Metals and alloys with heterogeneous microstructures exhibit an enhanced combination of
strength and ductility, compared to their counterparts with homogeneous microstructures …

Lattice patterns are designed to create lighter and stronger structures for various industrial
applications. With progress in additive technology, lattice structure investigations have …

Biological high-entropy alloy (Bio-HEA) is a new generation of biomedical alloys with
excellent mechanical properties and good biocompatibility. However, elemental segregation …

Lattice structures, characterized by their repetitive lightweight cellular forms, enable more
effective load distribution compared to solid bodies. Designing lattice structures with tailored …

Additive Manufacturing (AM) technologies, ie Laser-Powder Bed Fusion (l-PBF), have made
possible the fabrication of complex and lightweight components not feasible with …

Multi-metal laser additive manufacturing is an emerging technology to fabricate complex
components with excellent comprehensive performances. In this study, stainless steel/nickel …

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

The possibility to realize Additively Manufactured functionally graded lattice structure based
on Voronoi tessellation enormously increases the possibility in tailoring the stiffness …

Graded lattice scaffolds based on rhombic dodecahedral (RD) elementary unit cell geometry
were manufactured in 316L stainless steel (SS) by laser powder bed fusion (LPBF). Two …

In this study, a new structure is proposed based on the body-centered cubic (BCC) lattice
structure by adding a cubic truss in the center of the BCC structure and denoting it TLC (truss …