Atomistic Simulation of Interaction between Grain Boundary and Dislocations in Ni_3Al

Atomistic Simulation of Interaction between Grain Boundary and Dislocations in Ni_3Al

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摘要 The embedded atom type potentials and static relaxation method combined with a steepest decent computational technique have been used to simulate the interaction between the grain boundary (GB) and dislocations in Ni_3Al alloys.The focus has been placed on the energy feature of the interaction,the distortion of GB structural units,and the dislocation core structure near the GB.Im- plication has also been made on the results for the understanding of the mechanism responsible for B-enhanced ductility. The embedded atom type potentials and static relaxation method combined with a steepest decent computational technique have been used to simulate the interaction between the grain boundary (GB) and dislocations in Ni_3Al alloys.The focus has been placed on the energy feature of the interaction,the distortion of GB structural units,and the dislocation core structure near the GB.Im- plication has also been made on the results for the understanding of the mechanism responsible for B-enhanced ductility.

作者 Dongliang LIN(T.L.Lin) Da CHEN Min LU Department of Materials Science,Shanghai Jiaotong University,Shanghai,200030,China

出处《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 1993年第5期327-337,共11页 材料科学技术（英文版）

关键词 atomistic simulation grain boundary DISLOCATION Ni_3Al atomistic simulation grain boundary dislocation Ni_3Al

分类号 TB3-55 [一般工业技术—材料科学与工程]

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Journal of Materials Science & Technology

1993年第5期

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Atomistic Simulation of Interaction between Grain Boundary and Dislocations in Ni_3Al

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