High deposition rate laser directed energy deposition (HDR-DED) technology, including
powder-and wire-based laser directed energy deposition, has emerged recently to fulfil the …

Laser Wire-Feed Metal Additive Manufacturing (LWAM) is a process that utilizes a laser to
heat and melt a metallic alloy wire, which is then precisely positioned on a substrate, or …

The present study investigated the microstructure, nanomechanics, and corrosion behavior
of AlCoCuFeNi high entropy alloys fabricated by selective laser melting (SLM) and laser …

In recent years, the twin wire arc additive manufacturing technique has been proved feasible
of fabricating titanium aluminides with low cost. To address the concerns on the low thermal …

Wire-laser directed energy deposition has emerged as a transformative technology in metal
additive manufacturing, offering high material deposition efficiency and promoting a cleaner …

Functionally graded materials enable the spatial tailoring of properties through controlling
compositions and phases that appear as a function of position within a component. The …

Abstract Since high-Nb TiAl alloys exhibit excellent high-temperature properties, there is a
wide scope for their use in aerospace and automotive industries. Powder metallurgy offers …

The microstructure of TiAl alloy is extremely sensitive to the thermal history. During additive
manufacturing, multiple thermal cycles and partial remelting of the TiAl deposition layers …

In recent decades, interest in simulation modeling of plasma processing under atmospheric
pressure has been growing because of its appealing advantages across various domains …

Laser melting deposition is commonly used to prepare high-entropy alloy (HEAs) coatings.
Laser melting deposition with coaxial powder feeding (CPF) and laser melting deposition …