A strategy to quantify the second phase strengthening of α precipitates in titanium alloys is
proposed to predict the mechanical performance through crystal plasticity finite element …

This study focuses on investigating the anisotropic deformation behavior of rolling-textured
Zircaloy-4 alloy under uniaxial tension along the rolling direction (RD) and transverse …

According to a high-temperature compression test of rare earth magnesium alloy (WE43), a
strain-compensated constitutive model of the Arrhenius equation based on Zener-Hollomon …

Crystallographic shear transformation banding such as deformation twinning and martensitic
transformation accommodates plastic deformation and generates new domain with different …

An elastoplastic phase-field model for typical diffusional transformations was developed,
where plastic deformation was considered through a modified time-dependent Ginzburg …

The electrically assisted forming (EAF) technology can reduce the load & stress and improve
the formability of difficult-to-deform alloys due to its coupled thermal and athermal effects. To …

The ductility of Magnesium alloys is often limited due to the strong basal texture. Initial
attempts were made to reduce the intensity of the basal textures by adding rare earth (RE) …

In this work, a microstructurally sensitive computational model is developed to simulate
delayed hydride cracking (DHC) in Zr-2.5 Nb alloy. The model is validated by comparing …

Magnesium alloys, being the lightest structural metals, have garnered significant attention in
various fields. The characterization of inelastic behavior has been extensively investigated …

The accompanying dimensional change caused by the second-order deformation behaviors
severely limits the accuracy of the size and shape control of the structural parts. The effect of …