Metallic materials have long been used in a wide range of industrial applications due to their
outstanding physical and mechanical properties as well as high process latitudes …

Ultrasonic high-frequency fatigue testing differs from conventional low-frequency fatigue
testing in strain rate and cyclic loading. Ultrasonic fatigue has a resonance frequency of …

Abstract Selective Laser Melted Ti-6Al-4V (as-SLMed) exhibits decreased yield strength,
increased work hardening, and increased ductility after heat treatment at 730° C (HT-730) or …

A set of constitutive model parameters along with crystallography governs the activation of
deformation mechanisms in crystal plasticity. The constitutive parameters are typically …

As the computational capability of modern computers increases, the Crystal Plasticity Finite
Element Method (CPFEM) becomes more and more popular in materials science to model …

The equiaxed microstructure of Ti-6Al-4V contains nominally 10µm to 15µm α-phase grains.
Depending on processing, these fine grains may aggregate into large, millimeter-scale …

The current understanding of room temperature microplasticity in α/β titanium alloys is
reviewed with a special emphasis on dual-phase engineering alloys. As the interplay …

The influence of the microstructure of a polycrystalline material on its macroscopic
deformation response is still one of the major problems in materials engineering. For …

Low ductility and strength are major bottlenecks against Mg alloys' wide applications. In this
work, we systematically design the composition and fabrication process for a low-alloyed Mg …

Identification of operating deformation processes and assessment of the resulting strain
partitioning are critical concerns for mechanical properties prediction and microstructure …