Tremendous growth has been witnessed in the field of additive manufacturing (AM)
technology over the last few decades. It offers a plethora of applications and is already being …

Metal additive manufacturing (AM) has led to an evolution in the design and fabrication of
hard tissue substitutes, enabling personalized implants to address each patient's specific …

In recent years, additive manufacturing (AM) of metallic parts opens new opportunities for
many critical industrial sectors and individual necessities. The high quality and more …

Additive manufacturing's attributes include print customization, low per-unit cost for small-to
mid-batch production, seamless interfacing with mainstream medical 3D imaging …

In today's era, additive manufacturing (AM) is attracting unparalleled attention across the
globe. From initial obscurity, today there is practically no sphere of life untouched by this …

This article overviews the scientific results of the microstructural features observed in 316 L
stainless steel manufactured by the laser powder bed fusion (LPBF) method obtained by the …

The continuous advances in smart and multifunctional materials and the corresponding
growth of the Internet of Things require novel battery concepts with improved integration in …

Additively manufactured lattice structures of titanium alloys, especially Ti6Al4V, are widely
studied for their use in bone replacement implants. The porous nature of these lattice …

Titanium-based alloy products manufactured by Selective Laser Melting (SLM) have been
widely used in biomedical applications, owing to their high biocompatibility, significantly …

Abstract In Laser Powder Bed Fusion (LPBF), residual stress in as-built 3D parts may require
post-processing treatments to prevent the formation of cracks and voids, where heat …