The effect of twist angle on anisotropic mobility of {1 1 0} hexagonal dislocation networks in α-iron
作者: J.B. Yang , Y.N. Osetsky , R.E. Stoller , Y. Nagai , M. Hasegawa
DOI: 10.1016/J.SCRIPTAMAT.2012.01.061
关键词: Peierls stress 、 Dislocation creep 、 Materials science 、 Anisotropy 、 Atomic units 、 Crystallography 、 Shear stress 、 Condensed matter physics 、 Dislocation 、 Partial dislocations 、 Slip (materials science)
摘要: The anisotropic mobility of hexagonal dislocation networks (HDNs) in a series of (11¯ 0) twist boundaries under applied shear stress has been studied at the atomic scale in α-iron. A strong angular effect on the HDN mobility is found to be correlated with the dislocation core structure. The vector form of the Orowan equation and differential displacement maps of dislocation cores are used to account for the HDN behavior under loading.
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