There has been tremendous interest in the development of different innovative wear‐
resistant materials, which can help to reduce energy losses resulted from friction and wear …

Ti-based alloys are finding ever-increasing applications in biomaterials due to their excellent
mechanical, physical and biological performance. Nowdays, low modulus β-type Ti-based …

Abstract Ti and Ti-TiB composite materials were produced by selective laser melting (SLM).
Ti showed an α΄ microstructure, whereas the Ti-TiB composite revealed a distribution of …

In this work, the effect of Fe and Ta content on the microstructure and β phase stability of as-
cast designed Ti-xFe-yTa (x= 8, 9, 10 wt% and y= 0, 5, 8, 9, 10 wt%) alloys was investigated …

A group of Tisingle bondxNbsingle bond7Fe (x= 0, 1, 4, 6, 9, 11 wt.%) alloys was designed
and produced by cold crucible levitation melting process. The microstructural characteristic …

To improve the wear resistance of TC4 alloy, laser-directed energy deposition combined
with in-situ synthesis method was developed to fabricate titanium carbides and titanium (di) …

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 …

Commercially pure titanium, as a widely used metallic biomaterial, was fabricated using
dissimilar additive manufacturing (AM) methods, namely selective laser melting (SLM), laser …

Ti-based metallic glasses show high potential for implant applications; they overcome in
several crucial respects their well-established biocompatible crystalline counterparts, eg …

The microstructural and mechanical properties of β-type Ti 74-x Mo x Nb 26 (x= 0, 2, 4, 6,
and 8 at.%) biomedical alloys with low elastic modulus were investigated. The experimental …