The effect of the thixoforming process on the microstructure and mechanical properties of modified and grain refined 319 aluminum alloy has been investigated. The strain-induced melt activated (SIMA) process has been applied to achieve proper microstructure for semi-solid processing. As-cast 319 aluminum parts have a dendritic microstructure and mostly contain defects such as porosity and shrinkage. The semi-solid treatment process eliminates these defects and is used to obtain a spherical structure with enhanced mechanical properties. Image analysis of the semi-solid treated specimens showed that the best sample had the highest amount of α-Al particle sphericity (0.88) and the lowest average equivalent diameter of α-Al phases (56 µm) under the conditions of 30% of the hot pre-deformation at 560 °C and isothermal holding time of 30 min. The specimens were thixoformed after the SIMA process to generate near-net-shape pieces. The thixoforming process enhanced the hardness of 319 aluminum alloy from 78.1 ± 1.91 HB to 115.6 ± 1.73 HB. Based on the tensile test results, the thixoforming process raised the ultimate tensile strength, yield strength, elongation, and toughness by 30%, 69%, 180.5%, and 189%, respectively, compared to the as-cast state.
Read full abstract