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 …

High strength and low elastic modulus are critical properties of biomedical titanium alloys for
manufacturing of load-bearing orthopaedic implants. Single phase beta Ti alloys can …

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 …

An open challenge on structural biomaterials is to obtain low-cost Ti-alloys with high elastic
admissible strength (the ratio of yield strength to modulus). To reach this goal, we designed …

The influences of cryogenic treatments, ie liquid nitrogen quenching (LNQ) and water
quenching followed with liquid nitrogen immersion (WQ-L) on phase transformations …

Abstract The effects of Fe, Si, and O additions on the mechanical properties of some
biomedical TNTZ β-Ti alloys were analyzed to reveal the dissimilarities arising between …

The high strength of biomedical titanium alloys is primarily attained through precipitation
strengthening of the α phase. However, the plasticity and elastic modulus of these alloys are …

The high-throughput diffusion-multiple technique and thermodynamics databases were
used to design new high-strength Ti alloys. The composition–microstructure–property …

Among many β-metastable alloys explored for biomedical applications, alloys from the Ti-Nb-
Fe-Zr system present great potential regarding cost and mechanical strength. In this article …

During the last decades, Titanium-based alloys have shown a suitable combination of
strength, ductility, corrosion and biocompatibility properties, that marks them as suitable …