Surface and tribology characterization of diamond-like carbon flakes reinforced oxide film by pulse anodizing

“…[ 54 ] Similarly, the tribofilm formed on the surface of the hard anodized specimens decreased the friction coefficients. [ 55,56 ] However, due to the relatively high hardness of the hard anodized layer (800 HV), wear in the counter‐body (1600 HV) and the hard anodized specimen occurred simultaneously, thus increasing the surface roughness of the counter‐body and disk (hard anodized specimen). In addition, it is believed that due to brittleness, a large amount of the debris and asperities were formed by friction/wear, resulting in a relatively large friction coefficient.…”

Tribocorrosion Characteristics of Hard Anodized Al Alloys on Hydrogen Valve Application for Fuel Cell Electric Vehicles

“…[ 54 ] Similarly, the tribofilm formed on the surface of the hard anodized specimens decreased the friction coefficients. [ 55,56 ] However, due to the relatively high hardness of the hard anodized layer (800 HV), wear in the counter‐body (1600 HV) and the hard anodized specimen occurred simultaneously, thus increasing the surface roughness of the counter‐body and disk (hard anodized specimen). In addition, it is believed that due to brittleness, a large amount of the debris and asperities were formed by friction/wear, resulting in a relatively large friction coefficient.…”

Tribocorrosion Characteristics of Hard Anodized Al Alloys on Hydrogen Valve Application for Fuel Cell Electric Vehicles

Enhanced mechanical properties and tribological performance of anodic oxide coating by using thermal power plant waste material