Fig. 15From: Role of interfaces on the mechanical response of accumulative roll bonded nanometallic laminates investigated via dislocation dynamics simulationsVariation of enthalpy change per unit length of the dislocation segment upon a transmission event from the fcc to the bcc phase, (a), and vice-versa, (b), as a function of distance between the transmitted and residual segments normalized by the incoming Burgers vector, for different external applied shear stress, \(\tau _{RSS}\). A given transmission configuration (specific incoming and transmitting slip systems) is considered for both the cases, for a \(\{1\ 1\ 2\}/\{1\ 1\ 2\}\) Fe/Cu NML structure. The analytical results indicate that slip transmission from fcc to bcc phase is realistically infeasibleBack to article page