The laser beam powder-bed-fusion (PBF-LB) technique offers the possibility to fabricate
metallic materials with unparalleled mechanical properties. However, due to the complexity …

Previous research mainly focused on heterogenous microstructure modification to improve
mechanical properties, but how the microstructure evolves during deformation has not been …

The hierarchical nature of additively manufactured materials necessitates a multimodal
approach for quantifying microstructural features and corresponding chemical …

Rapid solidification cellular structures are known to play a crucial role in helping achieve
high strength and high ductility in 316L austenitic stainless steels fabricated by laser powder …

Relationships between microstructures and hardening nature of laser powder bed fused (L-
PBF) 316 L stainless steel have been studied. Using integrated experimental efforts and …

Duplex stainless steels (DSSs) possess desirable combinations of mechanical properties
and excellent corrosion resistance due to their composition and equilibrium microstructure of …

In this work, three-dimensional stainless steel 316L re-entrant lattice structures were
fabricated by two mainstream powder bed fusion (PBF) techniques, namely electron beam …

In this study, we introduce a novel approach to enhance the strength of face-centered cubic
(FCC)-structured 316L austenitic stainless steel (ASS) while preserving its tensile ductility …

The high strain rate dynamic behavior of additively manufactured (AM) 316L stainless steel
(SS) is investigated, and a dynamic deformation-induced microstructural evolution is …

Tensile plastic deformation and fracture behavior of a laser powder bed fusion processed
316L stainless steel alloy was investigated in situ using high-resolution synchrotron x-ray …