Preparation and tribological properties of thin oxide coatings on an Al383/SiO2 metallic matrix composite

A new Al383/SiO₂ metal matrix composites (MMC) was designed to improve the wear properties of the aluminium (Al) alloys with manufacturing cost much lower than the hypereutectic Al-Si alloys. However, like the hypereutectic Al alloys, the MMC was also subject to large plastic deformation of the soft Al matrix under high contact stress during lubricated sliding wear tests. As a result, the reinforced SiO₂ particles detached from the matrix and promoted the third-body wear. In this paper, to improve the wear performance of the MMC under high contact stress but also to avoid the honing process, a new proprietary approach based on a modified Plasma Electrolytic Oxidation (PEO) process was used to produce oxide coatings on the MMC. The effect of both oxide coating thickness and the volume content of SiO₂ particles on the wear behaviour of the MMC was investigated. It was found that with a proper combination of the volume content of SiO₂ and coating thickness, the coated MMC presented a much higher wear resistance and lower friction coefficient than the uncoated MMC.