[100] loading of fcc based nano-fibre reinforced composites

[100] loading of fcc based nano-fibre reinforced composites

Článek WoS

Ab initio calculations of theoretical tensile and compressive strengths in the direction of a composite having continuous nano-fibre reinforcements are performed using pseudopotential approach within density functional theory. Results for iridium or platinum nano-fibres in copper or gold matrices, presented as case studies, reveal that the theoretical tensile and compressive strengths almost linearly increase with increasing atomic concentration of the reinforcement exhibiting only slight positive strength deviations from the linearity for Pt-Au and slight negative deviations of the tensile strength for Ir-Cu.

Ab initio calculations of theoretical tensile and compressive strengths in the direction of a composite having continuous nano-fibre reinforcements are performed using pseudopotential approach within density functional theory. Results for iridium or platinum nano-fibres in copper or gold matrices, presented as case studies, reveal that the theoretical tensile and compressive strengths almost linearly increase with increasing atomic concentration of the reinforcement exhibiting only slight positive strength deviations from the linearity for Pt-Au and slight negative deviations of the tensile strength for Ir-Cu.

ab initio calculations, nanocomposites, stress-synergy effect, theoretical strength

ab initio calculations, nanocomposites, stress-synergy effect, theoretical strength

ČERNÝ, M.; POKLUDA, J.

2013

01.09.2012

0587-4246

ACTA PHYSICA POLONICA A

122

3

Polská republika

505

508

4