HYDROGENATED CASTOR OIL DIMER DILINOLEATE

TL;DR. This ingredient is primarily an emollient, structuring agent, and film-forming binder, especially in lip products, balms, sticks, and color cosmetics. It helps thicken oily phases, improve pay-off, add cushion, and keep pigments or waxy systems cohesive.

What does HYDROGENATED CASTOR OIL DIMER DILINOLEATE do in a cosmetic formula?

This ingredient is primarily an emollient, structuring agent, and film-forming binder, especially in lip products, balms, sticks, and color cosmetics. It helps thicken oily phases, improve pay-off, add cushion, and keep pigments or waxy systems cohesive.

Is HYDROGENATED CASTOR OIL DIMER DILINOLEATE clean?

From a clean-beauty perspective, it is generally low-friction, with low irritation potential and no common restricted-list profile. The main quality questions are standard ester-manufacturing controls, such as residual catalysts or processing residues, rather than the molecule itself.

Is HYDROGENATED CASTOR OIL DIMER DILINOLEATE sustainable?

This material is typically based on renewable plant fatty-acid feedstocks and is expected to break down more readily than silicone or fluorinated film formers. Its footprint depends on agricultural sourcing, hydrogenation, and esterification inputs, but it has a stronger renewable-material profile than petroleum-based structuring agents.

Is HYDROGENATED CASTOR OIL DIMER DILINOLEATE COSMOS-approved?

It is generally compatible with COSMOS-natural when made from approved vegetable feedstocks and allowed processing methods, though supplier documentation is needed for certification. Its Green Chemistry fit is fairly good because it uses renewable lipid chemistry and replaces more persistent synthetic film formers, with the caveat that it is a chemically modified ester.

How does HYDROGENATED CASTOR OIL DIMER DILINOLEATE work chemically?

Chemically, this compound is a large, hydrophobic fatty ester network with high molecular weight, which explains its waxy feel, oil-gelling behavior, and flexible film formation. It is stable across typical anhydrous and low-water cosmetic systems, used mainly in oil phases, and is not a pH-dependent active.

Last updated 2026-05-13