TY - JOUR
T1 - Effect of irradiation defects on the plastic slip of {112} grain boundary atomic scale study
AU - Kvashin, Nikolay
AU - Terentyev, Dmitry
AU - Serra, Anna
AU - Anento, Napoleon
N1 - Score=10
PY - 2022/8/24
Y1 - 2022/8/24
N2 - ..3{112} grain boundary (GB) is known to exhibit plastic slip in bcc metals, which overall contributes to the
good ductility and toughness of such metals as iron, matrix element for the steels applied in nuclear industry.
During nuclear operation, the neutron irradiation causes formation of point defects and their clusters which
lead to the non-equilibrium mass transport and agglomeration of nanoscale defects inside grains and near the
grain boundaries. Due to the effect of chemical segregation, GBs can encounter sessile obstacles preventing
the GB plastic slip. Understanding the influence of the irradiation defects segregated at the grain boundaries is
important for the development of structural steels for nuclear fusion and fission applications. The present paper
studies the influence of the irradiation defects, such as Cr precipitates, He bubbles and voids on the plastic
slip of the GB interface. The studied defects are found to act as strong obstacles to the glide of the elementary
disconnections responsible for the shear-coupled GB migration. The interaction between a single elementary
disconnection and a series of them provided by a source has been studied. As a result of the interaction with
impenetrable defects the formation of residual defects such as loops is observed.
AB - ..3{112} grain boundary (GB) is known to exhibit plastic slip in bcc metals, which overall contributes to the
good ductility and toughness of such metals as iron, matrix element for the steels applied in nuclear industry.
During nuclear operation, the neutron irradiation causes formation of point defects and their clusters which
lead to the non-equilibrium mass transport and agglomeration of nanoscale defects inside grains and near the
grain boundaries. Due to the effect of chemical segregation, GBs can encounter sessile obstacles preventing
the GB plastic slip. Understanding the influence of the irradiation defects segregated at the grain boundaries is
important for the development of structural steels for nuclear fusion and fission applications. The present paper
studies the influence of the irradiation defects, such as Cr precipitates, He bubbles and voids on the plastic
slip of the GB interface. The studied defects are found to act as strong obstacles to the glide of the elementary
disconnections responsible for the shear-coupled GB migration. The interaction between a single elementary
disconnection and a series of them provided by a source has been studied. As a result of the interaction with
impenetrable defects the formation of residual defects such as loops is observed.
KW - Grain boundary strengthening
KW - Defect interaction
KW - Grain boundary migration
KW - Segregation
KW - Disconnections
UR - https://ecm.sckcen.be/OTCS/llisapi.dll/open/50699607
U2 - 10.1016/j.commatsci.2022.111739
DO - 10.1016/j.commatsci.2022.111739
M3 - Article
SN - 0927-0256
VL - 214
SP - 1
EP - 9
JO - Computational Materials Science
JF - Computational Materials Science
M1 - 111739
ER -