The defects due to the rapid heating and cooling in powder bed fusion affect significantly the
mechanical properties of additively manufactured as-built parts. However, the effect of …

In this study, silver (Ag) was surface-alloyed in TC4 alloy (Ti6Al4V) with a high-power diode
laser (HPDL). The Ag content in the alloyed layers were controlled to be 5 to 24 wt%. The …

Ti6Al4V (Ti64) alloy is the most used metal material for bone implants because of its good
biocompatibility and adapted mechanical properties. Nevertheless, it shows low …

This study investigated the mechanical, microstructural, and biological properties of 3Y-
TZP/Ti6Al4V functionally graded material (FGM) fabricated by the spark plasma sintering …

Planetary ball milling is a high-energy ball milling technique that is widely used for the
synthesis of alloy and composite powders with micrometer or nanometer particle sizes. The …

The prime objective of the current investigation is to develop a methodology of hybrid
additive manufacturing (HAM), which is an amalgamation of vat photopolymerization (VPP) …

We present a novel Ti64/20Ag highly porous composite fabricated by powder metallurgy for
biomedical applications and provide an insight into its microstructure and mechanical …

Titanium and its alloys are promising materials for engine production, special pump
manufacturing, and bone implants. However, the abrasion resistance and fracture …

This works proposes a methodology for fabricating materials with specific characteristics
mimicking human bones. A Ti64 alloy powder was used as the base material and it was …

In the present work, a comparative study of artificial neural network (ANN) and regression
model for hybrid additive manufacturing (HAM) of Ti6Al4V parts is performed. This study is …