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W4310857044 endingPage "103494" @default.
W4310857044 startingPage "103494" @default.
W4310857044 abstract "Cyclic deformation of metallic materials depends on the interaction of multiple mechanisms across different length scales. Solid solution atoms, vacancies, grain boundaries, and forest dislocations interfere with dislocation glide and increase the macroscopic strength. In single phase metallic materials under cyclic loading, the localization of dislocation densities in sessile substructures explains a significant fraction of the strain hardening. Upon cycling, these dislocation structures evolve across stable configurations, which depend on the strain accumulation. This work advances substructure-sensitive crystal plasticity models capable of quantifying the cyclic hardening history at various temperatures for single phase FCC materials. The framework predicts the cyclic evolution of dislocation substructure based on the activation of cross slip activation for Al, Cu, and Ni single- and poly-crystals up to 0.5 homologous temperature. The increase in cross slip with temperature and deformation induces a transformation in dislocation structures, which predicts secondary hardening without any additional provision. Moreover, the approach relies on material-invariant mesoscale parameters that are specific to dislocation substructures rather than a material system. Hence, we demonstrate that crystal plasticity predictive power can be augmented by parameterizing the model with single crystal experimental data from multiple materials with common substructures. As a result, the crystal plasticity model shares parameter information across materials without the need for additional single crystal experimental data for calibration." @default.
W4310857044 created "2022-12-19" @default.
W4310857044 creator A5005673380 @default.
W4310857044 creator A5038563146 @default.
W4310857044 date "2023-02-01" @default.
W4310857044 modified "2023-10-17" @default.
W4310857044 title "History and temperature dependent cyclic crystal plasticity model with material-invariant parameters" @default.
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W4310857044 doi "https://doi.org/10.1016/j.ijplas.2022.103494" @default.
W4310857044 hasPublicationYear "2023" @default.