Observing Dislocations Transported by Twin Boundaries in Al Thin Film: Unusual Pathways for Dislocation-Twin Boundary Interactions

Zongde Kou; Tao Feng; Si Lan; Song Tang; Lixia Yang; Yanqing Yang; Gerhard Wilde

doi:10.1021/acs.nanolett.2c01763

Observing Dislocations Transported by Twin Boundaries in Al Thin Film: Unusual Pathways for Dislocation-Twin Boundary Interactions

Zongde Kou
, Tao Feng
, Si Lan
, Song Tang
, Lixia Yang
, Yanqing Yang
, Gerhard Wilde

材料学院

Nanjing University of Science and Technology
Nanjing University of Aeronautics and Astronautics
University of Münster

科研成果: 期刊稿件 › 文章 › 同行评审

18 引用（Scopus）

摘要

Twins are generally regarded as obstacles to dislocations in face-centered cubic metals and can modify individual dislocations by locking them in twin boundaries or obliging them to dissociate. Through in situ tensile experiments on Al thin film in a transmission electron microscope, we report a dynamic process of dislocations being transported by twin lamella via periodic twinning and detwinning at the atomic scale. Following this process, a 60° dislocation first transforms into a sessile step of the twin boundary, then migrates under stress as a step and finally reverts back into a 60° dislocation. Our results reveal a novel evolution route of dislocations by a dislocation-twin interaction where the twins act as transport vehicles rather than as obstacles. The potential implications of this mechanism on toughening are also discussed.

源语言	英语
页（从-至）	6229-6234
页数	6
期刊	Nano Letters
卷	22
期	15
DOI	https://doi.org/10.1021/acs.nanolett.2c01763
出版状态	已出版 - 10 8月 2022

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10.1021/acs.nanolett.2c01763

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title = "Observing Dislocations Transported by Twin Boundaries in Al Thin Film: Unusual Pathways for Dislocation-Twin Boundary Interactions",

abstract = "Twins are generally regarded as obstacles to dislocations in face-centered cubic metals and can modify individual dislocations by locking them in twin boundaries or obliging them to dissociate. Through in situ tensile experiments on Al thin film in a transmission electron microscope, we report a dynamic process of dislocations being transported by twin lamella via periodic twinning and detwinning at the atomic scale. Following this process, a 60° dislocation first transforms into a sessile step of the twin boundary, then migrates under stress as a step and finally reverts back into a 60° dislocation. Our results reveal a novel evolution route of dislocations by a dislocation-twin interaction where the twins act as transport vehicles rather than as obstacles. The potential implications of this mechanism on toughening are also discussed.",

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author = "Zongde Kou and Tao Feng and Si Lan and Song Tang and Lixia Yang and Yanqing Yang and Gerhard Wilde",

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T1 - Observing Dislocations Transported by Twin Boundaries in Al Thin Film

T2 - Unusual Pathways for Dislocation-Twin Boundary Interactions

AU - Kou, Zongde

AU - Feng, Tao

AU - Lan, Si

AU - Tang, Song

AU - Yang, Lixia

AU - Yang, Yanqing

AU - Wilde, Gerhard

PY - 2022/8/10

Y1 - 2022/8/10

N2 - Twins are generally regarded as obstacles to dislocations in face-centered cubic metals and can modify individual dislocations by locking them in twin boundaries or obliging them to dissociate. Through in situ tensile experiments on Al thin film in a transmission electron microscope, we report a dynamic process of dislocations being transported by twin lamella via periodic twinning and detwinning at the atomic scale. Following this process, a 60° dislocation first transforms into a sessile step of the twin boundary, then migrates under stress as a step and finally reverts back into a 60° dislocation. Our results reveal a novel evolution route of dislocations by a dislocation-twin interaction where the twins act as transport vehicles rather than as obstacles. The potential implications of this mechanism on toughening are also discussed.

AB - Twins are generally regarded as obstacles to dislocations in face-centered cubic metals and can modify individual dislocations by locking them in twin boundaries or obliging them to dissociate. Through in situ tensile experiments on Al thin film in a transmission electron microscope, we report a dynamic process of dislocations being transported by twin lamella via periodic twinning and detwinning at the atomic scale. Following this process, a 60° dislocation first transforms into a sessile step of the twin boundary, then migrates under stress as a step and finally reverts back into a 60° dislocation. Our results reveal a novel evolution route of dislocations by a dislocation-twin interaction where the twins act as transport vehicles rather than as obstacles. The potential implications of this mechanism on toughening are also discussed.

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KW - Dislocation

KW - in situ transmission electron microscopy

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DO - 10.1021/acs.nanolett.2c01763

M3 - 文章

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AN - SCOPUS:85135768110

SN - 1530-6984

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JO - Nano Letters

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Observing Dislocations Transported by Twin Boundaries in Al Thin Film: Unusual Pathways for Dislocation-Twin Boundary Interactions

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