Microstructure Evolution of Semi-solid Processed Hyper-eutectic Al-30%Si Alloy

An investigation was made on the influences of mechanical stirring on microstructure of hyper-eutectic Al-30%Si alloy (in mass fraction) during solidification. The primary Si crystals formed in the alloy melt were gradually changed from elongated platelets to near-spherical shapes by mechanical stirring. The spheroidization of primary St crystals occurs by the mechanism of bending and fracture of Si platelets, wear and collision between Si crystals, and coalescence of small Si particles. The influence of under-cooling and cooling rate of the alloy melt on primary Si crystals of semi-solid processed alloys is investigated as well. The increase of under-cooling and cooling rate decreases the size of primary Si crystals.