Deformation of periodic nanovoid structures in Mg single crystals

SZ Xu and YQ Su and SZ Chavoshi, MATERIALS RESEARCH EXPRESS, 5, 016523 (2018).

DOI: 10.1088/2053-1591/aaa678

Large scale molecular dynamics (MD) simulations in Mg single crystal containing periodic cylindrical voids subject to uniaxial tension along the z direction are carried out. Models with different initial void sizes and crystallographic orientations are explored using two interatomic potentials. It is found that (i) a larger initial void always leads to a lower yield stress, in agreement with an analytic prediction; (ii) in the model with x (1) over bar 100- y0001- z 11 (2) over bar0 orientations, the two potentials predict different types of tension twins and phase transformation; (iii) in the model with x 0001- y 11 (2) over bar0- z (1) over bar 100 orientations, the two potentials identically predict the nucleation of edge dislocations on the prismatic plane, which then glide away from the void, resulting in extrusions at the void surface; in the case of the smallest initial void, these surface extrusions pinch the void into two voids. Besides bringing new physical understanding of the nanovoid structures, our work highlights the variability and uncertainty in MD simulations arising from the interatomic potential, an issue relatively lightly addressed in the literature to date.

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