Primarily used on conveying rollers of coating machines, printing presses, dyeing machines, tape production equipment, and baby diaper manufacturing machines. These rollers often come into contact with the adhesive, printing, or dyeing surfaces of the equipment, where un-dried printing and dyeing surfaces are prone to staining the roller, thereby affecting the surface pattern of the product.

The traditionally used "Teflon" coating has excessive peel strength on heat-activated adhesives, resulting in poor non-stick performance and insufficient wear resistance, leading to the rapid failure of non-stick properties. This causes low production efficiency, short maintenance cycles, and increased costs.

Our independently developed patented invention (Patent No.: ZL 2010 1 0543575.X), "Thermal Spraying Anti-adhesive Wear-resistant Coating," utilizes plasma thermal spraying technology, combines nickel-based alloys with high polymer anti-adhesive materials, and applies the biomimetic "Lotus Leaf Effect." The coating boasts extremely low adhesion peel force and excellent wear resistance, with overall performance several times better than Teflon coatings, leading the field nationwide.