From the past few years, developments of β-Ti alloys have been the subject of active
research in the medical domain. The current paper highlights significant findings in the area …

The use of biomedical metallic materials in research and clinical applications has been an
important focus and a significant area of interest, primarily owing to their role in enhancing …

Abstract Metastability-engineering, eg, transformation-induced plasticity (TRIP), can
enhance the ductility of alloys, however it often comes at the expense of relatively low yield …

β-type titanium (Ti) alloys have attracted a lot of attention as novel biomedical materials in
the past decades due to their low elastic moduli and good biocompatibility. This article …

The necessity for biomedical components is increasing every year. However, Ti6Al4V, the
most widely utilized titanium alloy for biomedical implants are very costly owing to the high …

Mechanical and biological properties constitute the most fundamental requirements for bone
tissue engineering (BTE) scaffolds. Nonetheless, existing fabrication strategies find it difficult …

The demand for titanium alloys simultaneously having high elastic admissible strain and
large recovery strain for bio-implant applications is increasing. Ni-free Ti-based shape …

Ti and Ti alloys have charming comprehensive properties (high specific strength, strong
corrosion resistance, and excellent biocompatibility) that make them the ideal choice in …

Wear and friction mechanisms in knee and hip rehabilitation have been a focus of intense
research due to their critical importance in the longevity and performance of prosthetic …

Materials innovation calls for an integrated framework combining physics-based modelling
and data-driven informatics. A dislocation-based constitutive model accounting for both …