Laser powder bed fusion (LPBF) is a promising technology for the manufacturing of
customized medical implants, due to the intrinsic potential in the fabrication of components …

The influence of prefabricated dislocation features induced by rate dependent prestrain on
the post-cyclic process in 7075 aluminum alloy exhibits significant variations, which are of …

Even though crystal plasticity models have been available for decades, the quantification of
material parameters is still a matter of debate. Polycrystalline experimental results can …

Developing effective strategies for enhancing the damage tolerance of laser powder bed
fusion (LPBF) components remains a formidable challenge in the disruptive additive …

The present study intends to evaluate the ratcheting response of the additively manufactured
(AM) samples made of Al 4043, SS316L, and Ti–6Al–4V alloy through hardening rules and …

Destabilization of originally fully austenitic structure and formation of DIM (deformation
induced martensite) were studied in SLMed 316L steels fabricated using different …

Additive manufacturing is a new-age technology specialising in intricate fabrication in the
manufacturing industry. However, extremely high cooling rates and far-from-equilibrium …

The fatigue performance of Laser Powder Bed Fusion manufactured 316L stainless steel is
critical for cyclic loading applications. Additive manufacturing of 316L produces a …

Today, wire arc additive manufacturing (WAAM) can be used to fabricate critical structural
steel components. The process allows to fabricate sophisticated shapes, thereby achieving …

Heat treatment is used to change the microstructure and improve the low-cycle fatigue (LCF)
performance of additive manufactured (AM) 316LN stainless steel (SS) in this work. Strain …