Forschungsbericht 2023
Industrialisierung smarter Werkstoffe M-27
Leitung: Kelbassa, Ingomar
Oberingenieur: Herzog, Dirk
Gründungsdatum: 1.4.2022
Institut auf TORE
Institutswebsite
The Institute for Industrialization of Smart Materials (ISM) is engaged in research and development of “smart” materials and their transfer into industrial products. Such materials are used in particular for adaptive, self-regulating system components, which can be realized, among other things, with the help of additive manufacturing (AM). The director of the institute, Professor Kelbassa, is also the director of the Fraunhofer Institute for Additive Manufacturing Technologies IAPT in Hamburg-Bergedorf. Further research focuses include, for example, function and sensor integration with the aid of AM.
Publikationen
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Influence of temperature and beam size on weld track shape in laser powder bed fusion of pure copper using near-infrared laser system - Journal Article
Bauch, Alexander; Herzog, Dirk
Journal of Laser Applications 36 (1): 012007 (2023-12-14)
Open Access | Publisher DOI
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Development and assessment of a methodology for abstraction of topology optimization results to enable the substitution of optimized beams - Journal Article
Röver, Tim; Bader, Maximilian; Asami, Mohammad Karim; Emmelmann, Claus; Kelbassa, Ingomar
Journal of Laser Applications 35: 042061 (2023-11-03)
Open Access | Publisher DOI
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Predictive modeling of lattice structure design for 316L stainless steel using machine learning in the L-PBF process - Journal Article
Asami, Mohammad Karim; Roth, Sebastian; Röver, Tim; Herzog, Dirk; Emmelmann, Claus; Krukenberg, Michel
Journal of Laser Applications 35 (4): 042046 (2023-10-13)
Open Access
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Lean Additive Manufacturing of Titanium Parts in Larger Dimensions and Volumes - Conference Presentation
Herzog, Dirk
World Titanium Conference (2023)
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Development of a Hydrogen Metal Hydride Storage Produced by Additive Manufacturing - Conference Paper
Röver, Tim; Roth, Sebastian; Hoffmann, Tom; Lars Baetcke; Herzog, Dirk
27th Conference Low-Temperature Electrolysers, Fuel Cells & H2 Processing (EFCF 2023)
Forschungsdaten
Projekte