李春,崔乐,范新会.Mg-9Zn-xAl合金半固态成形的热力学分析及试验研究[J].稀有金属材料与工程,2019,48(6):1769~1776.[Li Chun,Cui Le,Fan Xinhui.Thermodynamic analysis and experimental investigation of Mg-9Zn-xAl alloy for semi-solid processing[J].Rare Metal Materials and Engineering,2019,48(6):1769~1776.]
Mg-9Zn-xAl合金半固态成形的热力学分析及试验研究
投稿时间:2018-01-13  修订日期:2018-04-21
中文关键词:  热力学分析  Mg-9Zn-xAl合金  半固态成形  相转变
基金项目:国家自然科学基金项目(面上项目,重点项目,重大项目)
中文摘要:
      采用相图计算软件Pandat计算了Mg-9Zn-xAl(x=2, 4, 6)合金的凝固温度窗口、固相率对温度的敏感性、温度加工窗口和相组成及其转变路径,并进行了实验验证。结果表明:Mg-9Zn-xAl镁合金适合进行半固态成形,其半固态加工温度窗口较大,易于进行半固态成形操作,且在半固态加工温度区间,其固相率对温度的敏感性均小于0.015。当Al含量不同时,其相的转变温度和路径不同。Mg-9Zn-xAl在凝固过程中均形成α-Mg、MgZn,Mg32(Al,Zn)49和Al5Mg11Zn4相,当Al含量增加至6%时形成了Mg17Al12相。自孕育流变成形Mg-9Zn-xAl合计的晶粒尺寸和圆整度分别为65.3μm、56.5μm、52.2μm和1.3、1.19、1.23。当工作温度为150℃时,其抗压强度和抗压变形量分别为278MPa、283MPa、295MPa和36.22%、33.02%、31.21%。
Thermodynamic analysis and experimental investigation of Mg-9Zn-xAl alloy for semi-solid processing
英文关键词:Thermodynamic calculation  Mg-9Zn-xAl  semi-solid forming  phase transformation
英文摘要:
      Solidification temperature range, temperature sensitivity of solid fraction, temperature process window and phase composition and transformation path of Mg-9Zn-xAl(x=2,4,6) were calculated by Pandat calculation, and studied by experiment. The results indicate that the bigger temperature window is conducive to the control and operation of semi-solid forming for Mg-9Zn-xAl alloy, and the temperature sensitivity of solid fraction is all smaller than 0.015. Mg-9Zn-xAl alloy has the different transformation temperature and path of the phase at the different Al addition. α-Mg, MgZn, Mg32(Al,Zn)49 and Al5Mg11Zn4 were formed in all samples, when Al addition is increased to 6%, Mg17Al12 phase was formed. The grain size and roundness of Mg-9Zn-xAl alloys which prepared by self-inoculation rheo-diecasting method are 65.3μm, 56.5μm, 52.2μm and 1.3, 1.19, 1.23 respectively. When the operating temperature is 150℃, the comprehensive strength and deformation are 278MPa, 283MPa, 295MPa and 36.22%, 33.02%, 31.21% respectively.
作者单位E-mail
李春 商洛学院 lic_slxy@163.com 
崔乐 商洛学院  
范新会 商洛学院 fxh_slxy@163.com 
摘要点击次数: 123
全文下载次数: 55
查看全文  查看/发表评论  
关闭