|Publisher DOI:||10.1016/j.jmps.2018.09.020||Title:||Modeling twinning-induced lattice reorientation and slip-in-twin deformation||Language:||English||Authors:||Husser, Edgar
|Issue Date:||Jan-2019||Source:||Journal of the Mechanics and Physics of Solids (122): 315-339 (2019-01)||Journal or Series Name:||Journal of the mechanics and physics of solids||Abstract (english):||The deformation behavior of hexagonal close packed (hcp) materials involves dislocation slip as well as deformation twinning, including a competition between those two. This is due to the limited number of easy to activate slip modes. We present a model that captures dislocation slip, dislocation interaction, size-dependent hardening and deformation twinning. It also accounts for the sudden change of the crystal lattice orientation at the very final stage of the twinning shear process which allows to describe dislocation glide deformation within a twinned region. Along with this, the model further considers the change in the elastic properties associated with the new lattice orientation. Finite element results are presented for the specific example of magnesium (Mg) and for different characteristic loading conditions in order to mimic local stress distributions as they occur in different regions within a single crystal or grain, e.g., close to a boundary and far off. In addition, the impact of twinning on the mechanical response of Mg single crystal during microcompression is investigated. We show that the suggested model is well capable of predicting the complex microstructural deformation behavior in Mg and compare our numerical results to experimental data.||URI:||http://hdl.handle.net/11420/2338||ISSN:||0022-5096||Institute:||Kontinuums- und Werkstoffmechanik M-15||Type:||(wissenschaftlicher) Artikel|
|Appears in Collections:||Publications without fulltext|
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