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ETHANOLAMINES

Our high-quality ethanolamines are produced through precise organic synthesis techniques, ensuring purity and consistency. These versatile compounds find applications in various industries, including agrochemicals, personal care, pharmaceuticals, and gas treatment. Trust our ethanolamines for reliable organic synthesis solutions.

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Accordion

1.Diethanolamine

Our premium-grade Diethanolamine is meticulously produced through precise organic synthesis techniques, ensuring purity and reliability. This versatile compound finds applications in industries such as detergents, personal care, textiles, and gas treatment, offering excellent emulsifying, buffering, and corrosion inhibition properties. Trust our Diethanolamine for reliable organic synthesis solutions.

1.1 Pure diethanolamine

It is obtained by reacting ammonia with ethylene oxide. It is used for the absorption of acid gases and sulfur-containing compounds from industrial gas mixtures, the production of emulsifiers, detergents, cosmetics.

2.Monoethanolamine

Our high-quality Monoethanolamine is meticulously produced through precise organic synthesis techniques, ensuring purity and reliability. This versatile compound finds applications in industries such as cosmetics, pharmaceuticals, gas sweetening, and surface coatings, offering excellent solubility, pH regulation, and chemical reactivity. Trust our Monoethanolamine for reliable organic synthesis solutions.

2.1 Monoethanolamine

It is obtained by reacting ammonia or an aqueous solution of ammonia with ethylene oxide. It is used for the absorption of acid gases and sulfur-containing organic compounds, in the pharmaceutical, textile and paint industries, in the production of plastics.

 

3.Triethanomine

Our premium-grade Triethanolamine is meticulously produced through advanced synthesis techniques, ensuring purity and reliability. This versatile compound finds applications in industries such as cosmetics, detergents, and pharmaceuticals, offering excellent emulsifying, buffering, and corrosion inhibition properties. Trust our Triethanolamine for reliable solutions in the Organic Synthesis industry.

3.1 Triethanolamine, grade A

It is obtained by oxyethylation of ammonia. Included in the composition of softeners for rubber, coolants, perfumes, cosmetics. It is also used as an absorbent of acid gases, a corrosion inhibitor and as a raw material in a number of organic syntheses.

3.2 Triethanolamine, grade B

It is obtained by oxyethylation of ammonia. Included in the composition of softeners for rubber, coolants, perfumes, cosmetics. It is also used as an absorbent of acid gases, a corrosion inhibitor and as a raw material in a number of organic syntheses.

 

ALCOHOLS

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1. 2-ethylhexanol

Our premium-grade 2-Ethylhexanol is meticulously produced through advanced synthesis techniques, ensuring purity and reliability. This versatile compound finds applications in industries such as plastics, coatings, and chemicals, serving as a key raw material for plasticizers, solvents, and synthetic lubricants. Trust our 2-Ethylhexanol for reliable solutions in the Organic Synthesis industry.

1.1 2-ethylhexanol TS-SHP-02/2019

Technical 2-ethylhexanol, obtained from n-butyraldehyde, n-butyl alcohol, acetaldehyde.

Properties Status
Grade High grade
Mass fraction of aldehydes and ketones in terms of 2-ethylhexanal, %, max. 0.05
Diethylen glycol, %, min 99
Water mass, %, min 0.1
Density 20C, g/cm3 0.831 - 0.833
Color Hazen units, max 10

2. N-butyl alcohol

Our high-quality N-Butyl Alcohol is meticulously produced through advanced synthesis techniques, ensuring purity and reliability. This versatile compound finds applications in industries such as coatings, solvents, and pharmaceuticals, serving as a key ingredient in paints, adhesives, and chemical intermediates. Trust our N-Butyl Alcohol for reliable solutions in the Organic Synthesis industry.

Name Indicator Norm for grade A
Premium Grade OKP 242151 0133  First Class OKP 242151 0134
1. Chromaticity on the platinum-cobalt scale, Hazen units, not more than 10 10
2. Density 20C, g/cm3 0.809 - 0.811 0.809 - 0.811
3. Mass butyl alcohols, %, min 99.4 99.0
4. Mass fraction of acids in terms of acetic acid, %, max 0.003 0.005
5. Bromine number, g bromine on 100 g spirt, max 0.02 0.05
6. Mass fraction of carbonyl compounds in terms of oil aldehyde,%max 0.06 0.10
7. Nonvolatile residue, %, max 0.0025 0.0025
8. Water mass content, %, not exceeding 0.1 0.2
N-butyl alcohol is a synthetic alcohol obtained by oxo synthesis and aldol condensation of acetaldehyde. N-butyl alcohol is used as a solvent in the coatings industry, in the synthesis of organic products.

