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 …

Metallic biomaterials are used in medical devices in humans more than any other family of
materials. The corrosion resistance of an implant material affects its functionality and …

Thanks to a considerable number of fascinating properties, titanium (Ti) and Ti alloys play
important roles in a variety of industrial sectors. However, Ti and Ti alloys could not satisfy all …

Titanium and titanium alloys are widely used in biomedical devices and components,
especially as hard tissue replacements as well as in cardiac and cardiovascular …

The development of materials for biomedical, aerospace, and automobile industries has
been a significant area of research in recent years. Various metallic materials, including …

Titanium (Ti) and its alloys may be processed via advanced powder manufacturing routes
such as additive layer manufacturing (or 3D printing) or metal injection moulding. This field …

Titanium (Ti) is used for implantable devices because of its biocompatible oxide surface
layer. TiO2 surfaces that have a complex microtopography increase bone‐to‐implant contact …

A simple chemical method was established for inducing bioactivity of Ti and its alloys. When
pure Ti, Ti‐6Al‐4V, Ti‐6Al‐2Nb‐Ta, and Ti‐15Mo‐5Zr‐3Al substrates were treated with 10M …

Bioengineers need a thorough grounding in biocompatibility-the biological performance of
materials. Until now, there were no publications suitable for a neophyte in the field; prior …

Pure soluble silica prepared by a sol‐gel method induced bone‐like hydroxyapatite
formation onto its surface when the silica was immersed in a simulated body fluid (SBF) …