Variety of implant materials have been employed in various disciplines of medical science
depending on the requirement of a particular application. Metals, alloys, ceramics, and …

As expected from the alloy design procedure, combined twinning-induced plasticity and
transformation-induced plasticity effects are activated in a metastable β Ti–12 wt.% Mo alloy …

Ti–Nb alloys are excellent candidates for biomedical applications such as implantology and
joint replacement because of their very low elastic modulus, their excellent biocompatibility …

A ternary β-metastable titanium Ti–9Mo–6W (wt.%) was designed. A very high work
hardening rate close to 2100 MPa and a uniform deformation larger than 35% were …

Selective laser melting (SLM) is extensively used, as one of the additive manufacturing (AM)
technologies, for fabricating metallic products. This advanced method allows to produce …

The composition dependences of transformation strain and shape memory, and superelastic
properties were extensively investigated in Ti–Nb–Zr and Ti–Nb–Ta alloys in order to …

In the present study, high order porous Ti–Nb (50-x)-HA (x)(x= 0, 10, 20 wt%) composites
have been fabricated for orthopedic application by using powder metallurgical route …

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 …

In this study, a new Ti–Zr–Nb–Sn alloy system was developed as Ni-free biomedical
superelastic alloys with a large recovery strain and excellent biocompatibility. Ti–18Zr–(9 …

While ω precipitates in metastable β titanium alloys are typically considered embrittling and
consequently deleterious to the mechanical properties, this paper demonstrates that low …