3.Isobutanol

Our premium-grade Isobutanol is meticulously produced through advanced synthesis techniques, ensuring purity and reliability. This versatile compound finds applications in industries such as chemicals, fuels, and pharmaceuticals, serving as a solvent, intermediate, and additive in various processes. Trust our Isobutanol for reliable solutions in the Organic Synthesis industry.

Name Indicator Norm for grade A
Premium Grade OKP 242151 0133  First Class OKP 242151 0134
1. Chromaticity on the platinum-cobalt scale, Hazen units, not more than 10 10
2. Density 20C, g/cm3 0.809 - 0.811 0.809 - 0.811
3. Mass butyl alcohols, %, min 99.4 99.0
4. Mass fraction of acids in terms of acetic acid, %, max 0.003 0.005
5. Bromine number, g bromine on 100 g spirt, max 0.02 0.05
6. Mass fraction of carbonyl compounds in terms of oil aldehyde,%max 0.06 0.10
7. Nonvolatile residue, %, max 0.0025 0.0025
8. Water mass content, %, not exceeding 0.1 0.2
3.1 Isobutyl alcohol technical, highest grade

Isobutanol is used as an additive to most mixed solvents in the paint industry. It is also used as a high-octane gasoline component and in the manufacture of plasticizers, lubricant additives, isobutyl acetate and aramid fibers.

Name of the indicator Norm
Premium Grade  First Class
1. Choromaticity according to platinum-cobalt scale units Hazen, no more 7 15
2. Density at 20 °C, g / cm3 0.801 - 0.803 0.801 - 0.803
3. Mass fraction of butyl alcohol, %, not less 99.3 98.5
4. Mass fraction of acids in terms of acetic acid, %, not more 0.003 0.005
5. Bromine number, g per 100 g of alcohol, not more than 0.02 0.10
6. Mass fraction of carbonyl compounds in terms of oil aldehyde, %, not more 0.03 0.10
7. Mass fraction of non-volatile residue, %, not more than 0.0025 0.0030
8. Mass fraction of water,%, not more 0.1 0.2
ISO-BUTANOL – used as a high-octane gasoline component and solvent in the paint industry. Used in the manufacture of plasticizers, lubricant additives, isobutyl acetate and aramid fibers.

Technical isobutyl alcohol – is used as a high-octane gasoline component and solvent in the paint and varnish industry. It is used in the production of plasticizers, additives to lubricating oils, util acetate and aramid fibers.

Product characteristics: clear homogeneous liquid. The guaranteed shelf life of products

– 3 years from the date of manufacture.

SAS (SURFACTANT)

Our high-quality surfactants are produced through advanced organic synthesis techniques, ensuring superior performance. These versatile compounds are widely used in industries such as personal care, detergents, agriculture, and oil recovery, providing excellent emulsification, wetting, and dispersing properties. Trust our surfactants for reliable solutions in organic synthesis.

1.Neonols

Our premium-grade Neonols are produced through state-of-the-art technology, ensuring exceptional quality and performance. These versatile surfactants find applications in industries such as detergents, personal care, and industrial cleaning, offering excellent emulsifying, wetting, and foaming properties. Trust our Neonols for effective surfactant solutions.

Neonol AF 9-10

Oxyethylated monoalkylphenol based on propylene trimers, is a highly effective non-ionic surfactant.

Neonol AF 9-12

Oxyethylated monoalkylphenol based on propylene trimers, is a highly effective non-ionic surfactant.

Neonol AF 9-25

Oxyethylated monoalkylphenol based on propylene trimers, is a highly effective non-ionic surfactant.

Neonol AF 9-6

Oxyethylated monoalkylphenol based on propylene trimers, is a highly effective non-ionic surfactant.

Neonol AF 9-9

Oxyethylated monoalkylphenol based on propylene trimers, is a highly effective non-ionic surfactant.

 

 

ETHYLENE OXIDE AND GLYCOLS

Our high-quality ethylene oxide and glycols are produced through precise organic synthesis techniques, ensuring purity and reliability. These versatile compounds find applications in industries such as textiles, plastics, pharmaceuticals, and antifreeze, providing excellent solvency and chemical reactivity. Trust our ethylene oxide and glycols for reliable organic synthesis solutions.

