How Do Martensitic Twin Boundaries Move?

机译：马氏体双边界如何移动？

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The martensitic phase transformation from bcc to hep underlies a number of curious effects, including shape-memory and superelasticity. The distinctive feature is the microscopic reversibility of the transition: at the atomic level, the position of each atom is uniquely related between phases. Moreover, this one-to-one relationship holds not only for the perfect crystal transformation mechanism, but also for the topological defects (such as twin boundaries) which are created in the transformation. Furthermore, for shape memory effect the microscopic relationship must be preserved by the deformation mechanism active in the material. In this paper, we examine the microscopic phenomena which allow these relationships to hold, and the consequences for shape-memory alloy design.

机译：从bcc到hep的马氏体相变是许多奇怪效应的基础，包括形状记忆和超弹性。显着特征是跃迁的微观可逆性：在原子水平上，每个原子的位置在相之间是唯一相关的。而且，这种一对一的关系不仅适用于完美的晶体转变机理，而且也适用于在转变中产生的拓扑缺陷（例如孪晶边界）。此外，对于形状记忆效应，必须通过材料中有效的变形机制来保持微观关系。在本文中，我们研究了允许这些关系成立的微观现象，以及形状记忆合金设计的后果。

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《Symposium on Modeling and Numerical Simulation of Materials Behavior and Evolution, Apr 2-5, 2002, San Francisco, California》|2002年|p.155-160|共6页
会议地点 San Francisco CA(US);San Francisco CA(US)
作者
Graeme J. Ackland; Udomsilp Pinsook;
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作者单位

Department of Physics and Astronomy, University of Edinburgh, Edinburgh EH9 2LZ, UK;

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原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术;
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1. Orientations of type II twin boundaries in B2 -> B19' martensitic transformation in dynamic theory [J] . Kashchenko M. P., Chashchina V. G. Physical mesomechanics . 2016,第1期

机译：动态理论中B2-> B19'马氏体转变中II型孪晶边界的取向
2. Ab-Initio Study of Electronic Structure of Martensitic Twin Boundary in Ni2MnGa Alloy [J] . Zhao Z. M., Wan J. F., Wang J. N. Materials transactions . 2016,第4期

机译：Ni2MnGa合金中马氏体双边界电子结构的从头算研究
3. Stress-induced martensitic transformation, twin boundary mobility and elastic properties of vapor deposited Fe70Pd30 ferromagnetic shape memory alloy thin films [J] . Bischoff A. J., Landgraf A., Mayr S. G. Scripta materialia . 2016,第Null期

机译：气相沉积Fe70Pd30铁磁形状记忆合金薄膜的应力诱导马氏体相变，孪晶迁移率和弹性
4. How do martensitic twin boundaries move? [C] . Graeme J. Ackland, Udomsilp Pinsook Materials Research Society Symposium . 2002

机译：马氏体双界界如何移动？
5. Mesoscale models for stacking faults, deformation twins and martensitic transformations: Linking atomistics to continuum [D] . Kibey, Sandeep A. 2007

机译：叠加断层，变形孪生和马氏体相变的中尺度模型：将原子学与连续体联系起来
6. Following the Martensitic Configuration Footprints in the Transition Route of Ni-Mn-Ga Magnetic Shape Memory Films: Insight into the Role of Twin Boundaries and Interfaces [O] . Milad Takhsha Ghahfarokhi, Lucia Nasi, Francesca Casoli, 2020

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7. Stress release-induced interfacial twin boundary ω phase formation in a β type Ti-based single crystal displaying stress-induced α” martensitic transformation [O] . Y. Yang, P. Castany, E. Bertrand, 2018

机译：β型Ti基单晶显示应力诱导α“马氏体转换中的应力释放诱导界面双边界ω相位形成
8. Soliton Twin Boundaries of the Cubic-Tetragonal Martensitic Transformations in Ferroelastic Materials [R] . Mazor, A. , Bishop, A. R. 1987

机译：铁弹性材料中立方四方马氏体相变的孤子双边界

How Do Martensitic Twin Boundaries Move?

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