Atomistic simulations, confirmed by electron microscopy, show that dislocations in Al could have compact or dissociated cores. The calculated minimum stress (σP) required to move an edge dislocation was approximately 20 times smaller for dissociated than for equivalent compact dislocations. This contradicts the well accepted generalized stacking fault energy paradigm that predicts similar σP values for both configurations. Additionally, Frank's rule and the Schmid law were also violated because dislocation core energies become important. These results may help settle a 50-year-old puzzle regarding the magnitude of σP in face-centered-cubic metals, and provide new insights into the deformation of ultra-fine-grained metals.

Compact and Dissociated Dislocations in Aluminum - Implications for Deformation. S.G.Srinivasan, X.Z.Liao, M.I.Baskes, R.J.McCabe, Y.H.Zhao, Y.T.Zhu: Physical Review Letters, 2005, 94[12], 125502 (3pp)