Epoxidized linseed oil Coat™ is a high‑quality, bio‑based modifier designed to enhance the performance and sustainability of modern anticorrosion coating systems. Produced in China from renewable linseed oil through a refined epoxidation process, epoxidized linseed oil Coat™ offers excellent chemical stability, strong adhesion promotion, and improved film flexibility for industrial, marine, and architectural protective coatings.
In anticorrosion applications, epoxidized linseed oil Coat™ acts as a reactive plasticizer and co‑resin that participates in crosslinking with alkyd, epoxy, acrylic, and polyurethane binders. Its high epoxide content helps build a dense, well‑bonded coating network that resists water, salt, chemicals, and atmospheric pollutants. This dense structure effectively slows down the penetration of corrosive media to the metal substrate, improving long‑term corrosion resistance in harsh environments such as marine atmospheres, chemical plants, and outdoor infrastructure.
Epoxidized linseed oil Coat™ also improves coating flexibility and impact resistance, reducing the risk of cracking, delamination, and mechanical damage during service. Better flexibility allows anticorrosion coatings to accommodate thermal expansion, vibration, and deformation of steel structures without losing adhesion. At the same time, the excellent resistance to heat, UV radiation, and yellowing helps maintain gloss, color stability, and protective performance over extended exposure.
From an environmental perspective, epoxidized linseed oil Coat™ replaces part of conventional fossil‑based plasticizers and modifiers with a renewable, non‑toxic alternative. Its favorable compatibility with low‑VOC and waterborne technologies supports the development of cleaner, safer anticorrosion coatings that meet increasingly strict environmental regulations. By combining durable protection, formulation versatility, and sustainable chemistry, epoxidized linseed oil Coat™ enables next‑generation anticorrosion coatings that deliver long‑lasting performance while reducing environmental impact.