Additive manufacturing (AM) technology has shown great potential in manufacturing complex
products, such as lattice structures without extensive tooling. The focus of this study was to …

… additive manufacturing (AM) process. In comparison with SLM stainless steel 316L, this
paper introduces an innovative AM process for making austenitic stainless steel 316L parts …

… additive manufacturing (AM) technologies in terms of microstructure and mechanical properties
of a 316L … The selected AM technologies are: (1) Binder Jetting Additive Manufacturing (…

… ) to produce 316L specimens including lattice structures with the aim of exploring the
possibility given by additive manufacturing technologies to produce parts with increased damping …

… Additive manufacturing (AM) is an emerging manufacturing technology that can produce 3D
… The inner part and the edge part of the EBM ® sample have a hardness value 165 and 153, …

… Residual stress can be considered to affect the mechanical properties of AM parts. Although
no measurements have been made in this study, the as-built parts did not show a great …

… Binder jet manufactured 316L parts have obtained near full density and, in some cases, …
316L parts with competitive properties to wrought or pressed and sintered SS 316L parts. To …

… lead to a substandard part, creating … part volume and establishing proper post-manufacturing
inspection processes. In the present investigation, AM parts representing an industrial 316L …

… 316L which contains the 88wt% of 316L powder. The fabrication quality was assessed by
density measurement and surface analysis of the printed parts. … stainless steel 316L parts. …

… Moreover, this review article sheds light on the major advancements and challenges in
the production of AISI 316L parts by the DED process. In addition, it is found that in spite of …