摘要
在Mg-0.6%Zr高阻尼合金中加入质量比为5的Zn与Y元素,通过普通铸造方法向其中引入Mg-Zn-Y系准晶进行强化,并在此基础上研究准晶增强Mg-0.6%Zr合金的力学和阻尼性能。结果表明:Mg-5xZn-xY-0.6%Zr合金中生成一定含量的I-Mg3YZn6准晶相,I相的生成能大幅度提高Mg-0.6%Zr合金的力学性能;常温下Mg-5xZn-xY-0.6%Zr合金的阻尼行为可由G L位错模型解释,高温下界面阻尼机制启动,合金的阻尼值急剧升高;I相等准晶颗粒对晶界有钉扎作用,导致高温下Mg-4.5%Zn-0.9%Y-0.6%Zr等合金的阻尼性能不如Mg-0.6%Zr合金的。
Zn and Y elements with a mass ratio of 5 were adopted to fabricate Mg-Zn-Y quasicrystal through convention cast method to strength the Mg-0.6%Zr high damping magnesium alloy, based on which the damping behavior of the quasicrystal-reinforced Mg-0.6%Zr alloy was investigated. The results show that a certain content of I-Mg3YZn6 quasierystal phase generates in the Mg-5xZn-xY-0.6%Zr alloys, and the mechanical properties are substantially enhanced compared with that of the Mg-0.6%Zr alloy. The damping behavior of Mg-5xZn-xY-O.6%Zr alloys at room temperature can be explained by G--L dislocation model, while at high temperature, the damping value of the alloys increases rapidly because the interface damping mechanism starts. The crystal boundary is pinned by the quasicrystal particles, like the /-phase, which results in the damping capacity of Mg-5xZn-xY-0.6%Zr alloys at elevated temperature is lower than that of Mg-0.6%Zr alloy.
出处
《中国有色金属学报》
EI
CAS
CSCD
北大核心
2012年第10期2705-2712,共8页
The Chinese Journal of Nonferrous Metals
基金
华中科技大学材料成型与模具技术国家重点实验室自主课题(09 3)
关键词
MG合金
准晶
阻尼性能
力学性能
位错
G-L模型
magnesium alloy
quasicrystal
damping property
mechanical property
dislocation
G-L model
