The microstructure of the precipitated phases of Mg95.sGd3Zn1Zro.2 alloys with long-period stacking ordered structure before and after heat treatment is discussed. The corrosion properties of the as-cast (F), solid-...The microstructure of the precipitated phases of Mg95.sGd3Zn1Zro.2 alloys with long-period stacking ordered structure before and after heat treatment is discussed. The corrosion properties of the as-cast (F), solid-solution (T4) and aging-treated (T6) alloys in 1% NaC1 solution are studied. The hydrogen evolution and electrochemical measurements display that the as-cast Mg95.sGd3Zn1Zro.2 alloy with the continuous network eutectic phase exhibits the greatest corrosion resistance, while T6 sample with some needle-like phases and the particle phases is the worst among the three alloys. It is proposed to be mainly related to the amount, composition, microstructure and distribution of the precipitated phases.展开更多
The spheroidizing mechanism of W-phase in the Mg–Zn–Y–Mn–(B) alloys during solid-solution treatment was investigated by using kinetic methodologies. The microstructure and mechanical properties of heat-treated ...The spheroidizing mechanism of W-phase in the Mg–Zn–Y–Mn–(B) alloys during solid-solution treatment was investigated by using kinetic methodologies. The microstructure and mechanical properties of heat-treated Mg_(94)Zn_(2.5)-Y_(2.5)Mn_1 alloy containing 0.003 wt% B were compared with heat-treated Mg_(94)Zn_(2.5)-Y_(2.5)Mn_1 alloy. The heat-treated Mg_(94)Zn_(2.5)-Y_(2.5)Mn_1 alloy with 0.003 wt% B contained fine and uniform W-phase particles, which exhibited optimal mechanical performance. The ultimate tensile strength, yield strength and elongation were 287.7, 125.5 MPa and 21.1%,respectively.展开更多
基金supported by the National Natural Science Foundation of China(Nos.51574175 and 51474153)the Ph.D.Programs Foundation of Ministry of Education of China(No. 20111402110004)the Natural Science Foundation of Shanxi Province(Nos.2009011028-3 and 2012011022-1)
文摘The microstructure of the precipitated phases of Mg95.sGd3Zn1Zro.2 alloys with long-period stacking ordered structure before and after heat treatment is discussed. The corrosion properties of the as-cast (F), solid-solution (T4) and aging-treated (T6) alloys in 1% NaC1 solution are studied. The hydrogen evolution and electrochemical measurements display that the as-cast Mg95.sGd3Zn1Zro.2 alloy with the continuous network eutectic phase exhibits the greatest corrosion resistance, while T6 sample with some needle-like phases and the particle phases is the worst among the three alloys. It is proposed to be mainly related to the amount, composition, microstructure and distribution of the precipitated phases.
基金support from the National Natural Science Foundation of China(Nos.51474153 and 51574175)Ph.D.Programs Foundation of Ministry of Education of the People’s Republic of China(No.20111402110004)Natural Science Foundation of Shanxi Province(Nos.2009011028-3 and 2012011022-1)
文摘The spheroidizing mechanism of W-phase in the Mg–Zn–Y–Mn–(B) alloys during solid-solution treatment was investigated by using kinetic methodologies. The microstructure and mechanical properties of heat-treated Mg_(94)Zn_(2.5)-Y_(2.5)Mn_1 alloy containing 0.003 wt% B were compared with heat-treated Mg_(94)Zn_(2.5)-Y_(2.5)Mn_1 alloy. The heat-treated Mg_(94)Zn_(2.5)-Y_(2.5)Mn_1 alloy with 0.003 wt% B contained fine and uniform W-phase particles, which exhibited optimal mechanical performance. The ultimate tensile strength, yield strength and elongation were 287.7, 125.5 MPa and 21.1%,respectively.
