NOVel, critical materials free, high Anisotropy phases for permanent MAGnets, by design

NOVel, critical materials free, high Anisotropy phases for permanent MAGnets, by design


Duration 01/04/2016 - 30/09/2019
Funding EU
Program H2020
Logo - European Union

Department for Integrated Sensor Systems

Center for Modeling and Simulating

Principle investigator for the project (Danube University Krems) Univ.-Doz.Dipl.-Ing.Dr. Thomas Schrefl


Kovacs, A.; Fischbacher, J.; Gusenbauer, M.; Oezelt, H.; Herper, H. C.; Vekilova, O. Yu.; Nieves, P.; Arapan, S.; Schrefl, T. (2019). Computational Design of Rare-Earth Reduced Permanent Magnets. Engineering, November 2019: in press

Nieves, P.; Arapan, S.; Maudes-Raedo, J.; Marticorena-Sánchez, R.; Del Brío, N. L.; Kovacs, A.; Echevarria-Bonet, C.; Salazar, D.; Weischenberg, J.; Zhang, H.; Vekilova, O. Yu.; Serrano-López, R.; Barandiaran, J. M.; Skokov, K.; Gutfleisch, O.; Eriksson, O.; Herper, H. C.; Schrefl, T.; Cuesta-López, S. (2019). Database of Novel Magnetic Materials for High-Performance Permanent Magnet Development. Computational Materials Science, 168: 188-202

Vekilova, O. Y.; Fayyazi, B.; Skokov, K. P.; Gutfleisch, O.; Echevarria-Bonet, C.; Barandiarán, J. M.; Kovacs, A.; Fischbacher, J.; Schrefl, T.; Eriksson, O.; Herper, H. C. (2019). Tuning the Magnetocrystalline Anisotropy of Fe3Sn by Alloying. Physical Review B, 99: 024421

Fischbacher, J.; Kovacs, A.; Gusenbauer, M.; Oezelt, H.; Exl, L.; Bance, S.; Schrefl, T. (2018). Micromagnetics of rare-earth efficient permanent magnets. Journal of Physics D: Applied Physics, Vol. 51, no. 19: 193002-193019

Bance, S.; Bittner, F.; Woodcock, T. G.; Schultz, L.; Schrefl, T. (2017). Role of twin and anti-phase defects in MnAl permanent magnets. Acta Materialia, 131: 48-56

Kovacs, A.; Fischbacher, J.; Oezelt, H.; Schrefl, T.; Kaidatzis, A.; Salikhov, R.; Farle, M.; Giannopoulus, G.; Niarchos, D. (2017). Micromagnetic Simulations for Coercivity Improvement Through Nano-Structuring of Rare-Earth-Free L10-FeNi Magnets. IEEE Transactions on Magnetics, 53(11): DOI: 10.1109/TMAG.2017.2701418

Nieves, P.; Arapan, S.; Schrefl, T.; Cuesta-Lopez, S. (2017). Atomistic spin dynamics simulations of the MnAl t-phase and its antiphase boundary. Physical Review B, 96(22): doi:10.1103/PhysRevB.96.224411


Micromagnetic simulation of surface anisotropy effects in SmFe_12-type permanent magnets

JEMS2019 Joint European Magnetic Symposia, Uppsala, Schweden, 26/08/2019

Micromagnetic Simulation of Partially Ordered L1_0 FeNi Permanent Magnets

MANA 2018 - Micromagnetics: Analysis, Numerics, Applications, TU Wien, Resselgasse 4, 1040 Wien, Österreich, 08/11/2018

Simulation of permanent magnets across the length scales

Functional Materials Colloquium, TU Darmstadt, 26/10/2018

Computational design of rare-earth reduced permanent magnets

Rare-earth and future permanent magnets and their applications REPM2018, Beijing, China, 28/08/2018

Micromagnetic Simulation of Partially Ordered L1_0 FeNi Permanent Magnets

21st International Conference on Magnetism (ICM2018) Moscone Center, San Francisco, USA, 16/07/2018

Energy Barriers in Nano-structured Permanent Magnets

Conference on Mathematical Aspects of Materials Science, Portland Oregon, USA, 10/07/2018

Recent advances in micromagnetic modelling of permanent magnets

8th Forum of new materials, Perugia, Italy, 12/06/2018

Activation volume and structural defects in permanent magnets

Future perspectives on novel magnetic materials, Santorini, Greece, 01/06/2018

Micromagnetic Simulation of Partially Ordered L1_0 FeNi Permanent Magnets

Santorini Workshop Future Perspectives on Novel Magnetic Materials, Santorini Palace Hotel, Santorini, Griechenland, 30/05/2018

Microstructure optimization for permanent magnets

MRS Spring Meeting 2018, Phoenix, USA, 03/04/2018

Back to top


To Glossary

This website uses cookies to improve your user experience and for analytical purposes for optimizing our systems, as well Google Maps for the use of depicting maps. By clicking on „OK" or continuing to browse the site, you are agreeing to the use of cookies and Google Maps. More information concerning privacy policy and data protection official.