Non-glide effects and dislocation core fields in BCC metals  被引量:1

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作  者:Antoine Kraych Emmanuel Clouet Lucile Dezerald Lisa Ventelon François Willaime David Rodney 

机构地区:[1]Institut Lumière Matière,UniversitéLyon 1-CNRS,Villeurbanne F-69622,France [2]DEN-Service de Recherches de Métallurgie Physique,CEA,UniversitéParis-Saclay,Gif-sur-Yvette F-91191,France [3]Institut Jean Lamour,CNRS UMR 7198,Universitéde Lorraine,F-54000 Nancy,France [4]DEN-Département des Matériaux pour le Nucléaire,CEA,UniversitéParis-Saclay,Gif-sur-Yvette F-91191,France

出  处:《npj Computational Materials》2019年第1期178-185,共8页计算材料学(英文)

基  金:L.D.acknowledges support from LabEx DAMAS(program“Investissements d’Avenir”,ANR-11-LABX-0008-01);D.R.acknowledges support from LabEx iMUST(ANR-10-LABX-0064)of Universitéde Lyon(program“Investissements d’Avenir”,ANR-11-IDEX-0007);This work was performed using HPC resources from GENCI-CINES computer center under Grant No.A0040906821 and A0040910156 and from PRACE(Partnership for Advanced Computing in Europe)access to AIMODIM project.

摘  要:A hallmark of low-temperature plasticity in body-centered cubic(BCC)metals is its departure from Schmid’s law.One aspect is that non-glide stresses,which do not produce any driving force on the dislocations,may affect the yield stress.We show here that this effect is due to a variation of the relaxation volume of the 1/2<111>screw dislocations during glide.We predict quantitatively nonglide effects by modeling the dislocation core as an Eshelby inclusion,which couples elastically to the applied stress.This model explains the physical origin of the generalized yield criterion classically used to include non-Schmid effects in constitutive models of BCC plasticity.We use first-principles calculations to properly account for dislocation cores and use tungsten as a reference BCC metal.However,the methodology developed here applies to other BCC metals,other energy models and other solids showing nonglide effects.

关 键 词:DISLOCATION METALS PLASTICITY 

分 类 号:TG1[金属学及工艺—金属学]

 

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