Microstructure and elevated temperature tribological behavior of TiO₂/Al₂O₃ composite ceramic coating formed by microarc oxidation of Ti6Al4V alloy

Microarc oxidation (MAO) treatment of Ti6Al4V alloys in silicate electrolyte with Al₂O₃ microparticles resulted in a composite ceramic coating containing Al₂O₃. The microstructure, phase composition and high temperature tribological behavior of the composite coating were analyzed by SEM, EDS, XRD and ball-on-disc abrasive tests. The results revealed that the MAO coating formed in the absence of Al₂O₃ microparticles was porous, and mainly composed of rutile-TiO₂, anatase-TiO₂ and Al₂TiO₅ phase. In the composite ceramic coating, the surface porosity decreased significantly, and α-Al₂O₃ and more Al₂TiO₅ phase were identified. Compared to the MAO coating without Al₂O₃, the composite ceramic coating exhibited better wear resistance at 300°C, as demonstrated by the lower friction coefficient, lower wear rate and mild wear spots. The enhancement of wear resistance at high temperature is attributed to the denser surface structure and higher fraction of Al₂TiO₅ phase.