During the additive manufacturing (AM) process, energy is transferred from the energy beam
to the processed material. The high-energy input and uneven temperature distribution result …

With the trends of Industry 4.0 spanning physical and virtual worlds, Additive Manufacturing
(AM) has been the mainstream for realizing complex geometries designed in computers …

Abstract Laser beam Powder Bed Fusion (PBF-LB) is an increasingly attractive technology
due to its capability of manufacturing complex and customised metal parts. However, the …

Abstract Laser Powder Bed Fusion (LPBF) is the predominant metal additive manufacturing
technique that benefits from a significant body of academic study and industrial investment …

A continuum-scale modeling approach is developed and employed with three-dimensional
finite element analysis (FEA), for simulating the temperature response of a Ti-6Al-4V, two …

Abstract Although Selective Laser Melting (SLM) currently revolutionizes the way parts are
being manufactured, certain process inherent limitations such as accumulation of residual …

AlSi10Mg samples fabricated by using a multi-laser beams selective laser melting system
have been studied in this paper. The relative density, defects, microstructure and …

As an emerging additive manufacturing technology, multi-laser powder bed fusion (ML-PBF)
can be used for the rapid fabrication of large-size Ti–6Al–4V components with complex …

During the multi-laser powder bed fusion (ML-PBF) process, the quality of the overlap region
is essential to ensure the integrity between different laser scanning areas. Here, six different …

An in-depth overview on an emerging area of the additive-manufacturing-enabled,
accelerated design of Ni-based alloys for improved high-cycle and very-high-cycle fatigue …