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Dislocation-mediated plasticity in the Al₂Cu {θ}-phase

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arxiv 2103.06016 v2 pith:A7U5OWDD submitted 2021-03-10 cond-mat.mtrl-sci

Dislocation-mediated plasticity in the Al₂Cu {θ}-phase

classification cond-mat.mtrl-sci
keywords slipeffectiveinterplanarsystemsburgersdistanceintermetallicvector
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The deformation behaviour of the intermetallic Al$_{2}$Cu-phase was investigated using atomistic simulations and micropillar compression, where slip on the unexpected {211} and {022} slip planes was revealed. Additionally, all possible slip systems for the intermetallic phases were further evaluated and a preference for the activation of slip systems based on their effective interplanar distances as well as the effective Burgers vector is proposed. The effective interplanar distance corresponds to the manually determined interplanar distance, whereas the effective Burgers vector takes a potential dislocation dissociation into account. This new order is: {211}1/2<111>, {022}1/2<111> and {022}<100>, {110}<001>, {310}<001>, {022}<011>, {110}1/2<111>, {112}<110> and {112}1/2<111> from high to low ratio of deff/beff. Also, data on the critical resolved shear stresses of several of these slip systems were measured.

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