Tracking the sliding of grain boundaries at the atomic scale

Lihua Wang; Yin Zhang; Zhi Zeng; Hao Zhou; Jian He; Pan Liu; Mingwei Chen; Jian Han; David J. Srolovitz; Jiao Teng; Yizhong Guo; Guo Yang; Deli Kong; En Ma; Yongli Hu; Baocai Yin; XiaoXu Huang; Ze Zhang; Ting Zhu; Xiaodong Han

doi:10.1126/science.abm2612

Tracking the sliding of grain boundaries at the atomic scale

Lihua Wang, Yin Zhang, Zhi Zeng, Hao Zhou, Jian He, Pan Liu, Mingwei Chen, Jian Han, David J. Srolovitz, Jiao Teng, Yizhong Guo, Guo Yang, Deli Kong, En Ma, Yongli Hu, Baocai Yin, XiaoXu Huang, Ze Zhang^*, Ting Zhu^*, Xiaodong Han^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

214 Citations (Scopus)

Abstract

Grain boundaries (GBs) play an important role in the mechanical behavior of polycrystalline materials. Despite decades of investigation, the atomic-scale dynamic processes of GB deformation remain elusive, particularly for the GBs in polycrystals, which are commonly of the asymmetric and general type. We conducted an in situ atomic-resolution study to reveal how sliding-dominant deformation is accomplished at general tilt GBs in platinum bicrystals. We observed either direct atomic-scale sliding along the GB or sliding with atom transfer across the boundary plane. The latter sliding process was mediated by movements of disconnections that enabled the transport of GB atoms, leading to a previously unrecognized mode of coupled GB sliding and atomic plane transfer. These results enable an atomic-scale understanding of how general GBs slide in polycrystalline materials.

Original language	English
Pages (from-to)	1261-1265
Number of pages	5
Journal	Science
Volume	375
Issue number	6586
Online published	17 Mar 2022
DOIs	https://doi.org/10.1126/science.abm2612
Publication status	Published - 18 Mar 2022

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@article{c6db7ea7e63249bab3863d56147f3277,

title = "Tracking the sliding of grain boundaries at the atomic scale",

abstract = "Grain boundaries (GBs) play an important role in the mechanical behavior of polycrystalline materials. Despite decades of investigation, the atomic-scale dynamic processes of GB deformation remain elusive, particularly for the GBs in polycrystals, which are commonly of the asymmetric and general type. We conducted an in situ atomic-resolution study to reveal how sliding-dominant deformation is accomplished at general tilt GBs in platinum bicrystals. We observed either direct atomic-scale sliding along the GB or sliding with atom transfer across the boundary plane. The latter sliding process was mediated by movements of disconnections that enabled the transport of GB atoms, leading to a previously unrecognized mode of coupled GB sliding and atomic plane transfer. These results enable an atomic-scale understanding of how general GBs slide in polycrystalline materials.",

author = "Lihua Wang and Yin Zhang and Zhi Zeng and Hao Zhou and Jian He and Pan Liu and Mingwei Chen and Jian Han and Srolovitz, {David J.} and Jiao Teng and Yizhong Guo and Guo Yang and Deli Kong and En Ma and Yongli Hu and Baocai Yin and XiaoXu Huang and Ze Zhang and Ting Zhu and Xiaodong Han",

year = "2022",

month = mar,

day = "18",

doi = "10.1126/science.abm2612",

language = "English",

volume = "375",

pages = "1261--1265",

journal = "Science",

issn = "0036-8075",

publisher = "American Association for the Advancement of Science",

number = "6586",

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TY - JOUR

T1 - Tracking the sliding of grain boundaries at the atomic scale

AU - Wang, Lihua

AU - Zhang, Yin

AU - Zeng, Zhi

AU - Zhou, Hao

AU - He, Jian

AU - Liu, Pan

AU - Chen, Mingwei

AU - Han, Jian

AU - Srolovitz, David J.

AU - Teng, Jiao

AU - Guo, Yizhong

AU - Yang, Guo

AU - Kong, Deli

AU - Ma, En

AU - Hu, Yongli

AU - Yin, Baocai

AU - Huang, XiaoXu

AU - Zhang, Ze

AU - Zhu, Ting

AU - Han, Xiaodong

PY - 2022/3/18

Y1 - 2022/3/18

N2 - Grain boundaries (GBs) play an important role in the mechanical behavior of polycrystalline materials. Despite decades of investigation, the atomic-scale dynamic processes of GB deformation remain elusive, particularly for the GBs in polycrystals, which are commonly of the asymmetric and general type. We conducted an in situ atomic-resolution study to reveal how sliding-dominant deformation is accomplished at general tilt GBs in platinum bicrystals. We observed either direct atomic-scale sliding along the GB or sliding with atom transfer across the boundary plane. The latter sliding process was mediated by movements of disconnections that enabled the transport of GB atoms, leading to a previously unrecognized mode of coupled GB sliding and atomic plane transfer. These results enable an atomic-scale understanding of how general GBs slide in polycrystalline materials.

AB - Grain boundaries (GBs) play an important role in the mechanical behavior of polycrystalline materials. Despite decades of investigation, the atomic-scale dynamic processes of GB deformation remain elusive, particularly for the GBs in polycrystals, which are commonly of the asymmetric and general type. We conducted an in situ atomic-resolution study to reveal how sliding-dominant deformation is accomplished at general tilt GBs in platinum bicrystals. We observed either direct atomic-scale sliding along the GB or sliding with atom transfer across the boundary plane. The latter sliding process was mediated by movements of disconnections that enabled the transport of GB atoms, leading to a previously unrecognized mode of coupled GB sliding and atomic plane transfer. These results enable an atomic-scale understanding of how general GBs slide in polycrystalline materials.

UR - http://www.scopus.com/inward/record.url?scp=85126653913&partnerID=8YFLogxK

UR - https://www.scopus.com/record/pubmetrics.uri?eid=2-s2.0-85126653913&origin=recordpage

U2 - 10.1126/science.abm2612

DO - 10.1126/science.abm2612

M3 - RGC 21 - Publication in refereed journal

C2 - 35298254

SN - 0036-8075

VL - 375

SP - 1261

EP - 1265

JO - Science

JF - Science

IS - 6586

ER -

Tracking the sliding of grain boundaries at the atomic scale

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