Primarily used on conveying rollers of coating machines, printing presses, dyeing machines, tape production equipment, and disposable diaper manufacturing machines. Typically, these equipment's conveying rollers come into contact with the adhesive, printing, or dyeing surfaces. Un-dried printing and dyeing surfaces are prone to sticking to the roller, which can affect the surface pattern of the product.

The traditionally used "Teflon" coating has excessive peel strength for hot melt adhesives, resulting in insufficient non-stick performance and inadequate 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 Spray Anti-adhesive Wear-resistant Coating," utilizes plasma thermal spray technology, combining nickel-based alloys with high polymer anti-adhesive materials. It employs the biomimicry "Lotus Leaf Effect," resulting in a coating with extremely low adhesion peel strength and excellent wear resistance. The overall performance is dozens of times better than Teflon coatings, placing it at the national leading level in this field.