Twinning-assisted void initiation and crack evolution in Cu thin film: An in situ TEM and molecular dynamics study

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

doi:10.1016/j.msea.2018.09.069

Twinning-assisted void initiation and crack evolution in Cu thin film: An in situ TEM and molecular dynamics study

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

A twinning-induced void initiation mechanism at grain boundary is revealed in Cu through in situ tensile tests. Two microcracks connected by a twin boundary (TB) are formed following the growth of the void, which then develop via the relative sliding of the two crystals beside the migrating TB. The experimental observations of TB migration and dislocation activities are corroborated by performing molecular dynamics simulations.

源语言	英语
页（从-至）	336-340
页数	5
期刊	Materials Science and Engineering: A
卷	737
DOI	https://doi.org/10.1016/j.msea.2018.09.069
出版状态	已出版 - 8 11月 2018

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abstract = "A twinning-induced void initiation mechanism at grain boundary is revealed in Cu through in situ tensile tests. Two microcracks connected by a twin boundary (TB) are formed following the growth of the void, which then develop via the relative sliding of the two crystals beside the migrating TB. The experimental observations of TB migration and dislocation activities are corroborated by performing molecular dynamics simulations.",

keywords = "Cracking, Cu, In situ TEM, Molecular dynamics simulations, Twinning",

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 - 2018/11/8

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N2 - A twinning-induced void initiation mechanism at grain boundary is revealed in Cu through in situ tensile tests. Two microcracks connected by a twin boundary (TB) are formed following the growth of the void, which then develop via the relative sliding of the two crystals beside the migrating TB. The experimental observations of TB migration and dislocation activities are corroborated by performing molecular dynamics simulations.

AB - A twinning-induced void initiation mechanism at grain boundary is revealed in Cu through in situ tensile tests. Two microcracks connected by a twin boundary (TB) are formed following the growth of the void, which then develop via the relative sliding of the two crystals beside the migrating TB. The experimental observations of TB migration and dislocation activities are corroborated by performing molecular dynamics simulations.

KW - Cracking

KW - Cu

KW - In situ TEM

KW - Molecular dynamics simulations

KW - Twinning

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JF - Materials Science and Engineering: A

ER -

Twinning-assisted void initiation and crack evolution in Cu thin film: An in situ TEM and molecular dynamics study

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