1.Diethylene Glycol

Diethylene Glycol: Our high-quality Diethylene Glycol is produced through a precise ethylene oxide and ethylene glycol reaction, ensuring purity and consistency. It finds applications in industries such as textiles, plastics, and pharmaceuticals, serving as a solvent, humectant, and chemical intermediate. Trust our Diethylene Glycol for reliable performance.

1.1 Diethylene Glycol A GOST 10136-2019
Specification data Requirements in GOST 10136
Mass fraction of diethylene glycol, %, not less than 99.5
Mass fraction of organic compounds, %, not more than 0.4
including ethylene glycol, %, not more than 0.15
Mass fraction of water, %, not more than 0.05
Mass fraction of acids calculated as acetic acid, %, not more than 0.005
Density at 20°C, g/cm3 1.116 – 1.117
Saponification index, mg KOH / 1g of product, not more than 0.1
Color, in Hazen, not more than 10
Temperature limits of distillation at a pressure of 101.3 kPa
initial boiling point, º C, not below 244
end boiling point, º C, not above 249
Grade A diethylene glycol is used in the industry of organic synthesis, in the production of polyurethanes and other purposes.

Product characteristics: Appearance  colorless or yellowish transparent liquid. Warranty period of storage of products  1 year from the date of manufacture

1.2 Liquid bottom of cleaning column EG

It is used to produce ethylene glycol and diethylene glycol. Can be used in the production of resins, solvents, low-freezing and hydraulic fluids, in the industry of organic synthesis and in other industries.

1.3 Diethylene glycol (DEG), type B

Diethylene glycol is a diatomic alcohol, a colorless or yellowish transparent liquid. It is used in the chemical industry, gas production, oil processing.

Specification data Value
Grade B
Water mass content, %, not exceeding 0.2
Diethylen glycol, %, min 1
Mass fraction of acids in terms of acetic acid, %, max 0.01
Density 20C, g/cm3 1.116 - 1.117
Color Hazen units, max 20
Saponification index, mg KOH / 1g of product 0.3

2.Ethylene Oxide

Ethylene Oxide: Our premium Ethylene Oxide is produced through a highly controlled oxidation process, ensuring superior quality and purity. It serves as a vital raw material for various applications, including the production of detergents, solvents, plastics, and pharmaceuticals. Choose our Ethylene Oxide for exceptional results.

2.1 Ethylene Oxide (OE) GOST 7568-2018

Ethylene oxide is used to produce glycols, polyester resins, wetting agents and other purposes.

2.2 Ethylene oxide purified in cylinders GOST7568-2018

Ethylene oxide is used to produce glycols, polyester resins, wetting agents and other purposes.

Ethylene is intended for use in the production of polyethylene, polyvinyl chloride, ethylene oxide, ethyl alcohol, ethylbenzene, acetaldehyde and other organic products, as well as for refrigeration plants.

2.3 Ethylene oxide purified in cylinders GOST 7568-2018

Ethylene oxide is used to produce glycols, polyester resins, wetting agents and other purposes.

 

3.Drying Agent (raw product)

Our high-quality drying agent is produced using advanced manufacturing techniques to ensure superior performance. It effectively absorbs moisture and water vapor, making it ideal for applications in industries such as pharmaceuticals, electronics, and chemical processing. Trust our drying agent for optimal results.

3.1 Drying agent, grade B

It is a product obtained by processing cubic residues of ethyl cellosol production and consisting of polyglycols and polyglycol esters. Raw dehumidifier grade B is used to produce brake fluid components.

 

4.Polyglycols

Polyglycols: These high-performance polymers are produced through a controlled polymerization process using ethylene oxide and glycols. With excellent stability and versatility, they find applications in various industries including lubricants, cosmetics, textiles, and pharmaceuticals. Trust our Polyglycols for superior performance.

Polyglycols are a dark-brown viscous liquids without mechanical impurities. They are a mixture of triethylene glycol, tetraethylene glycol and pentaethylene glycol.

Specification data Value
Density 20C, g/cm3 1.1 – 1.2
Crystallization temperature of an aqueous solution of polyglycols with a mass concentr. 60%, C, max -30
Boiling point at 101,33 kPa (760 mm Hg) C,min 250

5.Polyethylene Glycols

Produced by polymerizing ethylene oxide, PEGs are versatile compounds used in various industries. They serve as emulsifiers, solvents, thickeners, and lubricants in pharmaceuticals, cosmetics, personal care products, and industrial applications. Experience the reliability and performance of our PEGs.

