High-energy diffraction microscopy (HEDM) is an implementation of three-dimensional X-ray
diffraction microscopy. HEDM yields maps of internal crystal orientation fields, strain states …

Residual stresses are important factors affecting the performance and lifespan of
components, among which the influence of micro-residual stress on crack propagation and …

The characteristic functionality of ferroelectric materials is due to the symmetry of their
crystalline structure. As such, ferroelectrics lend themselves to design approaches that …

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 …

Triple junctions, intersections of three or more grains in polycrystalline solids, are known
locations of potential stress concentration and strain localization. In this work, intragranular …

Grain boundary structure‐property relationships influence bulk performance and, therefore,
are an important criterion in materials design. Materials scientists can generate different …

Connecting a bulk material's microscopic defects to its macroscopic properties is an age-old
problem in materials science. Long-range interactions between dislocations (line defects) …

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 …

During cyclic loading, localization of intragranular deformation due to crystallographic slip
acts as a precursor for crack initiation, often at coherent twin boundaries. A suite of high …

This article presents an X-ray microscopy approach for map** deeply embedded
dislocations in three dimensions using a monochromatic beam with a low divergence …