Mechanical properties and their microstructure evaluation in the thixoforming process of semi-solid aluminum alloys

摘要

Semi-solid forming technology has some advantages over conventional forming processes such as die casting, squeeze casting, and hot/cold forging. Thixoforging technology can produce non-dendritic alloys for the semi-solid forming of complex-shaped parts in metal alloys. In this study, the tilling behavior and various defects of products were observed, and microstructures and mechanical properties were investigated along with parameters such as pressure and die temperature. Thixoforging experiments were performed at f_s=55 percent. The punch was V_d=200 mm/s. Die temperature was changed in steps to T_d=400, 350, 300, and 250 deg C. The applied pressure was changed to P=100 and 150 MPa. The porosity, which is an internal defect, was observed, particularly at lower die temperatures. To distribute uniformly the regions of solid- and liquid-phase around the specimen on forming, it is necessary to increase the punch speed and optimize the gate design. Furthermore, a dense microstructure was found at lower die temperature and higher applied pressure. In a tensile test, it was observed that the higher the applied pressure, the higher the ultimate strength, yield strength, and elongation. In a hardness test, it was observed that the hardness decreased gradually from the center to the periphery of the specimen.