简介概要

Effective Stacking Fault Energy in Face-Centered Cubic Metals

来源期刊:Acta Metallurgica Sinica2018年第8期

论文作者:Ke-Qiang Li Zhen-Jun Zhang Lin-Lin Li Peng Zhang Jin-Bo Yang Zhe-Feng Zhang

文章页码:873 - 877

摘    要:As a typical configuration in plastic deformations, dislocation arrays possess a large variation of the separation of the partial dislocation pairs in face-centered cubic(fcc) metals. This can be manifested conveniently by an effective stacking fault energy(SFE). The effective SFE of dislocation arrays is described within the elastic theory of dislocations and verified by atomistic simulations. The atomistic modeling results reveal that the general formulae of the effective SFE can give a reasonably satisfactory prediction for all dislocation types, especially for edge dislocation arrays. Furthermore, the predicted variation of the effective SFE is consistent with several previous experiments, in which the measured SFE is not definite, changing with dislocation density. Our approach could provide better understandings of cross-slip and the competition between slip and twinning during plastic deformations in fcc metals.

详情信息展示

Effective Stacking Fault Energy in Face-Centered Cubic Metals

Ke-Qiang Li1,2,Zhen-Jun Zhang1,Lin-Lin Li1,Peng Zhang1,Jin-Bo Yang1,Zhe-Feng Zhang1,2

1. Shenyang National Laboratory for Materials Science,Institute of Metal Research, Chinese Academy of Sciences2. School of Materials Science and Engineering, University of Science and Technology of China

摘 要:As a typical configuration in plastic deformations, dislocation arrays possess a large variation of the separation of the partial dislocation pairs in face-centered cubic(fcc) metals. This can be manifested conveniently by an effective stacking fault energy(SFE). The effective SFE of dislocation arrays is described within the elastic theory of dislocations and verified by atomistic simulations. The atomistic modeling results reveal that the general formulae of the effective SFE can give a reasonably satisfactory prediction for all dislocation types, especially for edge dislocation arrays. Furthermore, the predicted variation of the effective SFE is consistent with several previous experiments, in which the measured SFE is not definite, changing with dislocation density. Our approach could provide better understandings of cross-slip and the competition between slip and twinning during plastic deformations in fcc metals.

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