5.1 Methoxypolyethylene glycol MPEG-1000M

The product of the interaction of methanol and ethylene oxide. It is used as a solubilizer, viscosity regulator, antistatic, softener, gelatinizing, granulating and tabletizing substance, “superplasticizers” of concrete mixtures.

5.2 Methoxypolyethylene glycol MPEG-3000M

The product of the interaction of methanol and ethylene oxide. It is used as a solubilizer, viscosity regulator, antistatic, softener, gelatinizing, granulating and tabletizing substance, “superplasticizers” of concrete mixtures.

5.3 Methoxypolyethylene glycol MPEG-500

The product of the interaction of methanol and ethylene oxide. It is used as a solubilizer, viscosity regulator, antistatic, softener, gelatinizing, granulating and tabletizing substance, “superplasticizers” of concrete mixtures.

5.4 Unsaturated polyethylene glycol HPEG2400

Unsaturated polyethylene glycol is prepared by attaching ethylene oxide to metallic alcohol in the presence of an alkaline catalyst. It is used in the production of “superplasticizers” of concrete mixtures.

5.5 Solid polyethylene glycol PEG-4000

Obtained by attaching ethylene oxide to monoethylene glycol, it is used in the production of cleaning and detergents, a solubilizer, a viscosity regulator, an antistatic agent, a softener, gelatinizing, granulating and tabletizing substances.

5.6 Polyethylene glycol PEG-200

Polyethylene glycol is a product of polymerization of ethylene oxide with ethylene glycol. It is used in the production of plasticizers, detergents, chemical, textile, rubber, metalworking and other industries.

5.7 Polyethylene glycol PEG-300

Polyethylene glycol is a product of polymerization of ethylene oxide with ethylene glycol. It is used in the production of plasticizers, detergents, chemical, textile, rubber, metalworking and other industries.

5.8 Polyethylene glycol PEG-400

Polyethylene glycol is a product of polymerization of ethylene oxide with ethylene glycol. It is used in the production of plasticizers, detergents, chemical, textile, rubber, metalworking and other industries.

5.9 Polyethylene glycol PEG-600

Polyethylene glycol is a product of polymerization of ethylene oxide with ethylene glycol. It is used in the production of plasticizers, detergents, chemical, textile, rubber, metalworking and other industries.

 

6.Triethylene Glycol

Produced by reacting ethylene oxide with ethylene glycol, TEG is a valuable compound known for its hygroscopic properties. It finds extensive use as a drying agent, solvent, and chemical intermediate in industries such as petrochemicals, natural gas processing, and air conditioning systems. Discover the efficiency and effectiveness of TEG in your applications.

6.1 Triethylene glycol grade A

Triethylene glycol is a transparent liquid, a by-product of ethylene and diethylene glycol production. It is used in the chemical industry, as well as in oil and gas production.

Specification data Value
Appearance Transparent liquid without mechanical impurities
Mass fraction of triethylene glycol, %, not less than 98
Mass fraction of ethylene glycol, diethylene glycol and tetraethylene glycol, %, not more than 2
including ethylene glycol, %, not more than 0.1
Density at 20°C g/cm3 1.123 –1.124
Color, in Hazen, not more than:
in the normal state 20
after boiling with hydrochloric acid 180
Mass fraction of aldehydes calculated as acetaldehyde, %, not more than 0.01
Mass fraction of acids calculated as acetic acid, %, not more than 0.002
Mass fraction of peroxide compounds calculated as iodine, %, not more than 0.005
6.2 Triethylene glycol grade B

Triethylene glycol is used in the chemical industry and refining as a solvent and for the extraction of aromatic hydrocarbons.

Specification data Requirements inTU 2422-055-52470175- 2014
Appearance Transparent liquid withoutmechanical impurities
Mass fraction of triethylene glycol, %, not less than 90
Mass fraction of ethylene glycol, diethylene glycol and tetraethyleneglycol, %, not more than 10
including ethylene glycol, %, not more than 0.8
Mass fraction of water, %, not more than 0.3
Density at 20°C g/cm3, not below 1.121
6.3 Monoethylene glycol Premium GOST19710-19

Ethylene glycol is used in the manufacture of synthetic fibers, resins, solvents, low-freezing and hydraulic fluids.

Ethylene glycol is used in the manufacture of synthetic fibers, resins, solvents, low-freezing and hydraulic fluids.

Product characteristics: Appearance – clear liquid. Warranty period of storage of products – 1 year from the date of manufacture.

