A key feature when using martensitic steels is the proportion of retained austenite present in
the final component. Martensitic steels manufactured by laser powder-bed fusion (LPBF) …

Purpose Current methods for the preparation of composite powder feedstock for selective
laser melting (SLM) rely on costly nanoparticles or yield inconsistent powder morphology …

Additive manufacturing build parameters are used to engineer structural metamaterials
lattices with controllable mechanical performance, achieved through microstructural grading …

Additive manufacturing build parameters are used to engineer architectured metamaterial
structural lattices with controllable mechanical performance, achieved through …

Additive Manufacturing technologies present a pathway to the production of components
with uniform properties independent of their geometry. Currently, one of the main barriers to …

In situ titanium carbide (TiC) reinforced Ti6Al4V matrix composites are synthesized here by
laser powder bed fusion (PBF-LB). Ti6Al4V particles and graphite flakes are pre-mixed via …

A major untapped potential of laser powder bed fusion (LPBF) is the ability to additively
manufacture (AM) parts with site-specific properties. However, robust methods of improving …

Laser Powder bed Fusion as a form of additive manufacturing is a potentially desirable
method of manufacture for aircraft parts that use nickel superalloys. One of the barriers to …

Metal matrix composites (MMCs) offer various advantages over metallic alloys due to their
low density, high strength, and tailorable properties. However, their manufacture with …

Additive manufacturing (AM) is a novel fabrication technology that has shown potential in
producing high strength and structurally complex metallic parts. A wide range of legacy …