Ab initio výpočty ideální tahové pevnosti a mechanické stability mědi

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

článek v časopise - ostatní, Jost

en

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.

Simulace tahové zkoušky krystalu mědi ve směru [001] je provedena užitím "Vienna ab initio simulation package" (VASP). Jsou uvedeny a analyzovány podmínky stability pro jednoose zatíženou soustavu a je určena ideální (teoretická) pevnost pro zatížení ve směru [001] o velikosti 9.4 GPa v tahu a 3.5 GPa v tlaku. Získané výsledky jsou porovnány s experimentálními.

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

2004

06.02.2004

0953-8984

Journal of Physics: Condensed Matter

16

2

8