Conditioning Agents for Hair Formulations

Nov 6, 2007 | Contact Author | By: Katie Schaefer
Contact the Author
Save
This item has been saved to your library.
View My Library
(click to close)
Save to My Library
Title: Conditioning Agents for Hair Formulations
  • Article

Inolex Chemical Company has launched two new conditioning technologies that are designed for hair care formulations.

Kerazyne (INCI: Polyester-11) is a patented polymeric conditioning additive that reduces static charge and improves combability in hair care products. This polyesteramine imparts the emolliency and gloss characteristic of an ester and the cationic activity of an amine. It is effective at additive levels.

The additive is recommended for formulation into cream conditioners and cream styling products. It is manufactured by the condensing polymerization of high purity petrochemical and vegetable-derived ingredients. 

According to the company, this highly hydrophobic and lubricious additive provides more intensive conditioning than standard conditioning additives such as polyquaternium polymers and amodimethicone. Typical use level is 0.5-2%.

ProCondition 22 (INCI: Brassicamidopropyl dimethylamine) is a next generation amidoamine conditioning base. It contains a majority of behenyl (C22) compounds that yield improved dry combability without build-up. It provides the benefits of traditional amidoamines, along with behenyl conditioning, and enhanced viscometrics. The ingredient is both biodegradable and minimally irritating.

The ingredient is recommended for hair conditioners, styling lotions, pomades and skin care emulsions.  This hair conditioning agent, is cationic (when neutralized), with properties that are said to surpass cetrimonium chloride, behentrimonium chloride and stearamidopropyl dimethylamine. The product is said to provide hair lubicity. Its electrostatic attraction to hair can be tailored by adjusting formulation pH. The lower the pH, the greater its cationic charge. It can be the primary emulsifier to build high viscosity formulations.

For more information, visit www.inolex.com.