CAPB-III, is an amphoteric surfactant which acts as a cationic at below neutral pH. It has high water solubility and is stable over wide pH range and posses high degree of tolerance to hard water. It is completely biodegradable, mild non-irritating, possesses excellent lime soap dispersent property and is compatible with cationic, anionic and non-ionic surfactant with mild germicide properties. Building up of very high viscosities is quite possible when CAPB - III is added with the commonly used anionic surfactants.
CAPB-III, is an amphoteric surfactant which acts as a cationic at below neutral pH. It has high water solubility and is stable over wide pH range and posses high degree of tolerance to hard water. It is completely biodegradable, mild non-irritating, possesses excellent lime soap dispersent property and is compatible with cationic, anionic and non-ionic surfactant with mild germicide properties. Building up of very high viscosities is quite possible when CAPB - III is added with the commonly used anionic surfactants.
CMEA-I, is a non ionic surfactant of waxy like non-crystalline material. It is found in flake form with very low free amine content and is an excellent choice to be used in pH sensitive formulations. Further, it has got an excellent compatibility with all types of surfactants. It serves as a good wetting agent, effective thickener, emulsifiers and has powerful oil solubility with good components of oil emulsifiers. It can be used as a good foam booster, stabilizer, modifies foam structure to give richer dense foam and controls viscosity in liquid soaps and shampoo formulations. It also gives emollient effect to finished products.
CMEA-I, is a non ionic surfactant of waxy like non-crystalline material. It is found in flake form with very low free amine content and is an excellent choice to be used in pH sensitive formulations. Further, it has got an excellent compatibility with all types of surfactants. It serves as a good wetting agent, effective thickener, emulsifiers and has powerful oil solubility with good components of oil emulsifiers. It can be used as a good foam booster, stabilizer, modifies foam structure to give richer dense foam and controls viscosity in liquid soaps and shampoo formulations. It also gives emollient effect to finished products.
Juku detergent bright builder is used as a main ingredient in the production of detergents. It is a complex phospo silicate which can also be used as a substitute for sodium tri poly phosphate (stpp).
Juku detergent bright builder is used as a main ingredient in the production of detergents. It is a complex phospo silicate which can also be used as a substitute for sodium tri poly phosphate (stpp).
JUKUCRYCEL-W is chemically purified alpha cellulose converted to free flowing powder. In welding electrode industry JUKUCRYCEL –W is used as an active component of the coating composition. The advantage of JUKUCRYCEL-W is varied. It has a good stand up ability, good texturing capability and increase elasticity. It also gives excellent thickening effect, hardens and prevents cracks.
Applications of Cellulose Powder
JUKUCRYCEL-W is chemically purified alpha cellulose converted to free flowing powder. In welding electrode industry JUKUCRYCEL –W is used as an active component of the coating composition. The advantage of JUKUCRYCEL-W is varied. It has a good stand up ability, good texturing capability and increase elasticity. It also gives excellent thickening effect, hardens and prevents cracks.
Applications of Cellulose Powder
Microcrystalline Cellulose Powder (MCCP) is a naturally occurring, stable substance. This makes it a versatile pharmaceutical and food aid. At Juku MCCP derived from special grade of highly purified wood pulp by severe acid hydrolysis to remove the amorphous cellulose region to give particles consisting of microcrystals.
Microcrystalline Cellulose Powder (MCCP) is a naturally occurring, stable substance. This makes it a versatile pharmaceutical and food aid. At Juku MCCP derived from special grade of highly purified wood pulp by severe acid hydrolysis to remove the amorphous cellulose region to give particles consisting of microcrystals.
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