Coercivity of rapidly quenched Nd60Fe30Al10 alloys

J. Ding; Y. Li; Z. X. Wang

doi:10.1088/0022-3727/32/6/018

Coercivity of rapidly quenched Nd₆₀Fe₃₀Al₁₀ alloys

J. Ding^*
, Y. Li
, Z. X. Wang

^*Corresponding author for this work

National University of Singapore

Research output: Contribution to journal › Article › peer-review

56 Scopus citations

Abstract

High coercivities were obtained in partly amorphous Nd₆₀Fe₃₀Al₁₀ ribbons that had been melt spun at 5 m s^-1 and in a water-quenched rod, whereas low coercivities were obtained in fully amorphous ribbons that had been melt spun at high wheel speeds (>20 m s^-1). High coercivities were measured for the water-quenched and the chill-cast rods. This result indicates that the coercivity of the Nd-Fe-Al alloy is strongly dependent on the quenching rate. The magnetic properties of the water-quenched rod were studied as functions of temperature. The coercivity increased from 318 kA m^-1 at room temperature to 2085 kA m^-1 at liquid nitrogen temperature. The ribbon that had been melt spun at 5 m s^-1 possessed a coercivity of 3266 kA m^-1 (4.1 Tesla) at 78 K. Such high coercivities were attributed to a large local magnetic anisotropy which is probably produced by Nd atoms.

Original language	English
Pages (from-to)	713-716
Number of pages	4
Journal	Journal of Physics D: Applied Physics
Volume	32
Issue number	6
DOIs	https://doi.org/10.1088/0022-3727/32/6/018
State	Published - 21 Mar 1999
Externally published	Yes

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title = "Coercivity of rapidly quenched Nd60Fe30Al10 alloys",

abstract = "High coercivities were obtained in partly amorphous Nd60Fe30Al10 ribbons that had been melt spun at 5 m s-1 and in a water-quenched rod, whereas low coercivities were obtained in fully amorphous ribbons that had been melt spun at high wheel speeds (>20 m s-1). High coercivities were measured for the water-quenched and the chill-cast rods. This result indicates that the coercivity of the Nd-Fe-Al alloy is strongly dependent on the quenching rate. The magnetic properties of the water-quenched rod were studied as functions of temperature. The coercivity increased from 318 kA m-1 at room temperature to 2085 kA m-1 at liquid nitrogen temperature. The ribbon that had been melt spun at 5 m s-1 possessed a coercivity of 3266 kA m-1 (4.1 Tesla) at 78 K. Such high coercivities were attributed to a large local magnetic anisotropy which is probably produced by Nd atoms.",

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T1 - Coercivity of rapidly quenched Nd60Fe30Al10 alloys

AU - Ding, J.

AU - Li, Y.

AU - Wang, Z. X.

PY - 1999/3/21

Y1 - 1999/3/21

N2 - High coercivities were obtained in partly amorphous Nd60Fe30Al10 ribbons that had been melt spun at 5 m s-1 and in a water-quenched rod, whereas low coercivities were obtained in fully amorphous ribbons that had been melt spun at high wheel speeds (>20 m s-1). High coercivities were measured for the water-quenched and the chill-cast rods. This result indicates that the coercivity of the Nd-Fe-Al alloy is strongly dependent on the quenching rate. The magnetic properties of the water-quenched rod were studied as functions of temperature. The coercivity increased from 318 kA m-1 at room temperature to 2085 kA m-1 at liquid nitrogen temperature. The ribbon that had been melt spun at 5 m s-1 possessed a coercivity of 3266 kA m-1 (4.1 Tesla) at 78 K. Such high coercivities were attributed to a large local magnetic anisotropy which is probably produced by Nd atoms.

AB - High coercivities were obtained in partly amorphous Nd60Fe30Al10 ribbons that had been melt spun at 5 m s-1 and in a water-quenched rod, whereas low coercivities were obtained in fully amorphous ribbons that had been melt spun at high wheel speeds (>20 m s-1). High coercivities were measured for the water-quenched and the chill-cast rods. This result indicates that the coercivity of the Nd-Fe-Al alloy is strongly dependent on the quenching rate. The magnetic properties of the water-quenched rod were studied as functions of temperature. The coercivity increased from 318 kA m-1 at room temperature to 2085 kA m-1 at liquid nitrogen temperature. The ribbon that had been melt spun at 5 m s-1 possessed a coercivity of 3266 kA m-1 (4.1 Tesla) at 78 K. Such high coercivities were attributed to a large local magnetic anisotropy which is probably produced by Nd atoms.

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U2 - 10.1088/0022-3727/32/6/018

DO - 10.1088/0022-3727/32/6/018

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JO - Journal of Physics D: Applied Physics

JF - Journal of Physics D: Applied Physics

IS - 6

ER -

Coercivity of rapidly quenched Nd₆₀Fe₃₀Al₁₀ alloys

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