Abstract:The SiC reinforced Al matrix composite (AlSiC) with high SiC volume fraction was prepared by combination of compression molding for SiC preform and pressureless infiltration. The microstructure and phase of AlSiC composite were studied. The results show that the AlSiC composite fabricated by above-mentioned methods is free of porosity, the SiC particles with two sizes are distributed uniformly, and the high interfacial bonding strength is achieved. Moreover, the interfacial reaction is well controlled so that some harm phases especially Al₄C₃ fragility phase are absence from interfacial reaction products. The physical mechanism behind those experimental phenomena was analyzed in detail. The existence of silicon in the aluminum alloy prevents the formation of Al₄C₃ fragility phase and the addition of magnesium to the aluminum alloy significantly improves the wetting property of SiC with aluminum. The thermal expansion coefficient of AlSiC composite is 9.31×10^-6 K^-1, the thermal conductivity is 238 W/(m?K), and the density is 2.97 g/cm³. The AlSiC composite exhibits excellent properties and can fully meets the requirements of high-end electronic packaging materials.

Key words: AlSiC; microstructure; phase; interface; thermal expansion coefficient