Abstract:An aluminum alloy(6061) matrix composite reinforced with 35% volume fraction of Al₂O₃ particles or SiC was fabricated by squeeze casting method. The Al₂O₃ particles are spherical, and SiC particles are angular. The microyield behavior of the composite was investigated, and the effect of different thermal cycling treatments on the microyield behaviors of the composite was studied. Based on TEM and HREM observations of microstructures, the mechanism of microyield behavior in the Al₂O₃p/6061 or SiC_p/6061 composites was analyzed. Results indicate that the microyield behavior of the particles reinforced aluminum matrix composites can be described by Brown-Lukens's theory which satisfactorily explained that of aluminium alloys and other light alloys, and is greatly affected by the different thermal cycling treatments. The more the numbers of thermal cycling treatments, the higher the microyield strength at small strains in the Al₂O₃p/6061. Thermal cycling treatment mainly affects the thermal mismatch stress and the density of movable dislocations in the matrix.

Key words:     Al matrix composites     microyield behavior     thermal cycling treatment