Micromagnetic Simulations for Coercivity Improvement through Nano-Structuring of Rare-Earth Free L10-FeNi Magnets
Abstract
In this work we investigate the potential of tetragonal L10 ordered FeNi as candidate phase for rare earth free permanent magnets taking into account anisotropy values from recently synthesized, partially ordered FeNi thin films. In particular, we estimate the maximum energy product (BH)max of L10-FeNi nanostructures using micromagnetic simulations. The maximum energy product is limited due to the small coercive field of partially ordered L10-FeNi. Nano-structured magnets consisting of 128 equi-axed, platelet-like and columnar-shaped grains show a theoretical maximum energy product of 228 kJ/m3, 208 kJ/m3, 252 kJ/m3, respectively.
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