MAGNETIC ANISOTROPY OF AS-QUENCHED AMORPHOUS ALLOY RIBBONS

Acta Metall Sin

1991, Vol. 27

Issue (3): 121-125 DOI:

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MAGNETIC ANISOTROPY OF AS-QUENCHED AMORPHOUS ALLOY RIBBONS

XIONG Xiangyuan;HE Kaiyuan Northeast University of Technology; Shenyang

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XIONG Xiangyuan;HE Kaiyuan Northeast University of Technology; Shenyang. MAGNETIC ANISOTROPY OF AS-QUENCHED AMORPHOUS ALLOY RIBBONS. Acta Metall Sin, 1991, 27(3): 121-125.

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Abstract The in-plane magnetic anisotropy of as-quenched Fe-base, FeNi-baseand Co-base amorphous alloy ribbons has been studied. The variation of anisotropywith stress relief annealing and the magnetization square dependence on anisotropyconstant were determined. It was found that the in-plane magnetic anisotropy con-sists of two components, i. e., one related to the coupling between magnetostrictionand stress, and the other originated from surface shape effect.

Key words: magnetic anisotropy amorphous alloy Fe-base alloy FeNi-base alloy Co-base alloy

Received: 18 March 1991

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1 Fujimori H. In: Luborsky F E ed, Amorphous Metallic Alloys, Vol. Ⅰ, London: Butterworths, 1983: 300--316
2 Morita H, Fujimori H, Obi Y. Appl Phys, 1979; 20: 125--127
3 Takahashi M. Kim C O. Jpn J Appl Phys, 1977; 16: 2061--2062
4 Takahashi M, Ishio S. Jpn J Appl Phys, 1977; 16: 2273--2274
5 Takahashi M, Miyazaki T. Jpn J Appl Phys, 1979; 18: 743--752
6 Miyazaki T, Takahashi M. Jpn J Appl Phys, 1978; 17: 1755--1763
7 Morita H, Obi Y, Fujimori H. In: Steeb S, Warlimont H eds., Rapidly Quenched Metals. Vol. Ⅱ. Amsterdam: North-Holland, 1985: 1283
8 Luborsky F E. Becker J J. McCary R O. IEEE Trans Magn. 1975; MAG-11: 1644
9 Becker J J. AIP Conf Proc, 1975; 29: 204
10 林肇华,戴道生.物理学报,1982;31:871--881
11 Osborn J A. Phys Rev, 1945; 67: 351--357

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