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Magnetic Properties of Nd–Fe–B Sintered Magnets Produced by Reduction-Grain Boundary Diffusion Process with Heavy Rare-Earths Compounds and Ca Metal Vapor

Masaru Uenohara, Zheng Hanlin, Hiroaki Nishio, Ken‐ichi Machida

2020MATERIALS TRANSACTIONS10 citationsDOIOpen Access PDF

Abstract

The grain boundary region of NdFeB sintered magnets were modified by reduction-grain boundary diffusion (r-GBD) process using Heavy Rare-Earths (HRE = Dy or Tb) metal which generated via reduction of HRE compounds such as oxide or fluoride with Ca metal vapor. After modification, magnetic properties were measured accurately by superconducting magnet-based vibrating sample magnetometer (SCM-VSM). The coercivity of DyF3 and TbF3 treated magnets with the assistance of reduction by Ca metal vapor (HcJ = 1451 kA/m and 1778 kA/m, respectively) were effectively enhanced compared to untreated magnets (HcJ = 1003 kA/m) without severe decreasing of remanence value. The resultant coercivity was higher than that of the magnets modified with DyF3 (HcJ = 1319 kA/m) and TbF3 (HcJ = 1580 kA/m) without using any reducing agent such as Ca metal vapor.

Topics & Concepts

Materials scienceMagnetCoercivityRemanenceNeodymium magnetGrain boundaryMetalDiffusionAnalytical Chemistry (journal)Grain boundary diffusion coefficientMagnetometerMetallurgyComposite materialMagnetic fieldMagnetizationCondensed matter physicsMicrostructureThermodynamicsChemistryChromatographyQuantum mechanicsPhysicsMagnetic Properties of AlloysMagnetic properties of thin filmsMagnetic Properties and Applications