Titanium and its alloys are potential materials for orthopedic implant applications due to their
appropriate biological and mechanical behavior. As biocompatibility and biomechanical …

A comprehensive study of Fe alloying influence on as-cast titanium alloys, including
microstructure, mechanical properties, bio-corrosion behavior and in-vitro cell response …

The main objective of this research is to fabricate porous mechanical-tuned (low elastic
modulus and high strength) Ti-based composites with improved bioactivity for orthopaedic …

This work aims to investigate the structural, mechanical and electronic properties of four
novel β-type (100-x)(Ti–45Nb)-xGa alloys (x= 2, 4, 6, 8 wt%) for implant applications by …

Based on the general [Mo] equivalent criterion and d-electron orbital theory, a new ultrahigh-
strength β titanium alloy with eight major elements (Ti-4.5 Al-6.5 Mo-2Cr-2.6 Nb-2Zr-2Sn-1V …

In this study, a novel strategy for developing α+ β dual-phase titanium alloys with low
Young's modulus and high yield strength was proposed, and a Ti-15Nb-5Zr-4Sn-1Fe alloy …

A critical characteristic of β-Ti alloys is the inevitable formation of ω-precipitates during
certain heat treatments which leads to embrittlement, or even to a complete loss of ductility …

Abstract In Ti-Nb-Ta-Zr based β-titanium alloys intended for orthopedic applications, Zr does
not affect the stability of low modulus β-phase, unlike Nb and Ta. The present study attempts …

In this work, a low-cost biomedical titanium alloy Ti–5Mo–Fe–3Sn (atomic percent) was
successfully developed. The microstructure, tensile properties and deformation behaviour …

Abstract The alloy Ti‐6Al‐4V (Ti64; wt%) is extensively used for aerospace and medical
applications. However, due to potential drawbacks and societal change, intensive research …