The authors review the recent advances in the development of high‐strength titanium alloys.
First, they summarize conventional strengthening approaches and their mechanisms …

Titanium alloys have emerged as the most successful metallic material to ever be applied in
the field of biomedical engineering. This comprehensive review covers the history of titanium …

Biocompatible metals have been revolutionizing the biomedical field, predominantly in
human implant applications, where these metals widely used as a substitute to or as function …

A series of Ti–7Fe–xNb (x= 0, 1, 4, 6, 9, 11 wt.%) alloys was designed and cast to investigate
the β→ α ″martensitic phase transformation, β phase stability, the resulting microstructure …

A group of new Ti-7Mn-xNb alloys with Nb contents varying from 0 to 10 wt% were fabricated
by conventional press and sinter powder metallurgy processing from blended elemental …

Selective laser melting (SLM) is a promising technique capable of rapidly fabricating
customized implants having desired macro-and micro-structures by using computer-aided …

This work studied the feasibility of an electron beam melting (EBM) Ti-6Al-4V alloy as a
biomaterial for implants. Comparisons were made with a wrought forged Ti-6Al-4V alloy. The …

Powder metallurgy, and in particular the blending elemental approach, is a recognised way
to reduce the processing cost of titanium-based materials for their wider industrial uptake …

In this study, we fabricated Ti-6Al-4V composites using pulse electric current (spark plasma)
sintering technique and examined the influence of yttria-stabilized zirconia (YSZ) and silicon …

Cu-bearing Ti alloys could be used as structural biomedical materials where the releasing of
Cu ions is beneficial to lower infection incidences associated with surgical implants. The …