Investigation on friction and wear performance of volcano-shaped textured PVD coating

This study aims to investigate friction and wear performance of a novel volcano-shaped textured PVD coating, hoping to find the influence mechanism of volcano-shaped texture on the tribological behavior of textured coated surface. The volcano-shaped texture was fabricated on the sample surface by laser, and then PVD coating was deposited. For samples with different texture diameters or texture area ratios, reciprocating pin-on-disk wear tests were conducted to study tribological properties. After tests, wear topographies of samples and counter pins were observed to analyze wear details. The results showed volcano-shaped texture with suitable diameters and area ratios was conducive to lowering friction coefficient and reducing adhesive wear. The optimal texture diameter and area ratio were 310 mu m and 25%, respectively. Meanwhile, the texture with large area ratios increased friction. These results indicated this texture's potential for friction control. Finally, the influence mechanism of volcano-shaped texture was proposed.

Automated summary

This study investigates the friction and wear performance of a novel volcano-shaped textured PVD coating and explores the influence mechanism of volcano-shaped texture on the tribological behavior of the coated surface. The results show that a volcano-shaped texture with suitable diameters and area ratios can lower friction coefficient and reduce adhesive wear, while a texture with larger area ratios increases friction. This texture shows potential for friction control.