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 …

Metastable β Ti alloys are widely projected for manufacturing the next generation of
biomedical implants. The primary applications of these materials are envisaged in …

The area of implant osseointegration is of major importance, given the predicted significant
rise in the number of orthopaedic procedures and an increasingly ageing population …

The center of phase diagram, relatively high-disordered region, often has few alloy systems
available, especially for traditional ternary alloy systems. Here, we develop a novel Zr 50 Ti …

Nanocrystalline (NC) metallic materials have better mechanical properties, corrosion
behavior and biocompatibility compared with their coarse-grained (CG) counterparts …

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

Abstract Biocompatible β Ti–45Nb (wt%) alloys were subjected to different methods of
severe plastic deformation (SPD) in order to increase the mechanical strength without …

Chitosan/carbonated hydroxyapatite composite coatings (CCHCs) were fabricated
according to the following steps:(i) preparation of calcium carbonate coatings (CCCs) on …

The concept of mechanical biocompatibilities is considered an important factor for
orthopedics and dental implants. The high Young modulus of traditional Ti-based alloys can …

Titanium and its alloys are potential materials for orthopedic implant applications due to their
appropriate biological and mechanical behavior. As biocompatibility and biomechanical …