Magnesium and its alloys remain perilous in the framework of light weighting and advanced
devices structure such as rockets and satellites. However, the utilization of Magnesium (Mg) …

Abstract Laser Powder Bed Fusion (L-PBF) is an innovative metal Additive Manufacturing
process that enables the production of highly complex parts with unique precision, making it …

With the lack of access to medical equipment clear to see throughout the developing world
in comparison to the developed world, solutions to bridge the gap are key to reducing the …

This study investigates the fretting wear behavior of additively manufactured Inconel 625
and its wrought counterpart at room temperature, 350° C, and 700° C. The friction and wear …

Efficient lattice unit cell topologies often necessitate the manufacture of unsupported
horizontal struts. The fabrication of unsupported horizontal struts by laser powder bed fusion …

Rapid thermokinetics associated with laser-based additive manufacturing produces strong
bulk crystallographic texture in the printed component. The present study identifies such a …

Inconsistency of equipment and inappropriate design in the laser powder-bed fusion
additive manufacturing (LPBF-AM) process are not tightly related to the technology …

Despite the many benefits of additive manufacturing, the final quality of the fabricated parts
remains a barrier to the wide adoption of this technique in industry. Predicting the quality of …

Build time is a critical contributor to overall part cost in the Laser Powder Bed Fusion (L-PBF)
process, which in turn plays an important role in whether a part is made with this process or …

Selective Laser Melting (SLM) is an advanced Additive Manufacturing (AM) technique for the
3D printing of metals. SLM process parameters and different types of defects that may …