Thanks to many fascinating properties, such as high mechanical properties, good corrosion
resistance, and excellent biocompatibility, beta-type Ti alloys are frequently employed as …

Nanotechnology is still develo** over the decades and it is commonly used in biomedical
applications with the design of nanomaterials due to the several purposes. With the …

In order to create alloys with exceptional properties for orthopedic uses, this study focuses
on the impact of zirconium (Zr) content on the structural, electrochemical, and tribological …

The influence of milling time on the tribological behavior of a Co–Cr–Mo alloy designed for
biomedical applications, synthesized via mechanical alloying is investigated. Elemental Co …

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 …

The study aimed to analyze how milling time (2 h-24 h) affects structural, mechanical, and
tribological properties of Ti-15Mo alloys, these last has evaluated by using XRD, SEM, and a …

The current study analyzes the surface, mechanical, biocorrosion, and antibacterial
performances of a nanocrystalline TiN ceramic coating synthesized using cathodic arc …

Ti-Ni shape memory alloys (SMA) are used extensively in the field of orthopedics owing to
their unique physical and mechanical features, excellent corrosion resistance, and good …

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 work was prepared α-Al 2 O 3 alloys from laboratory aluminum oxide powder that was
milled for different periods of time and sintered at a temperature of 1450° C. The difference …