The advancement and transition of computational materials models requires corresponding
developments in experimental methods to provide new phenomenological insights as well …

We demonstrate that modifying the cellular structures by well-controlled annealing can
effectively improve the hydrogen embrittlement (HE) resistance of selective laser melting …

A typical layered Al composed of alternating fine-grained layers (FLs) and coarse-grained
layers (CLs), fabricated by hot pressing and hot rolling, exhibits a superior strength-ductility …

Slip transfer mechanism is studied based on in-situ tensile tests performed on an Al-Mg alloy
and high-throughput computing. A statistical analysis of slip transfer is performed for over …

The failure of polycrystalline materials used in infrastructure and transportation can be
catastrophic. Multiscale modeling, which requires multiscale measurements of internal …

We present a multiscale study on the recovery and recrystallisation of a heavily deformed
(85% reduction in size) Fe–Si–Sn alloy using a combination of dark field X-ray microscopy …

With the flux of high-energy, deeply penetrating X-rays that a 3rd-generation synchrotron
source can provide and the current generation of large fast area detectors, the development …

Mg-5wt% Y extruded alloy showed excellent tensile ductility along the extrusion direction.
An in situ tensile test with three-dimensional X-ray diffraction (3DXRD) identified prismatic …

An in-situ tensile test of Al-6wt.% Mg alloy has been conducted to explore the relations
between slip transmission with fracture behavior. Detailed in-situ electron backscatter …

The recently established methodology to use known algorithmic expressions of the second
moments of the stress field in the grains of a polycrystalline aggregate for calculating …