Lightweight sheet metals are attractive for aerospace and automotive applications due to
their exceptional properties, such as low density and high strength. Sheet metal forming …

The evolution of microstructures during the hot working of metallic materials determines their
workability and properties. Recrystallization is an important softening mechanism in material …

This study develops a novel crystal plasticity (CP) model incorporating deformation-induced
martensitic transformation (DIMT) and transformation-induced plasticity (TRIP) effect to …

Recent advances pertaining to modeling of grain fragmentation during deformation and
recrystallization of polycrystalline metals using viscoplastic self-consistent (VPSC) …

This study presents a coupled multi-trap hydrogen diffusion and crystal plasticity model
within a thermodynamically consistent framework. The developed modeling scheme …

This study investigates the effect of shear band evolution on the nucleation of Goss {110}<
001> texture during the primary recrystallization of 3.24 wt% Si grain-oriented electrical …

Predicting microstructure and (micro-) texture evolution during thermo-mechanical
processing requires the combined simulation of plastic deformation and recrystallization …

A dislocation density-based single crystal plasticity constitutive model was developed to
capture the temperature dependent anomalous yield and tension/compression asymmetry …

An in-depth understanding of the anisotropic deformation behavior of titanium alloy sheet
during hot deformation has important significance to fully exert the forming performance of …

Integrated computational materials engineering (ICME) is a simulation‐driven design
approach that employs multiscale‐multiphysics modeling and is based on the …