Inhibition effect on the evolution of a twist grain boundary for an Al/Ni bimetal interface under torsion
C Qiao and XN Fu and RZ Chi and YY Guo and QX Wang and CY Liu and F Wang and Y Jia, RSC ADVANCES, 5, 102400-102408 (2015).
DOI: 10.1039/c5ra19892e
By using a molecular dynamics method with EAM potential, we study the evolution phenomena of metal twist grain boundaries (GBs) in the 100, 111 and 110 orientations, together with their bimetal interface, under anticlockwise and clockwise torsions. Our results show that there are different evolution behaviors of the GB screw dislocations for single metals (Al and Ni) and their bimetal interface (Al/Ni) under torsion. Specifically, for the single metals in the 100 and 111 orientations, their GBs evolve toward lower or higher angle twist GBs depending on the twist direction. For Ni in the 110 orientation, the dislocations spread not only in the GB region but also in the grain interior. However, for the bimetal interface, the propagation of dislocations is not only reduced dramatically but also limited to the interface region, showing that there is an inhibition effect. Therefore, such an inhibition effect can enhance the stability of nanomaterials which is very useful for the further design of nanodevices.
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