Wire arc additive manufacturing (WAAM) is suitable for printing medium-to-large complex
parts with structural integrity while reducing material wastage, and lead time, improving the …

Wire arc additive manufacturing (WAAM) is steadily increasing with significant research work
are underway. The ability of WAAM to manufacture a large-scale product at a lower cost and …

Aerospace industries invest a significant amount of resources to meet one common goal,
that is, to make the aircraft fly. To keep down its 'buy-to-fly'ratio, researchers have been …

Abstract During Directed Energy Deposition-Arc (DED-Arc), the droplet transfer, molten
dynamics and temperature characteristics greatly impact the morphology and microstructure …

Abstract The flexibility of Additive Manufacturing (AM) technologies in the metal 3D printing
process has gained significant attention in research and industry, which allows for …

Additive/subtractive hybrid manufacturing (ASHM) technology is mostly based on direct
energy deposition technology and achieves the direct forming of functional components by …

Wire-arc directed energy deposition (DED) is suitable for depositing large-scale metallic
components at high deposition rates. In order to further increase productivity and efficiency …

This study focuses on the advantages of hot wire laser metal deposition (HW-LMD)
compared to cold wire deposition technology (CW-LMD) for fabricating Inconel 625 alloy …

A three-dimensional wire-feeding model has been developed to study the transient coupling
behaviour of heat and metal transfer, fluid flow, and solidified bead shape in wire plasma arc …

Wire and arc additively manufactured aluminum alloys are prone to porosity, leading to poor
mechanical properties in samples, which hinders their broad industrial application. Laser …