Structure and Magnetic Properties of Nd–Fe–B Magnets Prepared from DyH2-Containing Powder Mixtures

Structure and Magnetic Properties of Nd–Fe–B Magnets Prepared from DyH2-Containing Powder Mixtures

Sintered Nd–Pr–Dy–Fe–B permanent magnets were prepared by a powder blending technique using mixtures consisting of strip-casting alloy (wt %) 24.0 Nd, 6.5 Pr, 0.5 Dy, 1.0 B, 0.2 Al, 65.8 Fe and 2 wt % DyH 2 dysprosium hydride. After optimum heat treatment of magnets at 500°C for 1 h, the following h...

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Bibliographic Details
Published in:Inorganic materials : applied research Vol. 9; no. 3; pp. 509 - 516
Main Authors: Burkhanov, G. S., Kolchugina, N. B., Lukin, A. A., Koshkidko, Yu. S., Cwik, J., Skotnicova, K., Sitnov, V. V.
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 2018
Springer Nature B.V
Subjects:
Annealing
Casting alloys
Chemistry
Chemistry and Materials Science
Coercivity
Composite Materials
Critical field (superconductivity)
Dysprosium
Heat treatment
Hydrides
Hysteresis
Industrial Chemistry/Chemical Engineering
Inorganic Chemistry
Iron
Magnetic properties
Materials Science
Microstructure
Neodymium
Permanent magnets
Phase composition
Powder blending
Praseodymium
Remanence
Restoration
Scanning electron microscopy
Sintering (powder metallurgy)
Strip casting
X-ray diffraction
grain-boundary diffusion
low-temperature treatment
dysprosium hydride
coercive force
Nd–Fe–B permanent magnets
strip-casting
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Summary:Sintered Nd–Pr–Dy–Fe–B permanent magnets were prepared by a powder blending technique using mixtures consisting of strip-casting alloy (wt %) 24.0 Nd, 6.5 Pr, 0.5 Dy, 1.0 B, 0.2 Al, 65.8 Fe and 2 wt % DyH 2 dysprosium hydride. After optimum heat treatment of magnets at 500°C for 1 h, the following hysteretic characteristics were reached: remanence B r = 1.29 T; coercive force j H c = 1309 kA/m; critical field H k = 1220 kA/m; and the maximum energy product ( BH ) max = 322 kJ/m 3 . The characteristic peculiarity of the magnets prepared from hydride-containing power mixtures is the stability of hysteretic properties in the course of subsequent stepped annealings or progressive heatings at temperatures of 250–500°C for, in total, more than 20 h. Conditions of low-temperature annealings resulting in the degradation and subsequent restoration of hysteretic properties of magnets are determined. The evolution of the microstructure and phase composition of magnets in the course of heat treatments was studied by X-ray diffraction analysis and scanning electron microscopy, and the correlation between the structural changes and hysteretic properties of magnets is discussed.
ISSN:2075-1133
2075-115X
DOI:10.1134/S2075113318030115