Abstract:ANSYS finite element analysis software was used to simulate the flow field in the solidification process of semi-solid aluminum alloy A356, and the effects of electromagnetic stirring parameters, such as electromagnetic frequency and current intensity, on the flow field were studied. The results show that, with the increase of electromagnetic frequency and current intensity, the maximum electromagnetic force and maximum flow velocity of semi-solid aluminum alloy on the long axis X and the short axis Y of oval crucible show a tendency to increase first and then decrease, and the maximum on the long axis X. After the electromagnetic stirring is applied, the electromagnetic force gradually increases from the center of the crucible in the radial direction, it reaches the maximum at the radius of 0.8-0.9 time and starts to decrease sharply beyond the distance. The electromagnetic force is more affected by the current intensity and the flow rate is less sensitive to the current intensity and electromagnetic frequency than the electromagnetic force, but the influence of the current intensity on the flow rate is still slightly stronger than the electromagnetic frequency in oval crucible. When the electromagnetic frequency and current intensity are 30 Hz and 5 A, the average equal-area circular diameter of the primary phase in semi-solid A356 alloy reaches 106.1 μm, and the average shape factor increases to 0.72, the best microstructure of the semi-solid alloy can be obtained in this condition.

Key words: semisolid aluminum alloy; electromagnetic stirring; electromagnetic frequency; current intensity; oval crucible