Spark plasma sintering (SPS), also known as pulsed electric current sintering (PECS) or
field-assisted sintering technique (FAST), belongs to a class of powder metallurgy …

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 …

Mechanical alloying (MA) is a powder process that consists of repeated cold welding,
fracturing, and rewelding of powder particles in a high-energy ball mill. This process is …

Additive Manufacturing (AM) or rapid prototy** technologies are presented as one of the
best options to produce customized prostheses and implants with high-level requirements in …

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

A comprehensive study of Fe alloying influence on as-cast titanium alloys, including
microstructure, mechanical properties, bio-corrosion behavior and in-vitro cell response …

Titanium and its alloys have long been used as implant materials due to their outstanding
mechanical properties and apparent biocompatibility. Despite this, the search for better …

This research aims to design and process a low elastic modulus near-β Ti–30Nb–3Ag
at%(TNA) alloy with enhanced corrosion and antibacterial characteristics for bioimplant …

The technique of mechanical alloying, although originally developed to produce oxide-
dispersion-strengthened superalloys for aerospace and high-temperature applications, is …

The demands for high-performance biomaterials are driving the development of new
metallic alloys with improved mechanical and biological responses. In this study, a …