As a crucial branch for titanium industry, high-strength titanium alloys (HS-TAs, with UTS≥
1100 MPa) are indispensable structural materials for advanced engineering applications …

In the present work, microstructure and texture evolution during plastic deformation and
annealing treatment of near beta (β), meta-stable β, and stable β-Ti alloys are reviewed. The …

Metastable β titanium alloys are widely used in the biomedical, automotive, and aerospace
industry, due to their excellent corrosion resistance, fatigue strength, biocompatibility, and …

The mechanical properties of four commercial β-titanium alloys (TIMETAL-LCB, Ti-15-3, β-
21S, and VT22) were compared in the solution-treated-and-aged (STA) condition following …

The strength of a commercial β‑titanium alloy was tuned by systematically controlling the
size-scale of α precipitation via two-step heat treatments. While the first step annealing at …

Titanium and its alloys have become the most attractive implant materials due to their high
corrosion resistance, excellent biocompatibility and relatively low elastic modulus. However …

The decomposition of the β phase during rapid cooling of the near β titanium alloy Ti–5Al–
5Mo–5V–3Cr has been studied using in situ X-ray synchrotron diffraction combined with ex …

The effect of phase transformation kinetics on the formation of α in the β-quenched Ti–5Al–
5Mo–5V–3Cr–1Zr metastable β titanium alloy is investigated as a function of heating rate by …

Ti-alloys represent the principal structural materials in both aerospace development and
metallic biomaterials. Key to optimizing their mechanical and functional behaviour is in …

Interstitial solutes (eg O, N) often enhance strength; however, their poisoning effect leads to
markedly decreased ductility and even embrittlement in titanium (Ti) alloys. Thus, using …