Effect of isotropic stress on dislocation bias factor in bcc iron: an atomistic study

Alexander Bakaev; Dmitry Terentyev; Zhongwen Chang; M. Posselt; Pâr Olsson; Evgeni E. Zhurkin

doi:10.1080/14786435.2017.1390325

Effect of isotropic stress on dislocation bias factor in bcc iron: an atomistic study

Alexander Bakaev
, Dmitry Terentyev
, Zhongwen Chang
, M. Posselt
, Pâr Olsson
, Evgeni E. Zhurkin

Research output › peer-review

Abstract

The effect of externally applied stress on the dislocation bias factor (BF) in bcc iron has been studied using a combination of atomistic static calculations and finite element integration. Three kinds of dislocations were considered, namely, a0/2〈1 1 1〉{1 1 0} screw, a0/2〈1 1 1〉{1 1 0} edge and a0〈1 0 0〉{0 0 1} edge dislocations. The computations reveal that the isotropic crystal expansion leads to an increasing or constant dislocation bias, depending on the Burgers vector and type of dislocation. On the other hand, compressive stress reduces the dislocation bias for all the dislocations studied. Variation of the dislocation BF depending on dislocation type and Burgers vector is discussed by analysing the modification of the interaction energy landscape and the capture efficiency values for the vacancy and self-interstitial atom. © 2017 Informa UK Limited, trading as Taylor & Francis Group.

Original language	English
Number of pages	22
Journal	Philosophical Magazine
DOIs	https://doi.org/10.1080/14786435.2017.1390325
State	Published - 30 Oct 2017

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Cite this

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title = "Effect of isotropic stress on dislocation bias factor in bcc iron: an atomistic study",

abstract = "The effect of externally applied stress on the dislocation bias factor (BF) in bcc iron has been studied using a combination of atomistic static calculations and finite element integration. Three kinds of dislocations were considered, namely, a0/2〈1 1 1〉\{1 1 0\} screw, a0/2〈1 1 1〉\{1 1 0\} edge and a0〈1 0 0〉\{0 0 1\} edge dislocations. The computations reveal that the isotropic crystal expansion leads to an increasing or constant dislocation bias, depending on the Burgers vector and type of dislocation. On the other hand, compressive stress reduces the dislocation bias for all the dislocations studied. Variation of the dislocation BF depending on dislocation type and Burgers vector is discussed by analysing the modification of the interaction energy landscape and the capture efficiency values for the vacancy and self-interstitial atom. {\textcopyright} 2017 Informa UK Limited, trading as Taylor \& Francis Group.",

keywords = "Ferritic steels, dislocation bias factor, external stress, molecular statics",

author = "Alexander Bakaev and Dmitry Terentyev and Zhongwen Chang and M. Posselt and P{\^a}r Olsson and Zhurkin, \{Evgeni E.\}",

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TY - JOUR

T1 - Effect of isotropic stress on dislocation bias factor in bcc iron: an atomistic study

AU - Bakaev, Alexander

AU - Terentyev, Dmitry

AU - Chang, Zhongwen

AU - Posselt, M.

AU - Olsson, Pâr

AU - Zhurkin, Evgeni E.

N1 - Score=10

PY - 2017/10/30

Y1 - 2017/10/30

N2 - The effect of externally applied stress on the dislocation bias factor (BF) in bcc iron has been studied using a combination of atomistic static calculations and finite element integration. Three kinds of dislocations were considered, namely, a0/2〈1 1 1〉{1 1 0} screw, a0/2〈1 1 1〉{1 1 0} edge and a0〈1 0 0〉{0 0 1} edge dislocations. The computations reveal that the isotropic crystal expansion leads to an increasing or constant dislocation bias, depending on the Burgers vector and type of dislocation. On the other hand, compressive stress reduces the dislocation bias for all the dislocations studied. Variation of the dislocation BF depending on dislocation type and Burgers vector is discussed by analysing the modification of the interaction energy landscape and the capture efficiency values for the vacancy and self-interstitial atom. © 2017 Informa UK Limited, trading as Taylor & Francis Group.

AB - The effect of externally applied stress on the dislocation bias factor (BF) in bcc iron has been studied using a combination of atomistic static calculations and finite element integration. Three kinds of dislocations were considered, namely, a0/2〈1 1 1〉{1 1 0} screw, a0/2〈1 1 1〉{1 1 0} edge and a0〈1 0 0〉{0 0 1} edge dislocations. The computations reveal that the isotropic crystal expansion leads to an increasing or constant dislocation bias, depending on the Burgers vector and type of dislocation. On the other hand, compressive stress reduces the dislocation bias for all the dislocations studied. Variation of the dislocation BF depending on dislocation type and Burgers vector is discussed by analysing the modification of the interaction energy landscape and the capture efficiency values for the vacancy and self-interstitial atom. © 2017 Informa UK Limited, trading as Taylor & Francis Group.

KW - Ferritic steels

KW - dislocation bias factor

KW - external stress

KW - molecular statics

UR - http://ecm.sckcen.be/OTCS/llisapi.dll/open/28549315

U2 - 10.1080/14786435.2017.1390325

DO - 10.1080/14786435.2017.1390325

M3 - Article

SN - 0031-8086

JO - Philosophical Magazine

JF - Philosophical Magazine

ER -