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A dual deformation mechanism of grain boundary at different stress stages

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posted on 2024-11-16, 08:39 authored by Liang Zhang, Cheng LuCheng Lu, Jie Zhang, Anh TieuAnh Tieu
Molecular dynamics (MD) simulation with embedded-atom method (EAM) potential was carried out to study the structure and shear response of an asymmetric tilt grain boundary in copper bicrystal. A non-planar structure with dissociated intrinsic stacking faults was observed in the grain boundary. Simulation results show that this type of structure can significantly increase the ductility of the simulation sample under shear deformation. A dual deformation mechanism of the grain boundary was observed; the grain boundary can be a source of dislocation emission and migrate itself at different stress stages. The result of this study can provide further information to understand the grain boundary mediated plasticity in nanocrystalline materials.

Funding

A physically based abrasive wear model for high-speed steel at high temperature

Australian Research Council

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Citation

Zhang, L., Lu, C., Zhang, J. & Tieu, K. (2016). A dual deformation mechanism of grain boundary at different stress stages. Materials Letters, 167 278-283.

Journal title

Materials Letters

Volume

167

Pagination

278-283

Language

English

RIS ID

105137

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