材料科学
等轴晶
合金
加工硬化
可塑性
硬化(计算)
晶体孪晶
马氏体
无扩散变换
变形(气象学)
冶金
位错
相(物质)
复合材料
微观结构
化学
图层(电子)
有机化学
作者
Sisi Xie,Zhihong Wu,Nana Chen,Mingxiang Zhu,Yang Hao,Zilong Zhang,Chuanyun Wang,Jinshan Li,Hongchao Kou
标识
DOI:10.1080/21663831.2024.2320767
摘要
In this work, different transformed β matrix was obtained in Ti–5Al–7.5 V alloy. The alloy with equiaxed αp phase and transformed β matrix containing α′ martensite and β phase exhibits good combination of strength and plasticity, as well as a high work hardening rate. A concurrent operation of stress-induced α″ martensitic transformation, deformation twinning and dislocation slips was observed governing the deformation process of this alloy. The alloy with equiaxed αp phase and transformed β matrix containing secondary αs plates and retained β phase shows a high strength and plasticity but low work hardening rate, which is caused by dislocation slips.HighlightsThe quenched Ti–5Al–7.5 V alloy exhibits a high work hardening rate, approximately 5500 MPa.The dependence of work hardening rate of Ti–5Al–7.5 V alloy on transformed β matrix is revealed.Concurrent operations of stress-induced α″ martensitic transformation, deformation twinning and dislocation slips govern deformation of the studied alloy.
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