Impact of defects in powder feedstock materials on microstructure of 304L and 316L stainless steel produced by additive manufacturing
BM Morrow, TJ Lienert, CM Knapp, JO Sutton… - … Materials Transactions A, 2018 - Springer
Recent work in both 304L and 316L stainless steel produced by additive manufacturing
(AM) has shown that in addition to the unique, characteristic microstructures formed during …
(AM) has shown that in addition to the unique, characteristic microstructures formed during …
Grain refinement of 316L stainless steel through in-situ alloying with Ti in additive manufacturing
Additive manufacturing (AM) is a transformative approach to fabricating metal components in
the industry. However, it is challenging for fusion-based AM to fabricate metallic materials …
the industry. However, it is challenging for fusion-based AM to fabricate metallic materials …
Microstructure and mechanical properties comparison of 316L parts produced by different additive manufacturing processes
M Nastac, RLA Klein - 2017 - repositories.lib.utexas.edu
Abstract 316L stainless steel alloy is well known for its corrosion resistance and combination
of strength and ductility. By using direct metal additive manufacturing, 316L parts can be …
of strength and ductility. By using direct metal additive manufacturing, 316L parts can be …
Recyclability of stainless steel (316 L) powder within the additive manufacturing process
Using recycled powder during the additive manufacturing processes has been a matter of
debate by several research groups and industry worldwide. If not significantly different from …
debate by several research groups and industry worldwide. If not significantly different from …
Using In Situ Neutron Diffraction to Isolate Specific Features of Additively Manufactured Microstructures in 304L Stainless Steel and Identify Their Effects on …
Additive manufacturing of metal components results in unique microstructures with,
necessarily, mechanical properties that are distinct from conventionally produced …
necessarily, mechanical properties that are distinct from conventionally produced …
Steels in additive manufacturing: A review of their microstructure and properties
Today, a large number of different steels are being processed by Additive Manufacturing
(AM) methods. The different matrix microstructure components and phases (austenite, ferrite …
(AM) methods. The different matrix microstructure components and phases (austenite, ferrite …
Additive manufacturing of AISI 316L stainless steel: a review
D D'Andrea - Metals, 2023 - mdpi.com
Additive manufacturing (AM) represents the present and the future of manufacturing
production, thanks to a new design paradigm that allows the customization of components …
production, thanks to a new design paradigm that allows the customization of components …
Additive manufacturing of 17-4 PH stainless steel: post-processing heat treatment to achieve uniform reproducible microstructure
S Cheruvathur, EA Lass, CE Campbell - Jom, 2016 - Springer
4 precipitation hardenable (PH) stainless steel is a useful material when a combination of
high strength and good corrosion resistance up to about 315° C is required. In the wrought …
high strength and good corrosion resistance up to about 315° C is required. In the wrought …
Critical features in the microstructural analysis of AISI 316L produced by metal additive manufacturing
Directed energy deposition (DED) process is recognized as an alternative technology to
produce the complex-shape AISI 316L components. The critical production step in this …
produce the complex-shape AISI 316L components. The critical production step in this …
Investigation of the properties of 316l stainless steel after am and heat treatment
P Petroušek, T Kvačkaj, J Bidulská, R Bidulský… - Materials, 2023 - mdpi.com
Additive manufacturing, including laser powder bed fusion, offers possibilities for the
production of materials with properties comparable to conventional technologies. The main …
production of materials with properties comparable to conventional technologies. The main …