Coalescent agents

Acrylate Copolymers

Provides superior performance and functionality to personal care and cleaning products. It is an improved cross-linked acrylates copolymer/acrylate copolymer product. It is an ideal solution for transparent formulas with its formula stabilising power. Provides the opportunity to adjust the desired viscosity values. It has the capacity to work in a wide pH range (6 and above).

It is a liquid rheological agent. Provides homogenous and smooth product texture. Prevents separation and precipitation problems. Extends the stability and shelf life of the formula. Provides excellent clarity in transparent formulations.

Application Areas: Shower gels, Face wash gels, Shampoos, Soaps Cleaning products containing surfactants Transparent formulas

Octylacrylamide Copolymers

It is soluble in oil and organic solvents and has many properties such as high water resistance, good film-forming properties, high strength and hardness, heat resistance and resistance to chemicals.

It can be copolymerised with different monomers. It is resistant to water, heat and chemicals. It can be easily processed and formed into different shapes.

Application Areas: Paints and varnishes, Adhesives, Textile fibres, Plastics, Paper coatings, Cosmetics, Health products.

Butylaminoethyl Methacrylate Copolymers

It can be copolymerised with different monomers and used to produce products with a wide range of properties. It is resistant to water, heat and chemicals. It can be easily processed and formed into different shapes.

Application Areas: Paints and varnishes Adhesives, Textile fibres, Plastics Paper coatings Cosmetics, Health products.

Sodium Polystyrene Sulfonate

Resistant to temperatures in excess of 300 degrees. This property makes it an ideal ingredient in heat-exposed hair styling products. Its high ionic character allows it to interact strongly with hair and skin. In this way, it significantly improves the performance and effectiveness of the products. Strengthens the hair fibres and adds shine.

Forms clear and flexible films on the skin. These films help to lock in moisture, create a barrier and protect from unwanted environmental factors. Helps to tighten and smooth the skin. Delays the signs of skin ageing by reducing the appearance of fine lines and wrinkles. It is also effective in shampoo and cleaning products by removing cationic residues accumulated on the hair.

Areas of Use: Hair Care, Skin Care, Style Aids

• Style Aids: Excellent performance in polymer, thermal protection and curl enhancing products. It is also effective in shampoos and cleansing products by removing cationic residues accumulated on the hair.
• Hair Care: The polymer's water-soluble film formation facilitates styling and provides long-lasting hold. It strengthens the hair fibres and adds shine.
• Skin Care: The polymer's film-forming ability helps to tighten and smooth the skin. Delays the signs of skin ageing by reducing the appearance of fine lines and wrinkles.

ACRYLATE COPOLYMERS

Acrylic copolymers are excellent film-forming polymers that give cosmetic products water resistance. It is used in colour cosmetics, sun and skin care, hair care products, shaving creams and moisturisers. It is a synthetic polymer that functions as a texture enhancer, binder and film-forming agent in cosmetics.

It is a liquid rheology agent that can be easily used in personal care products and soap-based cleaning systems, has high suspending and formula stabilising power, allows to adjust the desired viscosity values. It can work at pH values of 6 and above.

Areas of use

- Shower gels

- Face wash gels

- Shampoos

- Soaps

- Cleaning products containing surfactants

- Transparent formulas

Product Features

• Appearance: White emulsion
• Odour Light
• pH range (5%): 5.0 - 6.0
• Density (25℃): 1.03-1.07g/ml
• Solids: 30 ± 2%
• Viscosity (25℃): 5-20 cps
• Acrylate ethyl content: 1 ppm
• Viscosity (25℃) (1% neutralised to pH=7):＜100 cps
• Shelf life 2 years

What is Acrylamide?

• Molecular Formula (Acrylamide): _C3H5NO
• Molecular Weight: 71.08 g/mol
• Chemical Name: 2-Propenamide
• CAS Number: 79-06-1

It is used as polyacrylamide raw material. It is an important component in the production of materials such as Anionic Polyelectrolyte, Cationic Polyelectrolyte and Nonionic Polyelectrolyte used in waste water treatment systems.

It is an amide derivative chemical. It is formed as a by-product as a result of heating starch-rich foods at high temperatures and has the ability to polymerise rapidly.

