Microstructure modification and precipitation strengthening for Mg–6Zn–1Mn–4Sn–0.5Ca through extrusion and aging treatment

Abstract

Abstract The microstructure revolution and mechanical properties of as-extruded and peak-aged Mg–6Zn–1Mn– 4Sn–0.5Ca (ZMT614–0.5Ca) alloy were studied by OM, SEM, TEM, hardness testing and tensile testing. The results showed that the as-cast ZMT614–0.5Ca alloy mainly consisted of α-Mg, Mg–Zn and CaMgSn phase. The hot extrusion process effectively refined the microstructure and led to a completely dynamic recrystallized microstructure. The average grain size of as-extruded alloy was ˜4.85 μm. After solution treatment, remained CaMgSn with high melting point played a significant role in pinning effect and impeding the migration of grain boundary. After aging treatment, peak-aged ZMT614–0.5Ca alloy exhibited a good combination of strength and ductility, with yield strength, ultimate tensile strength and elongation being 338 MPa, 383 MPa and 7.5%, respectively. The yield strength of the alloy increased significantly by around 36% compared with that in as-extruded condition, which should be attributed to the precipitation strengthening of β' phase.