Tensile twinning is a main deformation mode in hexagonal close packed structure metals, so
it is important to comprehensively understand twinning mechanisms which are not fully …

Tensile twinning is a main deformation mode in hexagonal close packed structure metals, so
it is important to comprehensively understand twinning mechanisms which are not fully …

Deformation twinning plays a critical role on improving metals or alloys ductility, especially
for hexagonal close-packed materials with low symmetry crystal structure. A rolled Mg alloy …

The interplay between microstructure and deformation twinning in a WE43-T6 Mg alloy
under uniaxial compression was investigated using a combination of scanning electron …

Deformation twinning is profusely activated in the Mg alloys due to lower critical resolved
shear stress (CRSS) compared to the non-basal slip systems (prismatic and pyramidal< c+ …

The effect of grain boundary (GB) misorientation (θ) on twinning in a Mg AZ31 alloy is
investigated using a three-dimensional (3-D) experimental and modeling approach, in which …

Electron backscattered diffraction serial image analyses on AM30 magnesium alloy
compressed under profuse {101¯ 2} twinning conditions at different strain levels suggest that …

Twinning is an important deformation mechanism for Mg alloys and it generally nucleates
from grain boundaries (GBs). When grains are refined, the fraction of GBs will largely …

To investigate grain rotation caused by twinning-detwinning during plastic deformation,
experiments using synchrotron high energy X-ray Diffraction (XRD) and Electron Backscatter …

By combining finite element analysis, compressive tests, reverse tensile tests, in-situ
electron-backscattering diffraction, and high-resolution transmission electron microscopy …