**Size and strain rate effects in tensile strength of penta-twinned Ag
nanowires**

X Zhang and XY Li and HJ Gao, ACTA MECHANICA SINICA, 33, 792-800 (2017).

DOI: 10.1007/s10409-017-0675-6

Penta-twinned Ag nanowires (pt-AgNWs) have recently attracted much attention due to their interesting mechanical and physical properties. Here we perform large-scale atomistic simulations to investigate the influence of sample size and strain rate on the tensile strength of pt- AgNWs. The simulation results show an apparent size effect in that the nanowire strength (defined as the critical stress for dislocation nucleation) increases with decreasing wire diameter. To account for such size effect, a theoretical model involving the interaction between an emerging dislocation and the twin boundary has been developed for the surface nucleation of dislocations. It is shown that the model predictions are in quantitative agreement with the results from atomistic simulations and previous experimental studies in the literatures. The simulations also reveal that nanowire strength is strain-rate dependent, which predicts an activation volume for dislocation nucleation in the range of 1-10b(3), where b is the magnitude of the Burgers vector for a full dislocation.

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