Ab initio calculations of ideal tensile strength and mechanical stability in copper

Ab initio calculations of ideal tensile strength and mechanical stability in copper

Peer-reviewed article not indexed in WoS or Scopus

Simulation of a tensile test of~copper crystal along the [001] direction is performed using the Vienna ab initio simulation package (VASP). Stability conditions for uniaxially loaded system are presented and analysed and the ideal (theoretical) tensile strength for the loading along the [001] direction is determined to be 9.4 GPa in tension and 3.5 GPa in compression. A comparison with experimental values is performed.

Simulation of a tensile test of~copper crystal along the [001] direction is performed using the Vienna ab initio simulation package (VASP). Stability conditions for uniaxially loaded system are presented and analysed and the ideal (theoretical) tensile strength for the loading along the [001] direction is determined to be 9.4 GPa in tension and 3.5 GPa in compression. A comparison with experimental values is performed.

ab initio, elastic stability, theoretical strength, copper, uniaxial loading

ab initio, elastic stability, theoretical strength, copper, uniaxial loading

ČERNÝ, M.; ŠOB, M.; POKLUDA, J.; ŠANDERA, P.

2011

06.02.2004

0953-8984

JOURNAL OF PHYSICS-CONDENSED MATTER

16

2

United Kingdom of Great Britain and Northern Ireland

1045

8