Specification data Value
Mass fraction of ethylene glycol, %, not less than 99.8
Mass fraction of diethylene glycol, %, not more than 0.05
Mass fraction of water, %, not more than 0.1
Mass fraction of acids calculated as acetic acid, in %, not more than 0.0006
Mass fraction of ash residue, %, not more than 0.001
Mass fraction of iron, %, not more than 0.00001
Refraction index at 20 ºC 1.431 – 1.432
Color, in Hazen, not more than:
in the normal state 5
after boiling with hydrochloric acid 20
Transmittance in UV spectral range, %, not less than, at wavelengths, nm
220 75
275 95
350 100

7.Ethylcarbitol

Produced through the reaction of ethylene oxide with ethylene glycol, Ethylcarbitol is a versatile solvent known for its excellent solvency power and low volatility. It finds applications in various industries, including coatings, inks, cleaners, and chemical synthesis. Experience its superior performance in your formulations today.

7.1 Technical ethylcarbitol premium grade

It is a monoethyl ether of diethylene glycol, obtained by oxyethylation of ethyl alcohol and ethyl cellosol. Designed for the production of esters, the preparation of brake and special hydraulic fluids.

 

8.Ethylcellosolve

Derived from the reaction of ethylene oxide with ethanol, Ethylcellosolve is a high-performance solvent with excellent solvency and compatibility. It is widely used in industries such as coatings, cleaning agents, and chemical synthesis for its exceptional properties. Explore its versatile applications and enhance your formulations today.

8.1 Ethylcellosolve premium quality

Monoethyl ether of ethylene glycol. It is used as a solvent of paint and varnish materials, as an additive to motor and jet fuels, a separating agent of azeotropic rectification, as an intermediate for the synthesis of a number of solvents.

 

ACRYLATES

Our premium-grade Acrylates are meticulously produced using advanced techniques, ensuring superior quality and performance. These versatile compounds find applications in industries such as adhesives, coatings, textiles, and plastics, offering excellent reactivity, adhesion, and durability. Trust our Acrylates for reliable solutions in the Acrylates industry.

1. 2-Ethylhexyl Acrylate

Our high-quality 2-Ethylhexyl Acrylate is meticulously produced using advanced synthesis techniques, ensuring purity and reliability. This versatile acrylate finds applications in industries such as adhesives, coatings, and polymer manufacturing, offering excellent adhesion, flexibility, and chemical resistance. Trust our 2-Ethylhexyl Acrylate for reliable solutions in the Acrylates industry.

Specification data Value
Color, Hazen units, not exceeding 10
2-Ethylhexyl Acrylate mass content, %, not less 99.6
Water mass content, %, not exceeding 0.05
Acrylic acid mass content, %, not exceeding 0.005
Inhibitor MEHQ, ppm 15±5

2.Acrylic Acid

Our premium-grade Acrylic Acid is meticulously produced through advanced synthesis techniques, ensuring superior quality and performance. This versatile compound finds applications in industries such as adhesives, coatings, textiles, and polymers, offering excellent adhesion, UV resistance, and chemical reactivity. Trust our Acrylic Acid for reliable solutions in the Acrylates industry.

2.1 Acrylic acid Grade P

Acrylic acid, prop-2-enoic acid, ester-grade acrylic acid, polymer-grade acrylic acid, ethylenecarboxylic acid. It is a colourless liquid with strong odour. The acrylic acid is a product of the two-stage vapour-phase air oxidation of propylene.

Specification data Value
Color, Hazen units, not exceeding 10
Acrylic acid mass content, %, not less 99.5
Water mass content, %, not exceeding 0.1
Acetic acid mass content, %, not exceeding 0.1
Рropionic acid mass content, %, not exceeding 0.05
Furfurol and Acrolein mass content, %, not exceeding 0.02
Dimer mass content, % Not Defined
Inhibitor MEHQ mass content, ppm 200 ± 20
Polymer Absence
Iron mass content, ppm, not exceeding 0.3
Copper mass content, ppm, not exceeding 0.1

3.Butyl Acrylate

Our high-quality Butyl Acrylates are meticulously produced through advanced synthesis techniques, ensuring superior quality and performance. This versatile acrylate finds applications in industries such as adhesives, coatings, and paints, offering excellent adhesion, weather resistance, and durability. Trust our Butyl Acrylates for reliable solutions in the Acrylates industry.

Acrylic acid butyl ester (butyl acrylate), propenoic acid butyl ester, butyl propenoate. It is a colourless liquid with unpleasant odour.

