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Rolling-induced Face Centered Cubic Titanium in Hexagonal Close Packed Titanium at Room Temperature

机译：滚动引起的面部中心立方钛六角形在房间关闭包装钛温度

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Combining transmission electron microscopes and density functional theory calculations, we report the nucleation and growth mechanisms of room temperature rolling induced face-centered cubic titanium (fcc-Ti) in polycrystalline hexagonal close packed titanium (hcp-Ti). Fcc-Ti and hcp-Ti take the orientation relation: 〈0001〉hcp||〈001〉fcc and {1010}hcp||{110}fcc, different from the conventional one. The nucleation of fcc-Ti is accomplished via pure-shuffle mechanism with a minimum stable thickness of three atomic layers, and the growth via shear-shuffle mechanisms through gliding two-layer disconnections or pureshuffle mechanisms through gliding four-layer disconnections. Such phase transformation offers an additional plastic deformation mode comparable to twinning.

机译：结合透射电子显微镜和密度泛函理论计算，我们报告了室温下轧制诱导的面心立方钛（fcc-Ti）在多晶六方密堆积钛（hcp-Ti）中的成核和生长机理。 Fcc-Ti和hcp-Ti的取向关系为：〈0001〉hcp || 〈001〉fcc和{1010} hcp || {110} fcc，与传统的不同。 fcc-Ti的成核是通过具有至少三个原子层的最小稳定厚度的纯混合机制完成的，以及通过滑动两层断开的剪切混合机制的生长或通过滑动四层断开的纯混合机制的实现。这种相变提供了与孪生相媲美的附加塑性变形模式。

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Wu, H. C.; Kumar, A.; Wang, J.; Bi, X. F.; Tomé, C. N.; Zhang, Z.; Mao, S. X.;
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年度 2016
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1. Rolling-induced Face Centered Cubic Titanium in Hexagonal Close Packed Titanium at Room Temperature [J] . H. C. Wu, A. Kumar, J. Wang, Scientific reports. . 2016,第1期

机译：室温下六方密堆积钛中滚动诱导的面心立方钛
2. Three dimensional crystallographic orientation relationships for hexagonal close packed structure to face centered cubic structure transformation in pure titanium [J] . Wei Bingqiang, Ni Song, Liu Yong, Scripta materialia . 2019,第期

机译：六角形紧密填充结构面对纯钛居中立方结构变换的三维晶体取向关系
3. Shear-induced hexagonal close-packed to face-centered cubic phase transition in pure titanium processed by equal channel angular drawing [J] . Zhao Hong, Ding Nanjie, Ren Yuping, Journal of Materials Science . 2019,第10期

机译：剪切诱导的六边形紧密包装，以面对纯钛的纯钛的立方相转变，通过等沟道角度拉伸处理
4. Analysis of Formability of face-centered-cubic Structured Aluminum Alloy and Hexagonal Closed Packed Commercially Pure Titanium [C] . Anoop Kumar International Conference on Advancements in Aeromechanical Materials for Manufacturing . 2019

机译：脸部中心结构铝合金与六边形封闭式填料商业纯钛的可成型性分析
5. Analysis of the deformation behavior of the hexagonal close-packed alpha phase in titanium and titanium alloys. [D] . Li, Hongmei. 2013

机译：分析钛和钛合金中六方密堆积α相的变形行为。
6. Rolling-induced Face Centered Cubic Titanium in Hexagonal Close Packed Titanium at Room Temperature [O] . H. C. Wu, A. Kumar, J. Wang, -1

机译：室温下六方密堆积钛中滚动诱导的面心立方钛
7. An evaluation of the hexagonal close-packed to face-centered cubic phase transformation in a Ti-6Al-4V alloy during high-pressure torsion [O] . Shahmir, Hamed, Langdon, Terence 2017

机译：高压扭转过程中Ti-6al-4V合金六方密堆积与面心立方相变的评价
8. Dimensional change of stellite 6B during phase transformation from face-centered cubic to hexagonal close-packed crystal structure [R] . Bleil, H. E. 1967

机译：从面心立方到六方密堆积晶体结构的相变过程中的stellite 6B的尺寸变化

Rolling-induced Face Centered Cubic Titanium in Hexagonal Close Packed Titanium at Room Temperature

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