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 …

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

Large residual stresses in a laser-cladded surface coating over a metal part are detrimental
to its mechanical integrity and fatigue life. In this study, a three-dimensional uncoupled …

In the process of single track multi-layer aluminum alloy laser wire additive manufacturing,
there is a lack of in-depth understanding of the heat transfer and dynamics within the melt …

The welding process is characterized by its high energy density, making it imperative to
optimize the energy consumption of welding robots without compromising the quality and …

Laser Hot Wire (LHW) Directed Energy Deposition (DED) Additive Manufacturing (AM)
processes are capable of manufacturing parts with a high deposition rate. There is a …

Purpose Laser hot wire additive manufacturing (LHWAM) is a newer technology within the
space of large-scale directed energy deposition (DED) additive manufacturing (AM) …

This study evaluates the effectiveness and reliability of Multi-scale Multiphysics Selective
Laser Melting (SLM) Simulation Environments. A literature review and bibliometric analysis …

To obtain products by using additive manufacturing (AM) methods, it is necessary to take
into account the features of the formed internal structure of the material. The internal …

For the prediction of residual distortions of high-performance steel alloy parts induced by
laser melting deposition (LMD), two efficient simulation methods are developed, which are …