Temperature Effect on Stacking Fault Energy and Deformation Mechanisms in Titanium and Titanium-aluminium Alloy

Beikai Zhao; Peng Huang; Libo Zhang; Suzhi Li; Ze Zhang; Qian Yu

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Temperature Effect on Stacking Fault Energy and Deformation Mechanisms in Titanium and Titanium-aluminium Alloy

机译：钛及钛铝合金堆叠故障能量和变形机制的温度效应

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Alloying elements have great influence on mechanical properties of metals. Combining dislocation characterization and in-situ transmission electron microscope straining at ambient and liquid-nitrogen temperature in high-purity titanium and Ti-5at%Al, we investigated the modulation of Al on dislocation behaviours as temperature changed. It reveals that segregation of Al at edge dislocation cores in Ti-5at%Al generates strong obstacles, promoting room temperature cross-slips. However, the effect of Al on reducing stacking-fault energy (SFE) as decreasing temperature is significant. Consequently, the lower SFE in Ti-5at%Al results in ordinary planar dislocation slip while massive dislocation cross-slips occurred in Ti at liquid-nitrogen temperature.

机译：合金元素对金属的机械性能有很大影响。在高纯度钛和Ti-5at％Al中，在环境和液氮温度下组合位错表征和原位透射电子显微镜应变，我们调查了随温度变化的脱位行为的调制。它揭示了Ti-5at％Al中的Al处的Al处的偏析产生强障碍物，促进室温交叉滑动。然而，Al对减少堆叠故障能量（SFE）的影响，作为降低温度是显着的。因此，Ti-5at％的下部SFE在普通的平面位错滑，同时在液氮温度下在Ti中发生巨大位错交叉滑动。

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《Scientific reports.》 |2020年第1期|共6页
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Beikai Zhao; Peng Huang; Libo Zhang; Suzhi Li; Ze Zhang; Qian Yu;
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Temperature Effect on Stacking Fault Energy and Deformation Mechanisms in Titanium and Titanium-aluminium Alloy

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