Copper Composites and Laser Sintering: Novel Hybridization Method for 3D Printed Electronics
Paper published to Wiley Online Library 4 April 2023 https://onlinelibrary.wiley.com/doi/10.1002/admt.202201900
2023
Design and Fabrication of a High-Performance Heat Exchanger Using an Optimized Three-Dimensional Surface Structure Through Additive Manufacturing
Paper published to Georgia Southern Commons Spring 2023 https://digitalcommons.georgiasouthern.edu/cgi/viewcontent.cgi?article=3832&context=etd
Application of Composite Filament with the Addition of Metallic Powders in 3D Printing
“The aim of this experimental research was to 3D-print a filament based on PLA plastic with a metallic powder. The filament contained approximately 80 – 90 % of copper powder. The base component of the filament is thermoplastic PLA, a polymer belonging to the group of aliphatic polyesters. Composites based on PLA and powders have
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Collaboration Agreement with the University of Pécs
The Virtual Foundry and University of Pécs sign Collaboration MOU Stoughton, Wisconsin and Pécs, Hungary: The Virtual Foundry today announced a new partnership with University of Pécs 3D Printing and Visualization Centre. This partnership will establish a long-term cooperation for 3D printing material development. “We are so pleased to be expanding the global footprint of
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Indirect Induction Sintering of Metal Parts Produced through Material Extrusion Additive Manufacturing
Paper published to MDPI 16 January 2023 https://www.mdpi.com/1996-1944/16/2/885
Overview of Debinding Methods For Parts Manufactured Using Powder Material Extrusion
“Material extrusion additive manufacturing (MEAM) is a common family of additive manufacturing processes based on the selective extrusion of a molten material in layers to build solid geometry. One of the emerging processes within this group is powder material extrusion (PME); in theory, it is based on the very common material extrusion (per ISO/ASTM 52900) process but uses modified
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