Pages that link to "Item:Q1418985"

The following pages link to Using texture components in crystal plasticity finite element simulations. (Q1418985):

Displaying 16 items.

• A novel approach for anisotropic hardening modeling. II: Anisotropic hardening in proportional and non-proportional loadings, application to initially isotropic material (Q422645) (← links)
• The backstress effect of evolving deformation boundaries in FCC polycrystals (Q422711) (← links)
• Application of strain rate potentials with multiple linear transformations to the description of polycrystal plasticity (Q546693) (← links)
• Insight into a model for large strain anisotropic elasto-plasticity (Q842526) (← links)
• Modeling crystallographic texture evolution with finite elements over neo-Eulerian orientation spaces (Q1299312) (← links)
• Texture predictions using a polycrystal plasticity model incorporating neighbor interactions (Q1371478) (← links)
• Texture development and formability prediction for pre-textured cold rolled body-centred cubic steel (Q1621776) (← links)
• On using Monte Carlo simulations for sampling crystallite orientations from given texture data (Q2095893) (← links)
• Analytical modelling of intragranular backstresses due to deformation induced dislocation microstructures (Q2479305) (← links)
• Two-level models of polycrystalline elastoviscoplasticity: complex loading under large deformations (Q2786636) (← links)
• Incremental work minimization algorithm for rate-independent plasticity of single crystals (Q2952817) (← links)
• Codf-evolutions on polycrystalline orientation continua obtained by fast geometric estimates of plastic slip (Q3018030) (← links)
• Development, implementation, and assessment of a continuum model of anisotropic behavior of polycrystalline materials due to texture using a second-order structure tensor (Q5048115) (← links)
• Crystal plasticity algorithm based on the quasi‐extremal energy principle (Q6090736) (← links)
• Energy approach to the selection of deformation pattern and active slip systems in single crystals (Q6540351) (← links)
• Investigation of the effect of morphological and crystallographic textures on the ductility limits of thin metal sheets using a CPFEM-based approach (Q6558098) (← links)