MicroComputed Tomography has become the gold standard for studying 3D microscopic
structures nondestructively, and this book provides up-to-date coverage of the modality. The …

Many spectral responses in materials science, physics, and chemistry experiments can be
characterized as resulting from the superposition of a number of more basic individual …

In recent years, the mechanical behavior of low-dimensional materials has been attracting
lots of attention triggered both by the ongoing miniaturization and the extraordinary …

Many physical and mechanical properties of crystalline materials depend strongly on their
internal structure, which is typically organized into grains and domains on several length …

This study investigated the effects of dislocation patterns introduced by cold rolling
deformation on the hydrogen absorption properties, hydrogen trap behaviors and hydrogen …

The use of Nye's dislocation tensor for calculating the density of geometrically necessary
dislocations (GND) is widely adopted in the study of plastically deformed materials. The …

Using X-ray micro-diffraction and surface acoustic wave spectroscopy, we measure lattice
swelling and elastic modulus changes in a W-1% Re alloy after implantation with 3110 …

Combining spatially resolved x-ray Laue diffraction with atomic-scale simulations, we
observe how ion-irradiated tungsten undergoes a series of nonlinear structural …

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

We present an instrument for dark-field x-ray microscopy installed on beamline ID06 of the
ESRF—the first of its kind. Dark-field x-ray microscopy uses full field illumination of the …