The accelerated growth of additive manufacturing (AM) technologies has greatly aided the
expansion of the affiliated manufacturing industry, leading to cost savings in labor, materials …

Titanium alloy is a material of choice when it comes to applications requiring high-
performing mechanical properties, lightweight structure, superior biocompatibility, and …

This study focuses on enhancing the surface characteristics of Ti–6Al–4V alloy fabricated
through laser powder bed fusion (LPBF), a prominent additive manufacturing technique. The …

Intelligent additive manufacturing is the direction of development, and changing parameters
during the manufacturing process is an effective measure to adjust the quality of the part …

As a high‐efficiency laser additive manufacturing technology, laser powder bed fusion
(LPBF) has unparalleled advantages in the manufacture of titanium matrix composites. In …

As-printed Laser-Powder Bed Fusion (LPBF) surfaces can provide anchoring spots for the
infiltration of polymer printed by Fused Filament Fabrication (FFF), enhancing metal-polymer …

The ability to manufacture complex design geometries via Additive Manufacturing (AM) has
led to a rapid growth in advancing the design methods, fabrication, and application of Triply …

The laser powder bed fusion (LPBF) process is characterized by a very rapid solidification
phase change due to the very small time and length scales of melt pool involved, as a result …

Tantalum nitride is an indispensable material for various technological applications due to
its exceptional mechanical, thermal, electrical and biological properties. In the literature …

Powder bed fusion with a laser beam (PBF-LB) is a widely used metal additive
manufacturing method for fabricating complex three-dimensional components with a variety …