Disk-shaped 316L stainless steel parts with various diameters and heights were additively
manufactured using a direct metal laser sintering (DMLS) technique. Neutron diffraction was …

Charpy test specimens were additively manufactured (AM) on a single stainless steel plate
from a 17–4 class stainless steel using a powder-bed, laser melting technique on an EOS …

Additive manufacturing (AM) technology provides unique opportunities for producing net-
shape geometries at the macroscale through microscale processing. This level of control …

The mechanical and microstructural properties of 316L stainless steel (SS) fabricated via
Direct Laser Deposition (DLD), a laser-based additive manufacturing method, are presented …

The effect of build geometry and orientation on the microstructure and mechanical properties
of additively manufactured AISI 316L stainless steel was studied. For this an integrated laser …

Among the additive manufacturing processes, selective laser melting has gained wide
popularity for manufacturing austenitic stainless steel (316L) due to the inherent advantages …

The micromechanics of plastic deformation behavior of a selective laser melt processed
austenitic stainless steel were studied by investigating the evolutions of texture and …

Neutron diffraction was employed to measure internal residual stresses at various locations
along stainless steel (SS) 17-4 PH specimens additively manufactured via laser-powder bed …

The evolution of damage, texture, and strain in additive manufactured (AM) 316L stainless
steel produced via laser powder bed fusion was investigated during in-situ tensile loading …

The tensile flow properties of austenitic (S316-L) and martensitic (S410-L) stainless steel
wall structures deposited by powder-fed laser additive manufacturing (LAM) process are …