In this study, high strain rate tension tests are conducted to determine and compare the
dynamic mechanical behaviors and deformation mechanisms of different phase composition …

The microstructure evolution of near β-Ti alloys with initially lamellar and equiaxed
microstructures subjected to dynamic loading was investigated. Results showed that during …

Dynamic mechanical behavior of a metastable β titanium alloy Ti–10V–2Fe–3Al (Ti-1023)
with α+ β dual-phase structure is investigated by a split Hopkinson tension bar (SHTB) …

The effect of strain rate on flow behaviors of three beta Ti alloys with different beta phase
stability was studied. The alloys were subjected to compression deformation at four strain …

A lamellar near β-Ti alloy was subjected to cyclic tensile loading at room temperature.
Transmission electron microscopy (TEM) and high resolution TEM (HRTEM) investigation …

This work systematically investigates the microstructural evolution and deformation
mechanism of lamellar and equiaxed Ti-55511 alloys during hot deformation. For textural …

A strain-transformable microstructure was successfully designed in a metastable β Ti–7Mo–
3Nb–3Cr–3Al alloy with enhanced mechanical properties, by introducing∼ 28% α …

In metastable β-Ti alloys, the primary deformation mechanisms, including ordinary
dislocation plasticity (ODP), deformation twinning (DT), and phase transformation, are …

Metastable β-Ti alloys have great potentials as structural materials due to their good
formability at room temperature, high strength-to-density ratio, excellent age hardenability …

High strength metastable β titanium alloys are widely used in the aerospace industry for their
superior mechanical properties, including an outstanding strength-to-weight ratio. Although …