Shock deformation and spallation of Cu bicrystals with (111) twist grain boundaries
XJ Long and X Liu and WL Zhang and YF Peng and GZ Wang, COMPUTATIONAL MATERIALS SCIENCE, 173, 109411 (2020).
DOI: 10.1016/j.commatsci.2019.109411
The shock deformation and spallation of Cu bicrystals with (111) twist grain boundary (GB) of different mis-orientation angles are investigated by using molecular dynamics simulations. The selected GBs include low angle (LAGB), near twin (NTGB) and intermediate angle (IAGB) twist GBs, and the shock direction is along the GB normal. It is demonstrated that the bicrystals are of lower Hugoniot elastic limit than single crystal, as the twist GBs provide dislocation sources for deformation. At the shock compression stage, GB plasticity at the LAGBs and NTGBs is initiated via reaction and dissociation of GB dislocations, and can be triggered by elastic shock wave more readily than that at the IAGBs, on which dislocation emission is homogeneous and irrelevant to initial GB dislocations. At the tension stage, the incipient spall for different twist GBs occurs at an identical shock strength, but is of different details in dislocation and void evolutions. With varying shock strength and misorientation angle, spall strength of the Cu bicrystals depends on whether GB plasticity is produced at the compression stage, and the values are consistent with that of Cu single crystal under similar shock loading conditions.
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