Effect of alternating magnetic fields on hot tearing susceptibility of Mg-4Zn-1.5Ca alloy

In the present work, the effect of low-frequency alternating magnetic fields (AMFs) of different strengths on hot tearing susceptibility (HTS) and solidification behaviour of the Mg-4Zn-1.5Ca alloy was investigated. The results revealed that the application of AMFs during the solidification narrowed the solidification temperature range of the Mg-4Zn-1.5Ca alloy, thereby reducing the HTS of the material. In addition, the presence of the AMF-inhibited dendritic growth refined the alloy microstructure and enhanced convection in the melt, which led to a decrease in the HTS. The HTS of the Mg-4Zn-1.5Ca alloy was the smallest when the AMF of 15 A (15 Hz) was applied. However, once the current increased to 20 A, excessive Joule heat was generated in the melt, which coarsened the microstructure and increased the HTS of the alloy.