Publication detail

Ideal tensile strength of cubic crystals under superimposed transverse biaxial stresses from first principles

ČERNÝ, M. POKLUDA, J.

Original Title

Ideal tensile strength of cubic crystals under superimposed transverse biaxial stresses from first principles

Type

journal article in Web of Science

Language

English

Original Abstract

Elastic response and strength of perfect crystals is calculated for triaxial loading conditions from first principles. The triaxial stress state is constituted by uniaxial tensile stress and superimposed transverse biaxial stresses. The maximum uniaxial tensile stress is evaluated as a function of the transverse stresses. Results for eight crystals of cubic metals and two orientations <110> and <111> of the primary loading axis are presented and compared with data for <100> direction of loading. Obtained results show that, within a studied range of biaxial stresses, the maximum tensile stress monotonically increases with increasing biaxial tensile stress for most of the studied metals. Within a certain range, the dependence can be mostly approximated by a linear function.

Keywords

Ideal strength, ab initio calculations, triaxial loading

Authors

ČERNÝ, M.; POKLUDA, J.

RIV year

2010

Released

8. 11. 2010

ISBN

1098-0121

Periodical

PHYSICAL REVIEW B

Year of study

82

Number

17

State

United States of America

Pages from

174106

Pages to

174106

Pages count

8

BibTex

@article{BUT50658,
  author="Miroslav {Černý} and Jaroslav {Pokluda}",
  title="Ideal tensile strength of cubic crystals under superimposed transverse biaxial stresses from first principles",
  journal="PHYSICAL REVIEW B",
  year="2010",
  volume="82",
  number="17",
  pages="174106--174106",
  issn="1098-0121"
}