Influences of Solution Treatment, Deformation Strain, and Nanometric Al<sub>2</sub>O<sub>3</sub> Particulate on Dry Wear Properties for Nanometric Al<sub>2</sub>O<sub>3</sub> Particulate Reinforced Al Alloy Matrix Composites Manufactured by Casting

Abstract

The influences of solution treatment, deformation strain, and nanometric Al2O3 particulate on dry wear properties for nanometric Al2O3 particulate reinforced Al alloy matrix Composites manufactured by casting were investigated. The result showed that both the wear resistance of AL matrix and the composites increased rapidly with increasing solution temperatures. The wear resistance increased slightly with increasing deformation strain for the composites. The wear resistance of the composites is higher than the AL matrix after the same deformation and heat treatment. Microstructure observation revealed that the grain sizes of the composites increased with increasing solution temperature and decreased with more severe deformation. Abrasive wear was the main wear mechanism both for the AL matrix and the composites.