Severe plastic deformation (SPD) is effective in producing bulk ultrafine-grained and
nanostructured materials with large densities of lattice defects. This field, also known as …

The rapid progress of advanced manufacturing, multidisciplinary integration and artificial
intelligence has ushered in a new era of technological development in the design of …

Micro-and nanomechanical testing has seen a rapid development over the last decade with
miniaturized test rigs and MEMS-based devices providing access to the mechanical …

Nanostructured materials contain an extremely high density of interfaces. The properties of
these materials when exposed to extreme conditions of radiation dose, stress, deformation …

A novel interface engineering strategy is proposed to simultaneously achieve superior
irradiation tolerance, high strength, and high thermal stability in bulk nanolayered …

Bulk nanostructured metals can attribute both exceptional strength and poor thermal stability
to high interfacial content, making it a challenge to utilize them in high-temperature …

Abstract Bulk Cu/Ta nanolamellar multilayers with an individual layer thickness from several
micrometers down to 50 nm were successfully fabricated via a combination of cross …

Nanoscale metallic multilayers have been shown to have a wide range of outstanding
properties, which differ to a great extent from those observed in monolithic films. Their …

In this work, we present a 3D microstructure-based, full-field crystal plasticity finite element
(CPFE) model using a thermally activated dislocation-density based constitutive description …

Helium (He) bubbles are typical radiation defects in structural materials in nuclear reactors
after high dose energetic particle irradiation. In the past decades, extensive studies have …