Contact Us

Industrial chemistry

(ask for brochure and additional information on

Products by trade name

INCI (Chemical composition , application )

ABS acid

ABS Na 50%

ABS Na 30%

Rokamid KAD

Rokamid KAD2A

Rokamina К30

Rokamina K40

Rokamina K40 HC

Rokamina K30 B

Tequat LC90i

Rokanol DB3

Rokanol DB5

Rokanol DB 7

Rokanol L7

Rokanol L7A

Alcohol ethoxylated EO7

Alcohol ethoxylated EО7 S

Rokanol L10

Rokanol L4

Polikol 400

Polikol 600

Polikol 1500 flakes

Sulforokanol L270/1

Sulforokanol L2270/1

Sulforokanol L225/1

Sulforokanol L370

Rokacet KO300 G

Sulfoburztynian L3/40

Rokanol L4P5

Rokanol L5P5

Rokanol LP3034

Rokanol LP3135

Rokanol NL8P4

Rokacet HR40(W)

Rokamer 2330

Rokanol NL6

Rokanol NL8

Rokanol NL9

Rokanol IT3

Rokanol IT5

Rokanol IT9

Rokanol IT7

Rokanol IT8

Rokanol GA8

Rokanol GA 7

Rokanol LK3

Rokanol LK2

Caustic soda flakes

Rokamin K15K

Rokanol K18

Rokamin K5

Rokwin 80

EXOemul OM4

EXOclean AC

EXOantifoam S100




EXOcon B27

Exosoft PC35, IBC

Exocare PC60(60%)

Rosulfan A

Rosulfan L

Rosulfan D

ROKwinol 20





Silicone emulsions 36%

Silicone emulsions 60%

Silicone oil viscosity 350

Silicone oil viscosity 1000



Rokanol O3


EXOsoft MG

EXOsoft ZN

Exosoft PC35

Rosulfan A

Rosulfan L

ROKwinol 20

Rokacet HR40


MCT 60/40

Rokamin SR22

Polyether polyols

Specialty chemicals

Dodecylbenzene Sulfonic Acid (LABSA ,min 96%)

Sodium Dodecylobenzene Sulfonate 50%

Sodium Dodecylobenzene Sulfonate 30%

Cocamide DEA

Cocamide DEA

Cocamidopropyl Betaine 30%

Cocamidopropyl Betaine 40%

Cocamidopropyl Betaine 40%

Coco Betaine

quaternary esters of fatty acids and triethanolamine in isopropanol (softener)

Alcohol C12-15 Pareth-3

Alcohol C12-15 Pareth-5

Alcohol C12-15 Pareth-7


C12-C16 Pareth-7

Alcohol C12-14, EO7

Alcohol C12-14, EO7



PEG-8 ( PEG 400)

PEG-12 (PEG 600)

PEG 32 ( PEG 1500 flakes )

Sodium Laureth-2 Sulfate, 70% (SLES 70%)

Sodium Laureth-2 Sulfate,27% ( SLES 27%)

Sodium Laureth-2 Sulfate,25% (SLES 25%)

Sodium Pareth-3 Sulfate, 70 %

PEG-7 Glyceryl Cocoate

Disodium Laureth-3 Sulfosuccinate

PPG-4 Laureth-5, low-foaming

PPG-5 Laureth-5, low-foaming

Polyoxyalkylene glycol fatty alcohol ether (low foaming )

Polyoxyalkylene glycol fatty alcohol ether (low foaming )

C9-11 Pareth-8/P4 ( low foaming stable in low and high ph)

PEG-40 Hydrogenated Castor Oil

PEG/PPG Copolymer

C9-11 Pareth-6(stable in low and high ph)

C9-11 Pareth-8 (stable in low and high ph)

C9-11 Pareth-9 (stable in low and high ph)

