Additive Manufacturing (AM) has revolutionized the manufacturing industry in several
directions. Laser powder bed fusion (LPBF), a powder bed fusion AM process, has been …

The properties and serviceability of 3D-printed metal parts depend on a variety of attributes.
These include the chemical composition, phases, morphology, spatial distributions of grain …

Ti and its alloys have been broadly adopted across various industries owing to their
outstanding properties, such as high strength-to-weight ratio, excellent fatigue performance …

In the present study, the Gas metal arc welding (GMAW) based Wire-arc additive
manufacturing (WAAM) process was used to fabricate a multi-layered structure at optimized …

Titanium (Ti) alloys are widely used in high-tech fields like aerospace and biomedical
engineering. Laser additive manufacturing (LAM), as an innovative technology, is the key …

Titanium alloy, an ideal aviation and biomedical material, is generally considered as a
typical difficult-to-cut material because of low elastic modulus and poor thermal conductivity …

Electron beam heat source has certain advantages in processing some special high-
performance materials because of its high energy efficiency and the ability to use its own …

The restricted number of materials available for additive manufacturing (AM) technologies is
a determining impediment to AM growing into sectors and providing supply chain relief. AM …

The powder metallurgy (PM) of titanium alloys has received more and more attention in
structural and biomedical applications owing to its low cost, near-net-shape formability, and …

Abstract In Additive Manufacturing (AM), parts are normally fabricated along the direction
perpendicular to the build plate. However, the main axis of the part may differ from this …