Brassica Campestris/Aleurites Fordi Oil Copolymer ●
TL;DR. This ingredient is primarily a plant-derived film-former and binder. It helps create gloss, adhesion, water resistance, and a flexible coating in color cosmetics, hair products, and long-wear formats.
What does Brassica Campestris/Aleurites Fordi Oil Copolymer do in a cosmetic formula?
This ingredient is primarily a plant-derived film-former and binder. It helps create gloss, adhesion, water resistance, and a flexible coating in color cosmetics, hair products, and long-wear formats.
Is Brassica Campestris/Aleurites Fordi Oil Copolymer clean?
From a clean-beauty perspective, it is generally viewed as a lower-friction alternative to petrochemical film-forming polymers. The main caveats are supplier documentation, residual processing aids, and possible oxidation byproducts from highly unsaturated oil chemistry.
Is Brassica Campestris/Aleurites Fordi Oil Copolymer sustainable?
It is made from renewable vegetable-oil feedstocks, which gives it a better sourcing profile than many fossil-derived film formers. Biodegradability is likely more favorable than silicone or acrylate films, but polymerized oils can vary by molecular weight and crosslinking level.
Is Brassica Campestris/Aleurites Fordi Oil Copolymer COSMOS-approved?
It may fit COSMOS-natural when the feedstocks, processing, catalysts, and residuals meet the standard’s documentation requirements, but it is not something to assume from the INCI name alone. Its Green Chemistry profile is strongest on renewable carbon and weakest where polymerization chemistry, solvents, or end-of-life biodegradation are not well documented.
How does Brassica Campestris/Aleurites Fordi Oil Copolymer work chemically?
This material is a triglyceride-based copolymer built from long-chain fatty-acid residues, with unsaturation enabling oxidative drying and film formation. It is oil-phase compatible, more relevant to anhydrous or emulsion oil phases than water systems, and benefits from antioxidant support because unsaturated lipid structures can oxidize over time.
Last updated 2026-05-13