Metallic biomaterials are widely used for orthopedic application to resolve pain and improve
patients' quality of life. Among these biomaterials, beta (β)–phase titanium (Ti) alloys have …

The performance of current biomedical titanium alloys is limited by inflammatory and severe
inflammatory conditions after implantation. In this study, a novel Ti–Nb–Zr–Si (TNZS) alloy …

Metallic materials are widely used for fabricating medical implants due to their high specific
strength, biocompatibility, good corrosion properties, and fatigue resistance. Recently …

With regard to medical applications, the need for producing high-strength titanium-based
materials continues to rise due to the fact that pure titanium is characterized by low …

The surface treatment of titanium implants has been applied mainly to increase surface
bioactivity and, more recently, to introduce antibacterial properties. To this end, composite …

The use of materials as implants has become vital for determining optimal product design to
enhance the needs of usage and longevity in body. Ultrafine grained pure titanium offers …

The purpose of this work is to obtain comprehensive reference data of the Ti-13Nb-13Zr
alloy base material: its microstructure, mechanical, and physicochemical properties. In order …

Severe plastic deformation (SPD) is a popular group of techniques applied to achieve the
nanostructuring of the metallic biomaterials and improvement of their mechanical …

On the surface of the ultrafine-grained Ti–13Nb–13Zr alloy and the coarse-grained Ti–13Nb–
13Zr alloy nanotubular oxide layers were formed by electrochemical anodization in the 1 MH …

The present work concerns the surface modification of The Ti-13Nb-13Zr alloy by
electropolishing and plasma electrolytic oxidation (PEO) process in Ca-containing …