Publication detail
Influence of superimposed normal stress on the <112>{111} shear strength in perfect fcc metals
ČERNÝ, M. POKLUDA, J.
Czech title
Vliv superponovaného normálového napětí na <112>{111} smykovou pevnost dokonalých krystalů fcc kovů
English title
Influence of superimposed normal stress on the <112>{111} shear strength in perfect fcc metals
Type
journal article in Web of Science
Language
en
Original abstract
The influence of a stress applied perpendicularly to slip planes during the shear deformation of fcc crystals on the theoretical shear strength was studied for <112>{111} slip system using first principles methods. A special relaxation procedure guarantees that all stresses acting on the system are zero with the exception of the normal stress and the resolved shear stress. The theoretical shear strength was found to be a decreasing function of the applied tensile normal stress. The results were compared with similar calculations for rigid atomic planes and the role of relaxation of atomic positions within the planes was found to be important for correct description of the studied deformation process.
Czech abstract
The influence of a stress applied perpendicularly to slip planes during the shear deformation of fcc crystals on the theoretical shear strength was studied for <112>{111} slip system using first principles methods. A special relaxation procedure guarantees that all stresses acting on the system are zero with the exception of the normal stress and the resolved shear stress. The theoretical shear strength was found to be a decreasing function of the applied tensile normal stress. The results were compared with similar calculations for rigid atomic planes and the role of relaxation of atomic positions within the planes was found to be important for correct description of the studied deformation process.
English abstract
The influence of a stress applied perpendicularly to slip planes during the shear deformation of fcc crystals on the theoretical shear strength was studied for <112>{111} slip system using first principles methods. A special relaxation procedure guarantees that all stresses acting on the system are zero with the exception of the normal stress and the resolved shear stress. The theoretical shear strength was found to be a decreasing function of the applied tensile normal stress. The results were compared with similar calculations for rigid atomic planes and the role of relaxation of atomic positions within the planes was found to be important for correct description of the studied deformation process.
Keywords in Czech
teoretická smyková pevnost, homogenní deformace, ab initio výpočty
Keywords in English
ideal shear strength, homogeneous deformation, ab initio calculations
RIV year
2008
Released
01.01.2008
ISSN
0927-0256
Journal
COMPUTATIONAL MATERIALS SCIENCE
Volume
44
Number
10
Pages from–to
127–130
Pages count
4
BIBTEX
@article{BUT44480,
author="Miroslav {Černý} and Jaroslav {Pokluda},
title="Influence of superimposed normal stress on the <112>{111} shear strength in perfect fcc metals",
journal="COMPUTATIONAL MATERIALS SCIENCE",
year="2008",
volume="44",
number="10",
month="January",
pages="127--130",
issn="0927-0256"
}