Other Names are as follows;

• Acrylamide
• Acrylic Amide
• Polyacrylamide
• 79-06-1
• Acrylic Acid Amide
• Propenoic Acid Amide
• Vinyl Amid
• Ethylene Carboxamide
• 2-Propeneamide
• Acrylamide Monomer

How is Acrylamide Produced?

Acrylamide production is synthesised by sulfuric acid method. Acrylonitrile is added to the sulfuric acid and water solution with the same mole ratio as the mole ratio of these substances. And a mixture is obtained. This mixture is slowly heated to 80 °C and then cooled to 40 °C.

Neutralisation is then carried out in the production process. The previously hydrolysed acrylamide sulphate compound is then neutralised with ammonia to remove ammonium sulphate from the compound and ammonium sulphate precipitates. And then filtered.

The remaining solution is then cooled to below 10 °C to crystallise the acrylamide. It is converted into crystalline form and purified by recrystallisation in benzene.

What are its Physical and Chemical Properties?

• It is in white crystalline form in physical appearance.
• It has no odour. It has flammable properties.
• Boiling point is 192.6 °C.
• Melting point is 84.5 °C.
• Its density is 1.13 g/cm³.
• It has a good solubility as soluble. It dissolves inethyl alcohol, methyl alcohol, ethyl acetate and water.
• It is sensitive to temperature. When heated above 85 °C, it emits ammonia and hydrogen gas. And polymerises at this point.
• It has the ability to polymerise rapidly at the melting point.

Where are Acrylamide Areas of Use?

• It is the main raw material for flocculant production in the waste water treatment sector. It is used for the production of polyacrylamides. The polymers obtained here have the ability to dissolve in water.
• It is used in oil drilling fields to improve the injection properties of wells. It has a working profile that enables the formation of polymers with high viscosity. It is used as fracturing, waterway closure, drilling mixing process and chemical injection in the oil field.
• In the textile industry, it is used in the manufacture of resins produced to improve the basic physical properties of fabrics, for example, blending, shrinkage and obtaining a good fabric texture.
• In the paper industry, Acrylamide is used as a strengthening agent modified with starch and water soluble amino resins to increase the strength of paper. In this application, the paper hardening agent also contains Quaternary Ammonium monomer.
• It is used as a chemical substance in the production of joint filling materials in tunnels, sewers and reservoirs.
• Used in the production of paints and some organic chemicals.
• Used in the production of contact lenses.
• It is used in the manufacture of resins used to prevent the formation of undesirable issues during the chlorination of water in the field of water treatment.

Butyl Metacrylate

Butyl methacrylate/isobutyl methacrylate copolymer

butyl methacrylate/isobutyl methacrylate copolymer;poly(butyl methacrylate-co-isobutyl methacrylate);2-methyl-,butylester,polymerised2-methylpropyl2-methyl-2-propenoicaci; 2-propenoic acid,2-methyl-,butyl-2-methyl-,butylester, methyl-2-propenoate;POLY(BUTYL METHACRYLATE-CO-ISOBUTYL METH-ACRYLATE), AVE. MW CA. 2 (GPC;IZOBUTYL METHACRYLATE-BUTYL METHACRYLATE POLYMER);n-butyl methacrylate/isobutyl methacrylate copolymer;BUTYL METHACRYLATE/ISOBUTYL METHACRYLATE COOPOLYMER, HIGH MOLECULAR WEIGHT

CAS NO :9011-53-4

Sodium Polystyrene Sulfonate

POLY(SODIUM 4-STYRENESULFONATE)

SODIUM POLYTHIENE SULFONATE; STYRENESULFONIC ACID, SODIUM SALT POLYMER; POLYTHIENE SULFONATE, NA; POLYTHIENE SULFONATE, SODIUM SALT; POLYTHIENE SULFONIC ACID SODIUM BATTERY 13 POLYTHIENE SULFONIC ACID SULFONE SALT POLY(STYRENESULFONIC ACID SODIUM SALT) 000'1

CAS No: 25704-18-1

Molecular Formula: C10H13NaO3S

Molecular Weight 236.26319

Appearance Light yellow viscous flow liquid