Difficult-to-cut alloys, which include titanium, cobalt, nickel alloys, and high-strength and
heat-resistant steels, can nowadays be manufactured using selective melting (SLM), and …

Laser polishing technology, an efficient non-contact surface treatment method, shows great
potential in aerospace, biomedical, and high-precision manufacturing. Precise control of …

Laser powder bed fusion (LPBF) is a highly dynamic and complex physical process, and
single-track defects tend to accumulate into non-negligible internal defects of parts. The …

The energy density distribution directly affects the molten-pool temperature gradient, cooling
and solidification rate of additive manufacturing (AM), which in turn affects the mechanical …

Laser powder bed fusion (LPBF) is an advanced metal additive manufacturing technology,
extensively employed in the aerospace, automotive, biomedical and military sectors …

The multi-material components formed by laser powder bed fusion (LPBF) have shown
potential in advanced equipment due to their superior performance. The uneven distribution …

Additive Manufacturing (AM) is an advanced technology that has been primarily driven by
the demand for production efficiency, minimized energy consumption, and reduced carbon …

This study investigates the effects of process parameters in the powder bed fusion–laser
beam (PBF-LB) process on IN939 samples. The parameters examined include laser power …

Lack of fusion (LOF) defects can significantly affect the mechanical properties of components
manufactured by laser powder bed fusion (LPBF). The layer-wise evolution of LOF defects is …

In the quest for seeking aluminum alloys with high printability, AlSi10Mg alloy has been
sought as one of the most promising candidates for the laser powder bed fusion (LPBF) …