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Micromechanism of Cold Deformation of Two-Phase Polycrystalline Ti–Al Alloy with Void

机译：气孔两相多晶Ti-Al合金冷变形的微观机制

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摘要

Cold deformation behavior of polycrystalline metallic material is affected by intrinsic defects such as dislocations, voids, inclusions etc. Existing studies on

α_{2} ({Ti}_{3} Al)

γ (TiAl)

two-phase Ti–Al alloy cover about deformation behavior mainly on macro scale. This paper focuses on the cold deformation mechanism of two-phase Ti–Al alloy at micro scale, and the role of voids in deformation process. Molecular dynamics simulations were performed to study the evolution of micro structure of material under uniaxial tension. Interaction between spherical nano voids with different size and position was also examined in the simulation. The results show that (1) In elastic stage, deformation of the two-phase is coordinated, but

{Ti}_{3} Al

is more deformable; (2) In plastic stage,

γ

phase is the major dislocation source in two-phase alloy; (3) voids detracts the strength of the two-phase alloy, while the position of void affect the degree of this subtraction, voids located at the boundary of

α_{2}

γ

phase have significant detraction to strength.

机译：多晶金属材料的冷变形行为受位错，空隙，夹杂物等固有缺陷的影响。关于

α2（< / mo>Ti3Al）+γ（TiAl）< / mo>两相Ti-Al合金的变形行为主要涉及宏观尺度。本文着重研究了两相Ti-Al合金的微观变形冷变形机理，以及空隙在变形过程中的作用。进行了分子动力学模拟，以研究材料在单轴张力下的微观结构的演变。在模拟中还检查了具有不同尺寸和位置的球形纳米空隙之间的相互作用。结果表明：（1）在弹性阶段，两相的变形是协调的，但是Ti3Al更容易变形； （2）在整形阶段，γ相是两相合金的主要位错来源。 （3）空隙会降低两相合金的强度，而空隙的位置会影响这种相减的程度，空隙位于α2/ <数学xmlns：mml =“ http://www.w3.org/1998/Math/MathML” id =“ mm6”溢出=“ scroll”>γ相会显着降低强度。

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期刊名称 Materials
作者
Ruicheng Feng; Maomao Wang; Haiyan Li; Yongnian Qi; Qi Wang; Zhiyuan Rui;
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作者单位

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年(卷),期 2019(12),1
年度 2019
页码 184
总页数 14
原文格式 PDF
正文语种
中图分类外科学;
关键词
two-phase Ti–Al alloy void molecular dynamics cold deformation;

机译：Ti-Al两相合金;空隙;分子动力学;冷变形;

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专利

1. Micromechanism of Cold Deformation of Two-Phase Polycrystalline Ti–Al Alloy with Void [J] . Ruicheng Feng, Maomao Wang, Haiyan Li, Materials . 2019,第1期

机译：气孔两相多晶Ti-Al合金冷变形的微观机制
2. Micromechanism of Cold Deformation of Two-Phase Polycrystalline Ti–Al Alloy with Void [J] . Ruicheng Feng, Maomao Wang, Haiyan Li, Materials . 2019,第1期

机译：气孔两相多晶Ti-Al合金冷变形的微观机制
3. Cyclic deformation response and micromechanisms of Ti alloy Ti-5Al-5V-5Mo-3Cr-0.5Fe [J] . Jun Huang, Zhirui Wang, Kemin Xue Materials Science and Engineering . 2011,第29a30期

机译：钛合金Ti-5Al-5V-5Mo-3Cr-0.5Fe的循环变形响应及微观机制
4. Microstructural Evolution and Deformation Micromechanism of Cold-Deformed TiNi-Based Alloys [C] . L.C. Zhao, W. Cai, Y.F. Zheng International Conference on Shape Memory and Superelastic Technologies and Shape Memory Materials (SMST-SMM 2001), Sep 2-6, 2001, Kunming, China . 2001

机译：冷变形TiNi基合金的组织演变和变形微机制
5. Structural Evolution of Ni-Ti Alloy Wires Produced by Hot and Cold Rotary Forging [D] . Rodrigues, Patrícia Freitas. 2018

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6. Cold Rolling Deformation Characteristic of a Biomedical Beta Type Ti–25Nb–3Zr–2Sn–3Mo Alloy Plate and Its Influence on α Precipitated Phases and Room Temperature Mechanical Properties During Aging Treatment [O] . Jun Cheng, Jinshan Li, Sen Yu, 2020

机译：生物医学β型Ti-25NB-3ZR-2SN-3MO合金板的冷轧变形特性及其对老化处理期间α沉淀相和室温力学性能的影响
7. The experimental research of the Polycrystalline Ni-Ti alloy grain deformation under load [O] . Jie Han, Wenyu An, Changbin Yu, 2018

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Micromechanism of Cold Deformation of Two-Phase Polycrystalline Ti–Al Alloy with Void

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