Titanium alloys are widely used in the biomedical field due to their good corrosion
resistance, high mechanical strength/density ratio, low elastic modulus, and good …

Microstructure and properties of a metastable β-type Ti-35Nb-2Ta-3Zr alloy after cold rolling
plus annealing at various temperatures were investigated systematically. The X-ray …

The evolutions of phase constitutions and mechanical properties of a β-phaseTi–36Nb–5Zr
(wt%) alloy during thermo-mechanical treatment were investigated. The alloy consisted of …

β-Ti alloys are highly attractive metallic materials for biomedical applications due to their
high specific strength, high corrosion resistance and excellent biocompatibility, including low …

Ti–xNb–3Zr–2Ta alloys (x= 33, 31, 29, 27, 25)(wt.%) were fabricated by vacuum non-
consumable arc melting and hot forging. The hot-forging specimens were solid solution …

Low-modulus biomedical beta titanium alloys often suffer from low strength which limits their
use as load-bearing orthopaedic implants. In this study, twelve different Ti-Nb-Zr-Ta based …

The demand for biomaterials with high strength, low modulus, excellent biocompatibility and
good corrosion resistance has led to the development of new alloys. Zirconium is known as …

In order to produce new β (bcc) Ti alloys for medical applications, effects of Mn substitution
for Cr on phase constitution and mechanical properties of Ti-Cr-Sn alloys were investigated …

The effects of Ta content on the microstructures, dynamic Young's modulus and tensile
properties of the quenched Ti–Ta alloys were investigated for biomedical applications. The …

The effects of molybdenum on the structure and mechanical properties of a Ti–10Zr-based
system were studied with an emphasis on improving the strength/modulus ratio …