Microstructure evolution in the fusion zone of laser-welded Mg–Gd–Y–Zr alloy during solution and aging treatment

Abstract

The microstructure evolution in the fusion zone of laser-welded Mg-Gd-Y-Zr alloy during solution and aging treatment is investigated. The morphology of the Mg24(Gd,Y)5 in the divorced eutectic at the grain boundary transforms from a continuous network to disconnected and fragmentized islands and then to spheroidal particles before complete dissolution during the solution treatment at 430°C. During the subsequent aging treatment at 225°C, the precipitation sequence in the fusion zone follows the order of supersaturated solid solution (SSSS)→βʺ(D019)→βʹ(cbco)→β1(fcc)→β(fcc). High-density precipitates are present at the original grain boundaries of the fusion zone from the welded structure but there are less precipitates in the interior of the original grains. The grain growth during the solution treatment at 430°C comprises the slowly increasing stage, rapidly increasing stage, and stable stage. The network-distributed Mg24(Gd,Y)5 impedes migration of the grain boundaries, restricts grain growth in the first slowly increasing stage, and segregation of zirconium near the grain boundaries also affects migration of the grain boundaries.