Deillon, L.Verheyden, S.Sanchez, D. FerreiraVan Petegem, S.Van Swygenhoven, H.Mortensen, A.2019-05-102019-05-102019-05-102019-04-1710.1080/14786435.2019.1605220https://infoscience.epfl.ch/handle/20.500.14299/156376WOS:000465908300001Single-crystalline cast aluminium microwires with a diameter near 15 are characterised by Laue microdiffraction. A microwire in the as-cast condition exhibits a misorientation below over a length of 500 . The measured density of geometrically necessary dislocations is low, m(-2), though local maxima up to one order of magnitude higher are found. After tensile deformation to failure, the dislocation density is significantly increased in microwires that have mostly deformed in single slip ( m(-2)), and yet higher when deformation has occurred by multiple slip ( m(-2)). In deformed single slip oriented microwires, the streaking directions of Laue spots show that dislocations are stored (though not exclusively) on the primary slip system. Results are consistent with a deformation mechanism governed by rotating, likely single-arm, sources.Materials Science, MultidisciplinaryMetallurgy & Metallurgical EngineeringPhysics, AppliedPhysics, Condensed MatterMaterials SciencePhysicsx-ray diffractiondislocation structuresplastic deformationtensile testingmicroplasticityaluminum single-crystalssizescaledislocationsplasticitystrengthtext::journal::journal article::research article