Specification data Value
Color, Hazen units, not exceeding 10
Butyl Acrylate mass content, %, not less 99.5
Water mass content, %, not exceeding 0.05
Acrylic acid mass content, %, not exceeding 0.005
Butyl acetate mass content, %, not exceeding 0.1
Butyl alcohol mass content, %, not exceeding 0.1
Butyl propionate mass content, %, not exceeding 0.05
Inhibitor MEHQ, ppm 15 ± 5

4.Methyl Acrylate

Our premium-grade Methyl Acrylates are meticulously produced through advanced synthesis techniques, ensuring superior quality and performance. This versatile acrylate finds applications in industries such as adhesives, coatings, and textiles, offering excellent adhesion, chemical resistance, and flexibility. Trust our Methyl Acrylates for reliable solutions in the Acrylates industry.

Acrylic acid methyl ester, methyl propenoate, 2-Propenoic acid methyl ester. It is a colourless transparent liquid with unpleasant odour.

Specification data Value
Color, Hazen units, not exceeding 10
Methyl Acrylate mass content, (purity) %, not less 99.7
Water mass content, %, not exceeding 0.05
Acrylic acid mass content, %, not exceeding 0.005
Methyl acetate mass content, %, not exceeding 0.1
Methyl propionate mass content,%, not exceeding 0.05
Methyl alcohol mass content, %, not exceeding 0.01
Inhibitor MEHQ, ppm 15 ± 5

5.Alpha Olefins

Our high-quality Alpha Olefins are produced through advanced processes, ensuring exceptional purity and performance. These versatile compounds find applications in industries such as plastics, lubricants, surfactants, and additives, offering excellent thermal stability, chemical reactivity, and viscosity control. Trust our Alpha Olefins for reliable solutions in the Acrylates industry.

5.1 Linear alpha olefins C10 Decene1 premium grade

Product of catalytic oligomerization of ethylene. It is used for the production of synthetic lubricating oils, in the production of plasticizers by the method of oxosynthesis, surfactants.

5.2 Linear alpha olefins C12-C14

Product of catalytic oligomerization of ethylene. It is used for the production of synthetic lubricating oils, olefinosulfonates and technical detergents, in particular, sulfonol NP-3.

5.3 Linear alpha olefins C16-C18

The product of thermocatalytic oligomerization of ethylene. It is used in the production of medium and low density polyethylene as a monomer for gas-phase, suspension and solution polymerization processes with ethylene.

5.4 Linear alpha olefins C6 “Hexene-1”

The product of thermocatalytic oligomerization of ethylene. It is used in the production of medium and low density polyethylene as a monomer for gas-phase, suspension and solution polymerization processes with ethylene.

5.5 Linear alpha olefins C8 premium grade

Product of catalytic oligomerization of ethylene. It is used for the production of synthetic lubricating oils, as a comonomer in the process of obtaining linear low-density polyethylene, in the production of plasticizers by the method of oxosynthesis, surfactants.

5.6 Linear alpha olefins C8 first grade (Okten-1)

Product of catalytic oligomerization of ethylene. It is used for the production of synthetic lubricating oils, as a comonomer in the process of obtaining linear low-density polyethylene, in the production of plasticizers by the method of oxosynthesis, surfactants.

6.Acetone

Our high-quality Acetone is produced through advanced synthesis techniques, ensuring purity and reliability. This versatile compound finds applications in industries such as solvents, coatings, pharmaceuticals, and cosmetics, offering excellent solvency, evaporation rate, and chemical reactivity. Trust our Acetone for reliable solutions in the Acrylates industry.

6.1 Technical acetone, premium grade

Technical acetone, obtained by the cumol method, is used for the synthesis of acetic anhydride, acetone cyanohydrin, diphenylolpropane and other organic products, as well as a solvent in various industries.

 

 

7.Benzene

Our premium-grade Benzene is meticulously produced through advanced synthesis techniques, ensuring purity and reliability. This versatile compound finds applications in industries such as petrochemicals, plastics, pharmaceuticals, and dyes, offering excellent solvent properties and serving as a building block for various organic compounds. Trust our Benzene for reliable solutions in the Acrylates industry.

7.1 Benzene petrochemical, grade superior

Benzene is used for the production of styrene, synthetic fibers, rubbers, plastics, dyes and other products of organic synthesis.

