Additive Manufacturing (AM) is a transformative technology that facilitates the production of
intricate geometries with high precision, customization, and speed. While conventional AM …

Laser powder bed fusion (L-PBF) has garnered significant interest since its inception as it
offers unparalleled advantages to fabricate complex-shaped metallic components. Due to its …

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 …

The laser powder bed fusion technology is widely utilized for manufacturing intricate metallic
components, overcoming design limitations inherent in traditional subtractive methods …

Using conventional manufacturing techniques, the integration of austenitic and martensitic
microstructures in steel composites has shown potential for achieving unprecedented …

The main objective of this study is to evaluate residual stresses in AISI 316L and 18Ni
Maraging 300 functionally graded materials with continuous variation of composition within …

Multi-material fabrication of metals through Additive Manufacturing (AM) processes is
attracting more and more attention in recent years. This work presents a novel methodology …

Additive manufacturing (AM) technologies, particularly powder bed fusion-laser beam (PBF-
LB/M), offer unique capabilities in producing intricate components directly, leading to …

Additively manufactured bimetallic structures combine the advantages of dissimilar materials
and can achieve localized properties through a customized composition distribution …

This experimental work aims to contribute to the development of Powder Bed Fusion–Laser
Beam (PBF-LB) processes for the fabrication of multi-material structures by studying the …