Abstract Additive manufacturing (AM)(= 3D printing) and rational design techniques have
enabled development of meta-biomaterials with unprecedented combinations of …

Additively manufactured (AM,= 3D printed) porous metallic biomaterials with topologically
ordered unit cells have created a lot of excitement and are currently receiving a lot of …

The yield strength (σ y) of Tisingle bond6Alsingle bond 4V alloy, additively manufactured via
selective laser melting (SLM) of powder beds, can exceed 1000 MPa while possessing a …

The microstructure and phase composition in selective laser melted (SLM) Ti-6Al-4V plays a
key role for its mechanical performance. The microstructure evolution in SLM Ti-6Al-4V was …

Current post-process heat treatments applied to selective laser melting produced Ti-6Al-4V
do not achieve the same microstructure and therefore superior tensile behaviour of …

As a powder-bed-based additive manufacturing technology, selective laser melting (SLM)
offers high-level flexibility and enables efficient fabrication of complex parts. In connection …

Ti6Al4V alloy is an ideal lightweight structural metal for a huge variety of engineering
applications due to its distinguishing combination of high specific mechanical properties …

Selective laser melting (SLM) has been considered as a well-researched technology used to
produce near net shape metallic components with superior mechanical and physiochemical …

Designing new lattice structures falls under the same category of defining a new material,
owing to their unique properties and superior characteristics. The development of Metal …

Laser powder bed fusion (L-PBF) is an additive manufacturing technology that is gaining
increasing interest in aerospace, automotive and biomedical applications due to the …