Alcohols, C13, Isotrideceth-3

Alcohols, C13, Isotrideceth-5

Alcohols, C13, Isotrideceth-9

Alcohols, C13, Isotrideceth-7

Alcohols, C13, Isotrideceth-8

Alcohol C10, ethoxylated 8E O

Alcohol C10, ethoxylated 7E O



Caustic soda flakes 98%

Quaternized and ethoxylated fatty amine

Alcohols, C16-18 and C18-unsatd., ethoxylated, Cetoleth-18

C12-18 alkyl amine, ethoxylated/ PEG-5 Cocamine

Sorbitan Monooleate

mixture of non-ionic surfactants with emulsifying properties

composition of anionic and non-ionic surfactants, inorganic and organic acids

Silicone antifoam emulsion

Sodium Lauroyl Glycinate

Sodium Lauroyl Sarcosinate

Sodium Decyl Sulfate

specialist mixture of anion surfactants

potassium cocoate

Sodium Laureth Sulfate (and) Cocamidopropyl Betaine (and) Coco-Glucoside

Ammonium lauryl sulfate

Sodium lauryl sulfate

Sodium Decyl Sulfate

Polysorbate 20

Glycerin min.99,5%, pharma

Lauryl ,Decyl ,Coco glucoside



Silicone emulsions 36%

Silicone emulsions 60%

Silicone oil viscosity 350

Silicone oil viscosity 1000

MEA Lauryl Sulfate

TEA Lauryl Sulfate

Oleth 3

MIPA Laureth Sulfate(and) Propylene Glycol

Magnesium Laureth Sulfate

Zinc Coceth Sulfate

potassium cocoate

Ammonium lauryl sulfate

Sodium lauryl sulfate

Polysorbate 20

PEG40 hydr.Castrol.Oil

Glycerin min.99,5%, pharma

Caprylic/Capric Triglyceride

Ethoxylated fatty amine

Polyether polyols

Specialty chemicals

Potassium nitrate

technical quality


· Production of high-quality crystal glass

· The production of explosives as one of

· The components of black powder (gunpowder)

· A component of solar salt in the manufacture of solar panels

· Automotive industry (air bag systems)

· Drilling mud

Fire extinguishing foam ROTEOR M PREMIUM

1) Product feature

Roteor M Premium is a synthetic, foam-forming fire-fighting product designed to produce

mechanical foam

for fire extinguishers of all types of foaming, using fresh water and sea water. Roteor M

Premium is a combination of special

selected highly effective surfactants, corrosion inhibitors and anticoagulants. This product

produces a durable foam resistant to high temperatures.

2) Usage

Roteor M Premium is used to produce heavy, medium and light foam with all available fire

fighting equipment

for class A (solids) and B (liquids immiscible with water) fire.

This product is especially recommended for: fire departments, forest services, chemical

plants, factories, airports, refineries, etc.

Thanks to the use of highly specialized surfactants, Roteor M Premium can be used as a

wetting agent in a concentration of 0.5 to 1%.

3) Certificates

The quality requirements of the Roteor M Premium fire extinguisher are in accordance with

PN-EN 1568.

Roteor M Premium is certified by the Scientific Research Center for Fire Protection No.

2851/2017 and NIOZ-NIH No. NIOZ-NIH/HT-3149/2016.

Fire extinguishing efficiency according to PN-EN 1568-3:2018 III C for tap water, III D for sea


Industrial fluids and base lubricants

• Polyalkylene glycols (PAG) – Water-soluble PAG and Water-insoluble PAG

• Lubricant components – AW/EP additives

• Hydraulic fluids – HFDR, HFDU

• Metalworking components – Surfactants and emulsifiers

Drilling fluid

Drilling fluid (often called "mud") is used to:

• Lift soil/rock cuttings from the bottom of the borehole and carry them to a settling pit.

• Allow the debris to fall into the mud pit so that it does not recirculate (influenced by mud

thickness, flow rate in settling pits, and pit shape/size).

• Prevent debris from settling quickly as another length of drill pipe is added (if debris falls

too quickly, it can build up on the bit and jam it in the hole).

• Create a film of small particles on the borehole wall to prevent collapse and ensure that

the upflow of drilling fluid does not erode the adjacent formation.

• Seal the borehole wall to reduce fluid loss (minimizing drilling fluid volumes is particularly

important in arid areas where water must be carried from afar).

• Cool and clean the drill bit