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MM: Fachverband Metall- und Materialphysik
MM 17: Poster Ib
MM 17.1: Poster
Montag, 18. März 2024, 18:30–20:30, Poster F
Implementation of Experimental Results in an Ontology of Magnetocaloric Materials Research — Simon Bekemeier1, Moritz Blum2, Luana Caron3,4, Alisa Chirkova1, Philipp Cimiano2, Basil Ell2, Inga Ennen3, Michael Feige1, Maik Gaerner3, Thomas Hilbig1, Andreas Hütten3, Günter Reiss3, Tapas Samanta3, Sonja Schöning1, Christian Schröder1,3, Lennart Schwan1,3, and •Martin Wortmann3 — 1University of Applied Sciences and Arts, Bielefeld, Germany — 2Faculty of Technology and CITEC, Bielefeld University, Bielefeld, Germany — 3Faculty of Physics, Bielefeld University, Bielefeld, Germany — 4Helmholtz-Zentrum Berlin für Materialien und Energie, Berlin, Germany
Magnetic refrigeration based on the magnetocaloric effect is an environmentally friendly alternative to compression based cooling. The cooling effect is based on heat release or uptake during magnetic phase-transitions of a magnetocaloric material. The decades-long search for alloys suitable for mass application could be made much more efficient by digitizing the scientific process chain. The project DiProMag seeks to digitalize the process chain from theory, simulation and experiment to prototypical applications in an ontology. Here, we show how experimental results are implemented in a hierarchical ontology. Various Heusler alloys have been investigated as thin films, nanostructures, and bulk material. Different approaches have been developed for these materials to be integrated into functional prototypes. The goal is to standardize data evaluation and reporting to make it more accessible and comparable across different fields within the community.
Keywords: ontology; magnetocaloric; data representation