Processing and properties of high volume fraction aluminium/silicon composites

摘要

High volume fraction Al/Si_p composites are attractive for electronic packaging applications owing to their low density and coefficient of thermal expansion (CTE), together with their good thermal conductivity (TC) and flexural strength. In this study, the effects of sintering temperature, particle (Si_p) size, and volume fraction (vol.- percent) on the properties of Al/Si_p composites produced by hot pressing were investigated. Pure Al powders were mixed with 75 - 85 vol.- percent Si_p with average particle sizes of 42 and 15 pm were hot pressed at 500 deg C and 620 deg C for 20 mm. The results indicate that composites sintered in the liquid phase show higher relative density, TC, and flexural strength than those sintered in the solid phase. However, the CTEs were lower when sintered in the liquid phase than in the solid phase. As the volume fraction of Si_p was in creased, lower values of CTE, TC, and flexural strength were obtained. For a given volume fraction of Si_p, finer Si particles result in a lower CTE and an improvement in the flexural strength of the composites.