Hydrogenation effect on the hysteresis properties of rapidly quenched Nd–Ho–Fe–Co–B alloys

Hydrogenation effect on the hysteresis properties of rapidly quenched Nd–Ho–Fe–Co–B alloys

► Hysteresis properties of rapidly quenched (RQ) Nd–Fe–B alloy and its hydride. ► Magnetic anisotropy and a grain size are the key factors affecting the coercivity. ► Existing magnetic phase with high local coercivity in RQ alloys at T = 4.2 K. The hydrogenation effect on the hysteresis properties o...

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Veröffentlicht in:Journal of alloys and compounds 2011-09, Vol.509, p.S835-S838
Hauptverfasser: Tereshina, I., Kudrevatykh, N., Tereshina, E., Burkhanov, G., Chistyakov, O., Grechishkin, R., Salamova, A., Verbetsky, V.
Format: Artikel
Sprache:eng
Schlagworte:
Alloys
Coercive field
Coercive force
Hydrogenation
Hysteresis
Magnetic hysteresis
Magnetization
Melt spinning
Quenching (cooling)
Rare earth metals
Rare earth—iron compounds
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container_end_page S838
container_issue
container_start_page S835
container_title Journal of alloys and compounds
container_volume 509
creator Tereshina, I.
Kudrevatykh, N.
Tereshina, E.
Burkhanov, G.
Chistyakov, O.
Grechishkin, R.
Salamova, A.
Verbetsky, V.
description ► Hysteresis properties of rapidly quenched (RQ) Nd–Fe–B alloy and its hydride. ► Magnetic anisotropy and a grain size are the key factors affecting the coercivity. ► Existing magnetic phase with high local coercivity in RQ alloys at T = 4.2 K. The hydrogenation effect on the hysteresis properties of rapidly quenched (RQ) (Nd 0.55Ho 0.45) 2.7(Fe 0.8Co 0.2) 14B 1.2 compound obtained by melt-spinning is studied. A comparative study of RQ alloy and its hydride (Nd 0.55Ho 0.45) 2.7(Fe 0.8Co 0.2) 14B 1.2H 2.5 has shown that hydrogenation resulted in the increase of magnetization without significant effect on the Curie temperature. In contrast to hydrogen-free alloy having a maximum on the H c( T) curve, the H c of the hydrogen-charged compound increased monotonously with decreasing temperature. Among the factors affecting H c in hydrogenated sample are the increase of the grain size of the crystalline phase and the decrease of both the iron and the rare earth contributions to the magnetocrystalline anisotropy. High-field hysteretic distortions of the magnetization/demagnetization curves of RQ and RQ + hydrogen samples are observed at 4.2 K in fields up to 90 kOe indicating the existence of a magnetic phase with very high local coercivity.
doi_str_mv 10.1016/j.jallcom.2010.11.081
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The hydrogenation effect on the hysteresis properties of rapidly quenched (RQ) (Nd 0.55Ho 0.45) 2.7(Fe 0.8Co 0.2) 14B 1.2 compound obtained by melt-spinning is studied. A comparative study of RQ alloy and its hydride (Nd 0.55Ho 0.45) 2.7(Fe 0.8Co 0.2) 14B 1.2H 2.5 has shown that hydrogenation resulted in the increase of magnetization without significant effect on the Curie temperature. In contrast to hydrogen-free alloy having a maximum on the H c( T) curve, the H c of the hydrogen-charged compound increased monotonously with decreasing temperature. Among the factors affecting H c in hydrogenated sample are the increase of the grain size of the crystalline phase and the decrease of both the iron and the rare earth contributions to the magnetocrystalline anisotropy. 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The hydrogenation effect on the hysteresis properties of rapidly quenched (RQ) (Nd 0.55Ho 0.45) 2.7(Fe 0.8Co 0.2) 14B 1.2 compound obtained by melt-spinning is studied. A comparative study of RQ alloy and its hydride (Nd 0.55Ho 0.45) 2.7(Fe 0.8Co 0.2) 14B 1.2H 2.5 has shown that hydrogenation resulted in the increase of magnetization without significant effect on the Curie temperature. In contrast to hydrogen-free alloy having a maximum on the H c( T) curve, the H c of the hydrogen-charged compound increased monotonously with decreasing temperature. Among the factors affecting H c in hydrogenated sample are the increase of the grain size of the crystalline phase and the decrease of both the iron and the rare earth contributions to the magnetocrystalline anisotropy. 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The hydrogenation effect on the hysteresis properties of rapidly quenched (RQ) (Nd 0.55Ho 0.45) 2.7(Fe 0.8Co 0.2) 14B 1.2 compound obtained by melt-spinning is studied. A comparative study of RQ alloy and its hydride (Nd 0.55Ho 0.45) 2.7(Fe 0.8Co 0.2) 14B 1.2H 2.5 has shown that hydrogenation resulted in the increase of magnetization without significant effect on the Curie temperature. In contrast to hydrogen-free alloy having a maximum on the H c( T) curve, the H c of the hydrogen-charged compound increased monotonously with decreasing temperature. Among the factors affecting H c in hydrogenated sample are the increase of the grain size of the crystalline phase and the decrease of both the iron and the rare earth contributions to the magnetocrystalline anisotropy. High-field hysteretic distortions of the magnetization/demagnetization curves of RQ and RQ + hydrogen samples are observed at 4.2 K in fields up to 90 kOe indicating the existence of a magnetic phase with very high local coercivity.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.jallcom.2010.11.081</doi></addata></record>
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source Elsevier ScienceDirect Journals Complete
subjects Alloys
Coercive field
Coercive force
Hydrogenation
Hysteresis
Magnetic hysteresis
Magnetization
Melt spinning
Quenching (cooling)
Rare earth metals
Rare earth—iron compounds
title Hydrogenation effect on the hysteresis properties of rapidly quenched Nd–Ho–Fe–Co–B alloys
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