Simulation on the deformation behaviors of nanotwinned Cu considering the angle effect between loading axis and twin boundary

Shu Zhang; Jianqiu Zhou; Ying Wang; Lu Wang; Shuhong Dong

doi:10.1016/j.commatsci.2013.04.042

Simulation on the deformation behaviors of nanotwinned Cu considering the angle effect between loading axis and twin boundary

Shu Zhang, Jianqiu Zhou, Ying Wang, Lu Wang, Shuhong Dong

School of energy science and engineering

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

The effect of the angle θ between loading axis and twin boundary (TB) on the deformation behaviors of nanotwinned Cu was studied by finite-element method (FEM) under tensile deformation. Three different microstructures (θ̄=30,σ̄=3.7;θ̄=10,σ̄=3. 7andθ̄=30,σ̄=8.8) were presented. Evolution of equivalent plastic strain showed that the deformation of the three microstructures were distinct on account of θ: the grains with larger θ deformed first; compared with the microstructure with θ̄=10,σ̄=3.7, the microstructure with θ̄=30,σ̄=3.7 can effectively delay the onset of shear band. The results demonstrated that an unusual combination of high strength and ductility can be obtained by making a proper arrangement of θ. However, the effect of θ on the stress-strain relations was weakening as twin density lamellae thickness decreases.

Original language	English
Pages (from-to)	322-329
Number of pages	8
Journal	Computational Materials Science
Volume	77
DOIs	https://doi.org/10.1016/j.commatsci.2013.04.042
State	Published - 2013

Keywords

Angle
Deformation behaviors
Finite-element method
Nanotwinned materials

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10.1016/j.commatsci.2013.04.042

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title = "Simulation on the deformation behaviors of nanotwinned Cu considering the angle effect between loading axis and twin boundary",

abstract = "The effect of the angle θ between loading axis and twin boundary (TB) on the deformation behaviors of nanotwinned Cu was studied by finite-element method (FEM) under tensile deformation. Three different microstructures ({\=θ}=30,{\=σ}=3.7;{\=θ}=10,{\=σ}=3. 7and{\=θ}=30,{\=σ}=8.8) were presented. Evolution of equivalent plastic strain showed that the deformation of the three microstructures were distinct on account of θ: the grains with larger θ deformed first; compared with the microstructure with {\=θ}=10,{\=σ}=3.7, the microstructure with {\=θ}=30,{\=σ}=3.7 can effectively delay the onset of shear band. The results demonstrated that an unusual combination of high strength and ductility can be obtained by making a proper arrangement of θ. However, the effect of θ on the stress-strain relations was weakening as twin density lamellae thickness decreases.",

keywords = "Angle, Deformation behaviors, Finite-element method, Nanotwinned materials",

author = "Shu Zhang and Jianqiu Zhou and Ying Wang and Lu Wang and Shuhong Dong",

year = "2013",

doi = "10.1016/j.commatsci.2013.04.042",

language = "英语",

volume = "77",

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journal = "Computational Materials Science",

issn = "0927-0256",

publisher = "Elsevier B.V.",

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TY - JOUR

T1 - Simulation on the deformation behaviors of nanotwinned Cu considering the angle effect between loading axis and twin boundary

AU - Zhang, Shu

AU - Zhou, Jianqiu

AU - Wang, Ying

AU - Wang, Lu

AU - Dong, Shuhong

PY - 2013

Y1 - 2013

N2 - The effect of the angle θ between loading axis and twin boundary (TB) on the deformation behaviors of nanotwinned Cu was studied by finite-element method (FEM) under tensile deformation. Three different microstructures (θ̄=30,σ̄=3.7;θ̄=10,σ̄=3. 7andθ̄=30,σ̄=8.8) were presented. Evolution of equivalent plastic strain showed that the deformation of the three microstructures were distinct on account of θ: the grains with larger θ deformed first; compared with the microstructure with θ̄=10,σ̄=3.7, the microstructure with θ̄=30,σ̄=3.7 can effectively delay the onset of shear band. The results demonstrated that an unusual combination of high strength and ductility can be obtained by making a proper arrangement of θ. However, the effect of θ on the stress-strain relations was weakening as twin density lamellae thickness decreases.

AB - The effect of the angle θ between loading axis and twin boundary (TB) on the deformation behaviors of nanotwinned Cu was studied by finite-element method (FEM) under tensile deformation. Three different microstructures (θ̄=30,σ̄=3.7;θ̄=10,σ̄=3. 7andθ̄=30,σ̄=8.8) were presented. Evolution of equivalent plastic strain showed that the deformation of the three microstructures were distinct on account of θ: the grains with larger θ deformed first; compared with the microstructure with θ̄=10,σ̄=3.7, the microstructure with θ̄=30,σ̄=3.7 can effectively delay the onset of shear band. The results demonstrated that an unusual combination of high strength and ductility can be obtained by making a proper arrangement of θ. However, the effect of θ on the stress-strain relations was weakening as twin density lamellae thickness decreases.

KW - Angle

KW - Deformation behaviors

KW - Finite-element method

KW - Nanotwinned materials

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U2 - 10.1016/j.commatsci.2013.04.042

DO - 10.1016/j.commatsci.2013.04.042

M3 - 文章

AN - SCOPUS:84878376972

SN - 0927-0256

VL - 77

SP - 322

EP - 329

JO - Computational Materials Science

JF - Computational Materials Science

ER -

Simulation on the deformation behaviors of nanotwinned Cu considering the angle effect between loading axis and twin boundary

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Keywords

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