简介概要

Regeneration of waste sintered Nd-Fe-B magnets to fabricate anisotropic bonded magnets

来源期刊:JOURNAL OF RARE EARTHS2015年第7期

论文作者:李现涛 岳明 ZAKOTNIK Miha 刘卫强 张东涛 左铁镛

文章页码:736 - 739

摘    要:The waste sintered Nd-Fe-B magnets were regenerated as magnetic powders via manually crushing(MC) or hydrogen decrepitation(HD) to fabricate anisotropic bonded magnets. Effect of size distribution on the magnetic properties of the regenerated magnetic MC and HD powders was investigated. For the MC powders, as the particle size decreased, the remanence(Br) increased first, and then decreased again, while the coercivity(Hci) dropped monotonically. The powders with particle size in the range of 200–450 μm possessed the best magnetic properties of Br of 1.22 T and Hci of 875.6 k A/m. The corresponding bonded magnet exhibited magnetic properties of Br of 0.838 T, Hci of 940.9 k A/m, and(BH)max of 91.4 k J/m3, respectively. On the other hand, the HD powders with particle size range of 200-450 μm bore the best magnetic properties of Br of 1.24 T and Hci of 860.4 k A/m. Compared with magnetic properties of the waste magnet, the powders retained 93.9% of Br and 70.0% of Hci, respectively. The bonded magnet produced from HD powders possessed Br of 0.9 T, Hci of 841.4 k A/m, and(BH)max of 111.6 k J/m3, indicating its good potential in practical applications.

详情信息展示

Regeneration of waste sintered Nd-Fe-B magnets to fabricate anisotropic bonded magnets

李现涛,岳明,ZAKOTNIK Miha,刘卫强,张东涛,左铁镛

College of Materials Science and Engineering, Beijing University of Technology

摘 要:The waste sintered Nd-Fe-B magnets were regenerated as magnetic powders via manually crushing(MC) or hydrogen decrepitation(HD) to fabricate anisotropic bonded magnets. Effect of size distribution on the magnetic properties of the regenerated magnetic MC and HD powders was investigated. For the MC powders, as the particle size decreased, the remanence(Br) increased first, and then decreased again, while the coercivity(Hci) dropped monotonically. The powders with particle size in the range of 200–450 μm possessed the best magnetic properties of Br of 1.22 T and Hci of 875.6 k A/m. The corresponding bonded magnet exhibited magnetic properties of Br of 0.838 T, Hci of 940.9 k A/m, and(BH)max of 91.4 k J/m3, respectively. On the other hand, the HD powders with particle size range of 200-450 μm bore the best magnetic properties of Br of 1.24 T and Hci of 860.4 k A/m. Compared with magnetic properties of the waste magnet, the powders retained 93.9% of Br and 70.0% of Hci, respectively. The bonded magnet produced from HD powders possessed Br of 0.9 T, Hci of 841.4 k A/m, and(BH)max of 111.6 k J/m3, indicating its good potential in practical applications.

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