7.2 Petroleum benzene extra

Petroleum benzene is a transparent liquid without impurities and water. Depending on its production process and application, it is categorised into three grades: highly purified, purified, and petroleum benzene for synthesis.

Specification data Requirements for grade
high purity purified for synthesis
premium grade first grade
Appearance and color Transparent liquid free of foreign impurities and water, no darker than 0.003 K2Cr2O7 in 1 dm3 of water
Density at 20°C g/cm3 0.878-0.880 0.878-0.880 0.878-0.880 0.878-0.880
Distillation limits of 95%, °C, not exceeding (including boiling point of pure benzene 80.1°C)  -  -  0.6  0.6
Crystallization point, °C, not less 5.40 5.40 5.35 5.30
Basic substance mass content, %, not less 99.9 99.8 99.7 99.5
Impurities mass content, %, not exceeding:        
n-heptane 0.01 0.06 0.06 -
methylcyclohexane+toluene 0.05 0.09 0.13 -
methylcyclopentane 0.02 0.04 0.08 -
toluene - 0.03 - -
Sulfuric acid dyeing, number of standard scale, not exceeding 0.1 0.1 0.1 0.15
Total sulfur mass content, %, not exceeding 0.00005 0.00010 0.00010 0.00015
Reaction of aqueous extract Neutral
7.3 Petroleum benzene purified

Benzene is used for the production of styrene, synthetic fibers, rubbers, plastics, dyes and other products of organic synthesis.

8.Propylene Oxide

Our high-quality Propylene Oxide is meticulously produced through advanced synthesis techniques, ensuring purity and reliability. This versatile compound finds applications in industries such as plastics, cosmetics, and pharmaceuticals, offering excellent reactivity, stability, and solvency. Trust our Propylene Oxide for reliable solutions in the Acrylates industry.

8.1 Propylene oxide technical premium quality

Benzene is used for the production of styrene, synthetic fibers, rubbers, plastics, dyes and other products of organic synthesis.

 

9.Propylene Oligomers

Our high-quality Propylene Oxide is meticulously produced through advanced synthesis techniques, ensuring purity and reliability. This versatile compound finds applications in industries such as plastics, cosmetics, and pharmaceuticals, offering excellent reactivity, stability, and solvency. Trust our Propylene Oxide for reliable solutions in the Acrylates industry.

9.1 Propylene pentamers, grade B

Residual product of propylene oligomer rectification, a mixture of iso- olefins C13-C15. Grade B propylene pentamers are intended for use as a modifier of drilling and cement fluids in the oil and gas industry.

9.2 Propylene tetramer first quality

Oligomerization product of concentrated propylene on a phosphate catalyst. Designed for the production of additives to oils – sulfurized propylene tetramers (OTP), tertiary dodecyl mercaptan.

9.3 Propylene trimer

The product of polymerization of propylene on a phosphoric acid catalyst. Used to produce alkylphenols, as a raw material for oxosynthesis of isodecyl alcohols used to produce plasticizers of plastics.

9.4 Isoolefin fraction C7-C8 TU 20.14.11-241-05766801-2020 Notice 1

It is a product of oligomerization of propylene on a phosphoric acid catalyst. It is used as an extractant or solvent of paint and varnish materials, asphalt-milk paraffin deposits.

 

10.Polyethers

Our high-quality Polyethers are meticulously produced through advanced synthesis techniques, ensuring superior quality and performance. These versatile compounds find applications in industries such as adhesives, sealants, coatings, and personal care products, offering excellent flexibility, water resistance, and chemical stability. Trust our Polyethers for reliable solutions in the Acrylates industry.

10.1 Polyether 4202-2B-30, grade PP-CSH

An alkaline product of successive addition to ethylene glycol first of propylene oxide, then of ethylene oxide in the presence of an alkaline catalyst. Molecular weight 4200. It is used for the production of reagents- demulsifiers of oil.

10.2 Polyether PP-3003

It is a simple polyester with a molecular weight of 3000 3300, obtained by alcoholate polymerization of propylene oxide on glycerol. Used in the production of flexible polyurethane foams.

10.3 Polyether PP-3603-2-12

The product of alcoholate polymerization of propylene oxide with glycerin and subsequent block copolymerization with ethylene oxide, containing a special system of antioxidants.

10.4 Polyether PP-373

The product of alkaline polymerization of propylene oxide and glycerol with subsequent phosphate-sorption purification. The molecular weight is 370±20. It is used as a polyol raw material in the production of various types of polyurethane foams.

