Stress-induced hexagonal close-packed to face-centered cubic phase transformation in commercial-purity titanium under cryogenic plane-strain compression

D.H. Hong; T.W. Lee; S.H. Lim

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Stress-induced hexagonal close-packed to face-centered cubic phase transformation in commercial-purity titanium under cryogenic plane-strain compression

机译：低温平面应变压缩下商业纯钛中应力诱导的六角形密堆积至面心立方相变

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A rare transformation from a hexagonal close-packed (hcp) phase to a face-centered cubic (fcc) phase was found in pure Ti deformed by cryogenic channel-die compression indented for microstructural refinement. While grain refinement occurred upon recurrent intersection of the persistent slip bands, nucleation of the platelet fcc phase was identified at the areas of intersecting slip bands. The stress-induced phase transformation was attributed to the gliding of Shockley partial dislocations, resulting in (0001)_(hcp)//(001K)_(fcc), (1010)_(hcp)//(110)_(fcc) and (1120)_(hcp)//(110)_(fcc) orientation relationships.

机译：在通过微缩微结构缩进的深冷通道模头压缩变形的纯钛中，发现了从六方密堆积（hcp）相到面心立方（fcc）相的罕见转变。虽然晶粒细化发生在持久滑带的反复相交处，但在相交滑带的区域发现了血小板fcc相的成核。应力引起的相变归因于Shockley部分位错的滑移，导致（0001）_（hcp）//（001K）_（fcc），（1010）_（hcp）//（110）_（fcc ）和（1120）_（hcp）//（110）_（fcc）定向关系。

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《Scripta materialia》 |2013年第5期|共4页
作者
D.H. Hong; T.W. Lee; S.H. Lim;
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正文语种 eng
中图分类冶金工业;
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Martensitic phase transformation; Titanium; Cryogenic deformation; Persistent slip bands;

机译：马氏体相变钛低温变形持久滑带;

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1. Stress-induced hexagonal close-packed to face-centered cubic phase transformation in commercial-purity titanium under cryogenic plane-strain compression [J] . D.H. Hong, T.W. Lee, S.H. Lim Scripta materialia . 2013,第5期

机译：低温平面应变压缩下商业纯钛中应力诱导的六角形密堆积至面心立方相变
2. Comparison of the atomic structure, composition, kinetics and mechanisms of interfacial motion in martensitic, bainitic, massive and precipitation face-centered cubic-hexagonal close-packed phase transformations [J] . James M. Howe Materials Science and Engineering. A, Structural Materials: Properties, Microstructure and Processing . 2006,第Nov期

机译：马氏体，贝氏体，块体和沉淀面心立方六方密堆积相变中原子结构，组成，动力学和界面运动机理的比较
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. Observation of the Formation Processes of Hexagonal Close-Packed and Face-Centered Cubic Ru Nanoparticles [C] . Naoki Araki, Kohei Kusada, Satoru Yoshioka 日本化学会春季年会 . 2020

机译：观察六边形近填充和面为中心的立方Ru纳米粒子的形成过程
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. Unique Growth Pathway in Solution–Solid–SolidNanowires: Cubic to Hexagonal Phase Transformation [O] . Yi-Hsin Liu, Ho-Ying Chen, Hsiu-Fang Fan, 2020

机译：溶液固体固体的独特生长途径纳米线：立方体到六边形相变
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

Stress-induced hexagonal close-packed to face-centered cubic phase transformation in commercial-purity titanium under cryogenic plane-strain compression

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