Characteristics of a Superconducting Magnetic Bearing
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概要
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Both repulsive and attractive forces caused by the pinning state in which the magnetic field is trapped in a superconductor are capable of noncontact steady support of an object in all directions. In this paper, we describe the levitation force characteristics, the force relaxation caused by flux creep, and the bearing loss under high rotational speed, of a disk-type superconducting bearing at a temperature of 77K, as well as the rotational characteristics of pinning-type superconducting radial bearings. The bearing consists of Y_1Ba_2Cu_3O_x(YBCO)oxide superconductors fabricated using quench melt growth(QMG)process and rare-earth permanent magnets. The rotor in which a permanent magnet is supported by the pinning force in the superconductor can be safely operated at high rotational speeds.
- 一般社団法人日本機械学会の論文
- 1997-06-15
著者
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Ishii Itaru
Energy Technology Division Electrotechnical Laboratory
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Okano Makoto
Energy Technology Division Electrotechnical Laboratory
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Fuchino Shuichiro
Energy Technology Division Electrotechnical Laboratory
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Agatsuma Koh
Energy Technology Division Electrotechnical Laboratory
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TAMADA Noriharu
Energy Technology Division, Electrotechnical Laboratory
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ONISHI Toshitada
Hokkaido University
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Tamada Noriharu
Energy Technology Division Electrotechnical Laboratory
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