Dynamic interactions between non-screw dislocations and stacking faults during in situ straining in a TEM

Zongde Kou; Yanqing Yang; Lixia Yang; Bin Huang; Xian Luo

doi:10.1016/j.matchar.2019.01.004

Dynamic interactions between non-screw dislocations and stacking faults during in situ straining in a TEM

Zongde Kou, Yanqing Yang, Lixia Yang, Bin Huang, Xian Luo

材料学院

科研成果: 期刊稿件 › 文章 › 同行评审

15 引用（Scopus）

摘要

The atomic-scale evolution routes of stacking faults (SFs) interacting with non-screw dislocations were revealed by in situ tensile tests on Cu. SFs impinged by lattice dislocations tend to shrink to form stair-rod dislocations which may either be stable or unstable, depending on the dislocation reactions. Also, stacking fault can transform from intrinsic to extrinsic, which provides a new route of twin nucleation in face-centered cubic metals.

源语言	英语
页（从-至）	292-296
页数	5
期刊	Materials Characterization
卷	148
DOI	https://doi.org/10.1016/j.matchar.2019.01.004
出版状态	已出版 - 2月 2019

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10.1016/j.matchar.2019.01.004

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abstract = "The atomic-scale evolution routes of stacking faults (SFs) interacting with non-screw dislocations were revealed by in situ tensile tests on Cu. SFs impinged by lattice dislocations tend to shrink to form stair-rod dislocations which may either be stable or unstable, depending on the dislocation reactions. Also, stacking fault can transform from intrinsic to extrinsic, which provides a new route of twin nucleation in face-centered cubic metals.",

keywords = "Deformation, Dislocation, In situ HRTEM, Stacking fault, Twin nucleation",

author = "Zongde Kou and Yanqing Yang and Lixia Yang and Bin Huang and Xian Luo",

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AU - Kou, Zongde

AU - Yang, Yanqing

AU - Yang, Lixia

AU - Huang, Bin

AU - Luo, Xian

PY - 2019/2

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N2 - The atomic-scale evolution routes of stacking faults (SFs) interacting with non-screw dislocations were revealed by in situ tensile tests on Cu. SFs impinged by lattice dislocations tend to shrink to form stair-rod dislocations which may either be stable or unstable, depending on the dislocation reactions. Also, stacking fault can transform from intrinsic to extrinsic, which provides a new route of twin nucleation in face-centered cubic metals.

AB - The atomic-scale evolution routes of stacking faults (SFs) interacting with non-screw dislocations were revealed by in situ tensile tests on Cu. SFs impinged by lattice dislocations tend to shrink to form stair-rod dislocations which may either be stable or unstable, depending on the dislocation reactions. Also, stacking fault can transform from intrinsic to extrinsic, which provides a new route of twin nucleation in face-centered cubic metals.

KW - Deformation

KW - Dislocation

KW - In situ HRTEM

KW - Stacking fault

KW - Twin nucleation

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DO - 10.1016/j.matchar.2019.01.004

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SN - 1044-5803

VL - 148

SP - 292

EP - 296

JO - Materials Characterization

JF - Materials Characterization

ER -

Dynamic interactions between non-screw dislocations and stacking faults during in situ straining in a TEM

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