Laser surface modification is a widely available and simple technique that can be applied to
different types of materials. It has been shown that by using a laser heat source …

The main focus of this work is to investigate the impact of varying milling times (2 to 18 h) on
the structural and mechanical properties of the developed Ti-Nb-Mo alloy. The morphology …

In order to achieve an effective balance between plasticity and strength, a group of Ti-26Nb-
xZr-yMn (x= 4, 7, 10 wt% and y= 3, 5 wt%) alloys were designed to evaluate the effects of Mn …

Titanium (Ti)-based alloys with only a β-phase have attracted academic and industrial
interest for orthopedic application, due to their close properties to those of tissues. The …

In this study, the microstructures and mechanical properties of a newly developed β-type Ti–
34Nb–25Zr (TNZ) alloy after cold rolling at different reduction ratios and recrystallization …

The study reports the effects of Ti content on microstructures, mechanical properties and
corrosion behavior of the Ti x ZrNb alloys. The BCC phase Ti x ZrNb (x= 1, 1.5 and 2 mol) …

The microstructure and corrosion behavior of two novel biomedical high entropy alloys
(HEA) s, namely Hf 27 Nb 12 Ta 10 Ti 23 Zr 28 and Hf 30 Nb 14 Ta 10 Ti 28 Zr 18 that were …

A new series of β-type biomedical alloys Ti 50 Zr 25 Nb 20 Cu 5− x Ag x (x= 0, 1 and 2.5
at%) have been developed. Mechanical properties, antibacterial properties, and …

This study aimed to develop a new alloy for orthopedic implants by combining the concept of
medium-entropy alloys (MEAs) with the performance requirements of medical alloys. The …

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 …