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Anisotropic grain boundary diffusion process in textured sintered and hot-deformed Nd-Fe-B magnets

Tim Helbig, Andreas Abel, Simon Sawatzki, Thorsten Gröb, Imants Dirba, Semih Ener, Oliver Gutfleisch

2024Journal of Alloys and Compounds12 citationsDOIOpen Access PDF

Abstract

A systematic study of the dependence of the Grain Boundary Diffusion Process (GBDP) on texture using Dy and Dy-Nd-Cu in microcrystalline sintered and nanocrystalline hot deformed Nd-Fe-B magnets was performed. Diffusion parallel or perpendicular to the texture direction, the nominal c-axes orientation in the polycrystals, was investigated. By measuring thin slices from the respective samples, coercivity as a function of (i) magnet thickness and (ii) diffusion depth was obtained showing that GBDP efficiency depends on the diffusion direction, diffusion source as well as the grain morphology originating from the magnet production route. In nanocrystalline hot deformed magnets perpendicular diffusion is superior due to the platelet-like shape of the grains. Microcrystalline sintered magnets consist of equiaxed grains hence the main effects originate in anisotropic lattice diffusion and pole surface hardening. The magnetic properties are correlated with a comprehensive analysis of microstructure, chemistry and magnetization reversal.

Topics & Concepts

Materials scienceMagnetCoercivityNanocrystalline materialGrain boundary diffusion coefficientEquiaxed crystalsMicrocrystallineGrain boundaryCondensed matter physicsTexture (cosmology)MicrostructureLattice diffusion coefficientAnisotropyGrain sizeMagnetizationMetallurgyComposite materialEffective diffusion coefficientCrystallographyMagnetic fieldOpticsNanotechnologyChemistryMedicinePhysicsImage (mathematics)Quantum mechanicsRadiologyComputer scienceArtificial intelligenceMagnetic resonance imagingMagnetic Properties of AlloysMagnetic properties of thin filmsMagnetic Properties and Applications
Anisotropic grain boundary diffusion process in textured sintered and hot-deformed Nd-Fe-B magnets | Litcius