent and is considered to be a safer alternative to some of the more hazardous solvents that have been used in the past. However, like all solvents, it should be handled with care and appropriate safety precautions should be taken when working with it to minimize the risk of exposure and potential health hazards.

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SBP 60/95

EINECS number 265-151-9

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CAS number 64742-49-0

SBP 60/95 solvent is commonly used as a cleaning agent for machinery and equipment, such as in the printing, textile, and metalworking industries. It is also used as a thinner for paints, coatings, and adhesives.SBP 60/95 solvent is valued for its high solvency power, low toxicity, and low odor. However, it can be flammable and may pose health hazards if not handled properly. Therefore, safety precautions should always be taken when using this solvent.

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SBP 80/110

EINECS number 265-151-9

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CAS number 64742-49-0

SBP 80/110 refers to a type of solvent known as Solvent White Spirit, which is a mixture of aliphatic and alicyclic hydrocarbons with a boiling range of approximately 80 to 110°C. SBP stands for “Stoddard solvent, Benzene, and Paraffin”.

SBP 80/110 is commonly used as a solvent in various industrial applications, such as:

Paints and Coatings: SBP 80/110 is used as a solvent in oil-based paints and coatings. It helps to dissolve the pigments and resins, allowing for the formation of a smooth and even coating.

Adhesives: SBP 80/110 is used as a solvent in the manufacture of adhesives and sealants, helping to dissolve the ingredients and improve their workability.

Cleaning: SBP 80/110 is used as a cleaning solvent for industrial equipment and machinery, such as metal parts and engines.

Printing: SBP 80/110 is used as a solvent in the printing industry, particularly in lithographic printing, to help dissolve the ink and improve its flow properties.

Rubber and Plastics: SBP 80/110 is used as a solvent in the production of rubber and plastics, helping to dissolve and mix the various ingredients.

It is important to handle SBP 80/110 with care, as it is a flammable liquid that can cause skin and eye irritation upon contact. Protective equipment and proper handling procedures should be used when working with this solvent. Additionally, due to its toxicity, it should be used in well-ventilated areas with appropriate safety precautions.

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Solvent Naphtha 150 ND Grade GI

CAS number 64742-94-5

Heavy Aromatic Solvent 150 (also known as solvent C10) is a clear, colorless liquid having a mild aromatic smell as it consists of petroleum hydrocarbons having C10 in predominant form. Solvent 150 is a heavy aromatic solvent having high solvency power, low volatile organic content(VOC), and a high boiling rate as compared to Solvent C9. Aromatic 150 is also known by other names as Solvent Naphtha 150, Solvesso 150, Caromax 150, Shellsol A150, and Heavy Aromatic Solvent Naphtha 150. Solvent Naphtha 150 has CAS number 64742-94-5 and is manufactured by distillation of aromatic streams that are derived from petroleum products. Solvent C10 has a higher flash point and evaporation rate than Xylene and hence it is used in paints and coatings manufacturing, agrochemical and pesticides formulations, oilfield chemicals manufacturing, and as a wash oil in ethylene crackers.

One specification document is attached.(S_SOL-150ND)

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Triethanol amine (TEA) 99%

EINECS number 203-049-8

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CAS number 102-71-6

Triethanolamines are used in cosmetics, cement production, detergents and surfactants, metal working fluids, polyols and lubricants, etc. Chemical formula : C6H15N03

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