关键词: 镁合金, 电磁场, 化合物, 静磁场, 共晶组织, 合金元素

Abstract: The microstructure and distribution of alloying elements of magnesium alloy ZK60 were studied experimentally and comparatively, which was solidified under the actions of no magnetic field, low-frequency a.c. electromagnetic field and magnetostatic field, separately. In addition, the distributions of different electromagnetic fields in the solidification process were simulated numerically. The results showed that applying either low-frequency a.c. electromagnetic field or magnetostatic field on the alloy in its solidification process could refine effectively grains and affect the distribution of alloying elements within the grain and on grain boundaries, with discontinuous eutectic net structure found on grain boundaries. The effect of grain refining by magnetostatic field is evidently better than that by low-frequency a.c. electromagnetic field. Furthermore, the eutectic compounds aggregated on grain boundaries are reduced greatly, and lots of dispersive sphere-like particles of compounds are found within grains and in the vicinity of grain boundaries, which are beneficial to improving the overall properties of the magnesium alloy.