Xuefeng Liao scite author profile

Grain boundary diffusion (GBD) of multiple rare earths has proven effective in enhancing the performance of permanent magnets, whereas the diffusion behaviors are still unclear due to their intricate interactions. In this work, the synergistic effects of three rare earths (Tb, Ce, and La) on the grain boundaries diffusion process are investigated, achieving a high‐performance diffused Nd–Fe–B magnet with the high coercivity of 1822 kA m−1 and thermal stability of −0.447% K−1. This promotion originates from the improved diffusion depth of Tb at specific regions, induced by the coordination effects of Ce and La, as evidenced via electron probe microanalysis and the first‐principles calculations. It thus results in the uniform formation of Tb‐diffused magnetic harden grains, associated with the strongly pinned domain walls, which is further observed directly by in situ Lorentz transmission electron microscopy and reconstructed by micromagnetic simulations. The study provides insight into the role of element GBD mechanism and has promising potential to explore other element systems as diffusion sources for permanent magnets.

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Towards the diffusion source cost reduction for NdFeB grain boundary diffusion process

Zeng

Liu

Zhang

et al. 2020

Journal of Materials Science & Technology

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Microwave one-pot production of ZnO/Fe 3 O 4 /activated carbon composite for organic dye removal and the pyrolysis exhaust recycle

Cheng

Chen

Xia

et al. 2018

Journal of Cleaner Production

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Maximizing the hard magnetic properties of melt-spun Ce–La–Fe–B alloys

Liao

Zhang

et al. 2019

J Mater Sci

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Xuefeng Liao

Influences of element segregation on the magnetic properties in nanocrystalline Nd-Ce-Fe-B alloys

Understanding the Role of Element Grain Boundary Diffusion Mechanism in Nd–Fe–B Magnets

Towards the diffusion source cost reduction for NdFeB grain boundary diffusion process

Microwave one-pot production of ZnO/Fe 3 O 4 /activated carbon composite for organic dye removal and the pyrolysis exhaust recycle

Maximizing the hard magnetic properties of melt-spun Ce–La–Fe–B alloys

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