Unlocking Tribological Performance of Silver-Infused Cu-Al₂O₃ Self-Lubricating Cermet

This study investigates the tribological properties of cold-sprayed (CS) coatings comprising Cu, Cu-Al₂O₃, and Cu-Al₂O₃-Ag at room temperature and under high-temperature sliding conditions. The composite coatings feedstock maintained a constant 50 vol.% Al₂O₃ concentration, while Cu-Al₂O₃-Ag had Ag infused at 5 and 10 vol.%, maintaining an overall 50 vol.% of metallic content. Dry sliding tests using Al₂O₃ pins were carried out at 25°C and 450°C to study the tribological performance of the coatings. While the inclusion of Ag notably decreased the coefficient of friction (COF) at elevated temperatures, no distinct trend in COF was observed for the tests conducted at 25°C. The composite coating containing 5 vol.% Ag exhibited superior friction and wear performance at 25°C and 450°C. The addition of Al₂O₃ enhanced the coating hardness. However, incorporating a higher amount of Ag reduced the Al₂O₃ retention during CS and, subsequently, the hardness of the coating. The study delves into the role of Ag in the retention of ceramic particles during the CS process and the mechanisms underlying the enhanced self-lubrication performance of the cermet coatings.