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Shuhan Dong

Beijing University of Technology

100 Ping Le Yuan

Chaoyang District

Beijing, 100020

China

SCHOLARLY PAPERS

1

DOWNLOADS

17

TOTAL CITATIONS

0

Scholarly Papers (1)

1.

Complete Recovery of Coercivity in Regenerated Nd-Fe-B Magnets Through Microstructure Design with Enhanced Diffusion

Number of pages: 18 Posted: 21 May 2025
Beijing University of Technology, Beijing University of Technology, Beijing University of Technology, Beijing University of Technology, Beijing University of Technology, Beijing University of Technology, Beijing University of Technology, Beijing University of Technology - Key Laboratory of Advanced Functional Materials, Physis Motion Control Solution Wuhan Co., Ltd., Physis Motion Control Solution Wuhan Co., Ltd., National Rare Earth Functional Materials Innovation Center, National Rare Earth Functional Materials Innovation Center, National Rare Earth Functional Materials Innovation Center, National Rare Earth Functional Materials Innovation Center and National Rare Earth Functional Materials Innovation Center
Downloads 17 (1,491,251)

Abstract:

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Waste sintered Nd-Fe-B, Regenerative magnet, Dual alloy, Recovery mechanism