The microstructure evolution of the Mg 5Zn 0.63Er(mass fraction,%) alloy containing quasicrystalline phase(I-phase) under the as-cast condition was investigated via different heat treatments.The results show that ...The microstructure evolution of the Mg 5Zn 0.63Er(mass fraction,%) alloy containing quasicrystalline phase(I-phase) under the as-cast condition was investigated via different heat treatments.The results show that apart from the precipitation of the W-phase particles,the I-phase almost dissolves into the matrix after solid solution treatment at 480℃ for 10 h(T4 state).The solution-treated alloy was aged at 175℃ for 6-100 h(T6 state).The ultimate tensile strength of the peak-aged alloy is approximately 261 MPa companying with an elongation of 10.5%.The improvement of the tensile strength is mainly attributed to the presence of the rod-like MgZn 2 particles.展开更多
基金Project(2007CB613706) supported by the National Basic Research Program of ChinaProjects(151071004,51101002) supported by the National Natural Science Foundation of China
文摘The microstructure evolution of the Mg 5Zn 0.63Er(mass fraction,%) alloy containing quasicrystalline phase(I-phase) under the as-cast condition was investigated via different heat treatments.The results show that apart from the precipitation of the W-phase particles,the I-phase almost dissolves into the matrix after solid solution treatment at 480℃ for 10 h(T4 state).The solution-treated alloy was aged at 175℃ for 6-100 h(T6 state).The ultimate tensile strength of the peak-aged alloy is approximately 261 MPa companying with an elongation of 10.5%.The improvement of the tensile strength is mainly attributed to the presence of the rod-like MgZn 2 particles.
