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- Title
A Novel Magnetic Hardening Mechanism for Nd‐Fe‐B Permanent Magnets Based on Solid‐State Phase Transformation.
- Authors
Schäfer, Lukas; Skokov, Konstantin; Maccari, Fernando; Radulov, Iliya; Koch, David; Mazilkin, Andrey; Adabifiroozjaei, Esmaeil; Molina‐Luna, Leopoldo; Gutfleisch, Oliver
- Abstract
Permanent magnets based on neodymium‐iron‐boron (Nd‐Fe‐B) alloys provide the highest performance and energy density, finding usage in many high‐tech applications. Their magnetic performance relies on the intrinsic properties of the hard‐magnetic Nd2Fe14B phase combined with control over the microstructure during production. In this study, a novel magnetic hardening mechanism is described in such materials based on a solid‐state phase transformation. Using modified Nd‐Fe‐B alloys of the type Nd16Febal‐x‐y‐zCoxMoyCuzB7 for the first time it is revealed how the microstructural transformation from the metastable Nd2Fe17Bx phase to the hard‐magnetic Nd2Fe14B phase can be thermally controlled, leading to an astonishing increase in coercivity from ≈200 kAm−1 to almost 700 kAm−1. Furthermore, after thermally treating a quenched sample of Nd16Fe56Co20Mo2Cu2B7, the presence of Mo leads to the formation of fine FeMo2B2 precipitates, in the range from micrometers down to a few nanometers. These precipitates are responsible for the refinement of the Nd2Fe14B grains and so for the high coercivity. This mechanism can be incorporated into existing manufacturing processes and can prove to be applicable to novel fabrication routes for Nd‐Fe‐B magnets, such as additive manufacturing.
- Subjects
SOLID-state phase transformations; PERMANENT magnets; MANUFACTURING processes; COERCIVE fields (Electronics); ENERGY density
- Publication
Advanced Functional Materials, 2023, Vol 33, Issue 4, p1
- ISSN
1616-301X
- Publication type
Article
- DOI
10.1002/adfm.202208821