Titanium alloys are widely used in various areas, particularly in medical and dental
industries, due to their remarkable properties. Still, the optimum cutting conditions for …

Nowadays, copper-titanium coatings have invited extensive attention from researchers in the
surface modification of industrial and biomedical materials due to their excellent mechanical …

Ti and Ti alloys are extensively used in biomedical applications due to their excellent
biocompatibility and mechanical properties but their high-cost of production is still a limiting …

Preventing anisotropy in materials produced by laser powder bed fusion (LPBF) has
become a major challenge. In this work, we achieved good mechanical properties in LPBF …

This study successfully used the powder metallurgy technique to produce hybrid Ti-7% Cu
(vol%) matrix nanocomposites (TMNCs) reinforced with activated carbon and silica fume at …

Titanium and its alloys have been studied intensively in the last decades due to their superb
mechanical properties; however, the high production costs of titanium and its alloys is …

High-entropy alloys containing Cu can lead to the formation of phases with lower melting
temperatures and large solidification intervals, making them potential candidates for …

Titanium alloys are widely used in aerospace, chemical, biomedical and other important
fields due to outstanding properties. The mechanical behavior of Ti alloys depends on …

A simple and widely used additive manufacturing technique for polymeric materials is fused
filament fabrication (FFF). In the semi-solid state, metallic materials may show rheological …

Surface tension and viscosity are two main process parameters in the metallurgical industry,
especially for high-temperature alloys, such as Zr–Ti–Cu which exhibits excellent …