Nowadays, magnesium (Mg) alloys are promising lightweight structural materials, especially
in transportation and aerospace fields, due to their inherent low density and high specific …

This paper reviews the current state of the art in the simulation of the mechanical behavior of
polycrystalline materials by means of computational homogenization. The key ingredients of …

Crystal Plasticity (CP) modeling is a powerful and well established computational materials
science tool to investigate mechanical structure–property relations in crystalline materials. It …

The asymmetric mechanical response and corresponding statistical grain-scale slip/twinning
activity for extruded Mg-(0~ 5 wt%) Y sheets during room-temperature uniaxial tension and …

This work investigates the strain-dependent activation of second-order< c+ a> pyramidal slip
and other non-basal systems with increasing tensile strain in a Mg-Zn alloy. With that …

The as-cast rare earth magnesium alloy is extremely difficult to be rolled due to poor
plasticity. In this paper, the rolled rare earth magnesium alloy thin sheet was successfully …

Slip transfer across grain boundaries (GBs) is an important mechanism for HCP metals to
accommodate intergranular deformation incompatibility. In this work, an in-situ SEM/EBSD …

Tension twinning nucleation and evolution in Mg WE43 alloy over a large sampling area
was investigated using a quasi-in-situ EBSD/SEM method during interrupted compression …

The interaction between dislocations and {10 1¯ 2}< 1¯ 011> twins appears to play an
important role in the strain hardening behavior of Mg. Detailed transmission electron …

Typical hexagonal engineering materials, such as magnesium and titanium, deform
extensively through shear strains and crystallographic re-orientations associated with the …