Tribological behavior and microstructural evolution of lubricating film of silver matrix self-lubricating nanocomposite

The aim of this study is to fabricate the nanocomposite with low friction and high wear resistance using binary solid lubricant particles. The microstructure and tribological performance of the nanocomposite are evaluated, and the composition and film thickness of the lubricating film are observed and analyzed by scanning electron microscopy (SEM) and X-ray photoelectron spectroscopy (XPS). The nanocomposite exhibited improved tribological properties with a friction coefficient as low as 0.12 and a low wear rate of 2.17 x 10(-6) mm(3)/(N center dot m) in high-purity nitrogen atmosphere. Decreasing sliding speed can increase lubricating film thickness, and the thickest lubricating film is approximately 125 nm. As the film thickness of the lubricating film exceeded 90 nm, the friction coefficient curves became smooth. In compared with WS2, MoS2 can be more effective in forming the transfer layer on the worn surfaces at the initial stage of the tribological process.

Automated summary

The study aimed to fabricate a nanocomposite with low friction and high wear resistance using binary solid lubricant particles. The composition and film thickness of the lubricating film were observed and analyzed, revealing improved tribological properties such as low friction coefficient and wear rate in high-purity nitrogen atmosphere. MoS2 was found to be more effective than WS2 in forming a transfer layer during the tribological process.