Metal additive manufacturing (AM) refers to any process of making 3D metal parts layer-
upon-layer via the interaction between a heating source and feeding material from a digital …

Metal additive manufacturing involves manufacturing techniques that add material to
produce metallic components, typically layer by layer. The substantial growth in this …

The design freedom offered by additive manufacturing (AM) enables the fabrication of
components with internal surfaces that are challenging to access post-manufacture. This is …

Electron beam powder bed fusion (EB-PBF) has been given much attention in recent years
for its potential in the aerospace and medical industries, particularly with Ti‐6Al‐4V …

As-manufactured surface roughness is detrimental to the fatigue life of laser-based powder
bed fusion (LB-PBF) Ti-6Al-4V components. Despite the criticality of surface roughness to …

This study demonstrates the improvement in the fatigue strength of additive manufacturing
(AM) metals such as laser-based powder bed fusion of metals by post-processing. Titanium …

Additive manufacturing (AM) technology is undergoing rapid development as an advanced
technique for fabricating light-weight and complex-shape metallic parts with acceptable …

To demonstrate and compare the improving effects of cavitation peening and shot peening
on the fatigue properties of additively manufactured metals, titanium alloy Ti6Al4V …

The present work focuses on the evaluation of polymer, metal and ceramic based
biomaterials with particular emphasis on success rate of these materials till date along with …

This study investigates the impact of post-processing techniques on the fatigue behaviour of
specimens in Ti6Al4V made by laser powder bed fusion (LPBF) for relevant applications …