Abstract:The microstructure evolution of casting Al-25%Si alloy during semi-solid remelting was studied by the water quenching experiment,and the quantitative statistics and characterization of the size,shape and volume fraction of the primary Si phase were conducted. The results show that the microstructure evolution includes three stages within the process of heating insulation above the eutectic temperature,i.e.,the eutectic Si phases getting granulated and dissolving,the primary Si phases breaking and the sharp corner passivating and the shape tending to be round. The size of primary Si phases is coarsened through the Oswald ripening,its shape factor increases and the volume fraction reduces. The alloy heating to 590-600 ℃ and holding for 30-50 min has a low size coarsening rate (K) of primary Si phase with round shape and controllable volume fraction,which satisfies the requirement of the semi-solid processing. The size coarsening rate constant K depends on the solidification velocity and heating temperature. The alloy solidified in the steel mold has high K value of 23.83-38.88μm³/s. Moreover,the K value decreases with increasing temperature. While the K value of the alloy solidified in the copper mold is lower and equal to 10.91-19.87μm³/s,which increases with increasing temperature.

Key words: Al-Si alloy; primary Si; hypereutectic; semi-solid remelting; microstructure evolution