Compressive deformation of Fe nanopillar : Modalities of dislocation dynamics

Abstract

Unlike the tensile mode, compressive deformation of a bcc metallic nanostructure is mediated by the glide of screw dislocation. Although the bcc screw dislocations are well known to possess unusual attributes, it is still unclear how these unique effects manifest in a nanoscale solid. In the present study, atomistic simulations render a close look at the dislocation activities underlying the compressive deformation of bcc iron nanopillars. It is found that instead of performing simple glide motion, the line defects exhibit a host of complex features. In this regard, the temperature is observed to have a pronounced effect on the dislocation mechanisms and consequently, on the overall plastic response of the material. Additionally, statistical features of the load-strain data have been explored.