Herein, a comprehensive review on the application of digital image correlation (DIC) for
investigations of strain localization phenomena in the field of materials science and …

In the design and development of novel materials that have excellent mechanical properties,
classification and regression methods have been diversely used across mechanical …

This study investigated the plastic deformation behavior of a polycrystalline L1 2-structured
FeCoNiV high-entropy alloy (HEA) using in situ electron backscatter diffraction (EBSD) and …

The mechanical response of multiphase alloys is governed by the microscopic strain and
stress partitioning behavior among microstructural constituents. However, due to limitations …

Fatigue in metals involves gradual failure through incremental propagation of cracks under
repetitive mechanical load. In structural applications, fatigue accounts for up to 90% of in …

The development and validation of crystal plasticity models requires the ability to map
deformation at the microstructural scale. Here, a new method of high-resolution deformation …

Titanium alloy is prominent in manufacturing of high-performance miniature devices, while
size-affected plastic heterogeneity and asymmetry in micro-scaled deformation are not well …

Abstract Misorientation data from Electron Backscatter Diffraction (EBSD) is often used to
identify strain localisation and quantify plastic strain at the microstructural scale. However …

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 …

Titanium alloys, produced via additive manufacturing techniques, offer tremendous benefits
over conventional manufacturing processes. However, there is inherent uncertainty …