10.5 Polyether PP-4003-2-16

It is a statistical copolymer with a molecular weight of 4000 ± 150, obtained by alcoholate copolymerization of propylene oxide with ethylene oxide based on glycerol and containing a special antioxidant system.

10.6 Polyether PP-5003-2-15

The product of alcoholate polymerization of ethylene and propylene oxides with glycerin with ethylene oxide content of 14-16%. Molecular weight 5000±300. It is used to produce elastic polyurethane foams of cold formation.

10.7 Polyether PP-5003-2-B10

The product of alcoholate polymerization of propylene oxide with glycerol and subsequent block copolymerization with ethylene oxide. Molecular weight 5000±300. It is used to produce elastic polyurethane foams.

10.8 Polyether PP-6003-2B-18, grade PP-N

The neutral product of alcoholate polymerization of propylene oxide with glycerol and subsequent block copolymerization with ethylene oxide. It is used to produce microcell shock-absorbing polyurethane foams.

 

11.Propylene

Our premium-grade propylene is meticulously produced through advanced polymerization techniques, ensuring exceptional strength and durability. This versatile polymer finds applications in industries such as packaging, automotive, textiles, and household products, offering excellent heat resistance, chemical stability, and mechanical properties. Trust our propylene for reliable solutions in the Acrylates industry.

11.1 Propylene, 1s, GOST 25043-2013

Propylene – is used for the production of polypropylene, propylene oxide, acrylonitrile, isopropyl and butyl alcohol, isopropylbenzene, glycerol and other organic products.

11.2 Propylene highest grade GOST 25043-2013

Propylene – is used for the production of polypropylene, propylene oxide, acrylonitrile, isopropyl and butyl alcohol, isopropylbenzene, glycerol and other organic products.

 

12.Styrene

Our high-quality Styrene is meticulously produced through advanced synthesis techniques, ensuring purity and reliability. This versatile compound finds applications in industries such as plastics, rubber, coatings, and packaging, offering excellent stability, rigidity, and chemical reactivity. Trust our Styrene for reliable solutions in the Acrylates industry.

12.1 Bottoms liquid of ethylbenzene rectification KORE, grade B

A mixture of cubic residues of rectification of ethylbenzene and styrene. It is used as a raw material in the production of antiseptics for wood processing, for coal enrichment, as a solvent of asphalt-resin deposits, as a component of furnace fuel.

Bottoms liquid of ethylbenzene rectification KORE, grade V

A mixture of cubic residues of epoxydate rectification. It is used as a raw material in the production of antiseptics for wood processing, for coal enrichment, as a solvent of asphalt-resin deposits, as a component of furnace fuel.

Recycle styrene, grade A

A product formed during the production of polystyrenes. Used as a component for the manufacture of mixed solvents.

Recycl-styrene, grade B

A product formed during the production of polystyrenes. Used for the production of industrial solvents.

Styrene premium grade

A SDEB grade styrene is a colourless liquid with a characteristic faint odour. It does not dissolve in water and is produced through catalytic dehydrogenation of ethyl benzene.

Specification data Value
General appearance Transparent homogeneous liquid w/o undissolved moistureand mechanical admixtures
Fraction of total mass of styrene, %, minimum 99.8
Fraction of total mass of phenylacetylene, %, maximum 0.01
Fraction of total mass of divinyl benzene, %, maximum 0.0005
Fraction of total mass of carbonyl compounds in conversion into benzaldehyde, %, maximum 0.01
Fraction of total mass of peroxide compounds in conversion into active oxygen, %, maximum 0.0005
Fraction of total mass of polymer, %, maximum 0.001
Color index by platinum-cobalt scale, Khazen's units, maximum 10
Fraction of total mass of stabilizer of para-tert-butyl pyrocatechol, % 0.0005-0.001

13.Polypropylene Fraction

Our premium-grade Polypropylene Fractions are meticulously produced through advanced fractionation techniques, ensuring exceptional quality and performance. These specific fractions find applications in industries such as films, fibers, packaging, and automotive parts, offering excellent balance of strength, stiffness, and impact resistance. Trust our Polypropylene Fractions for reliable solutions in the Acrylates industry.

13.1 Propylene fraction STO 68699968-001-2014

Propylene fraction is produced at ethylene production facilities during pyrolysis of hydrocarbon raw materials and is used in the petrochemical industry.

13.2 Improved propylene fraction, grade A

The product of pyrolysis of hydrocarbon raw materials and catalytic cracking of oilfractions,intended for the production of organic synthesis products.

 

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