17 TESLA SUPERCONDUCTING MAGNET WITH MULTIFILAMENTARY SUPERCONDUCTORS.

M. Takeo; K. Funaki; S. Sato; K. Yamafuji; M. Iwakuma; M. Hiramatsu; K. Matsumoto; M. Hamada

17 TESLA SUPERCONDUCTING MAGNET WITH MULTIFILAMENTARY SUPERCONDUCTORS.

M. Takeo, K. Funaki, S. Sato, K. Yamafuji, M. Iwakuma, M. Hiramatsu, K. Matsumoto, M. Hamada

エネルギー応用システム工学

研究成果: Contribution to journal › Article › 査読

抄録

A superconducting magnet with an inner diameter of 110 mm, outside diameter of 720 mm, and height of 750 mm, wound from multifilamentary superconductors using a react-and-wind method, has been constructed. The authors succeeded in energizing this magnet up to 16. 2 Tesla and 6. 3 MJ at 4. 2 K without a quench and further fabricated an insert booster magnet to get a higher magnetic field. This insert booster magnet was wound from a Nb//3Sn( plus Ti) conductor in a wind-and-react method; the dimensions were only 34-mm inner bore, 98-mm outside diameter, and 192-mm in height. When this magnet was installed in the abovementioned magnet, the whole assembly produced 17. 1 Tesla at 4. 2 K without quenching, which is a new record for a magnet made of multifilamentary conductors.

本文言語	英語
ジャーナル	IEEE Transactions on Magnetics
巻	MAG-23
号	2
出版ステータス	出版済み - 1 1 1987

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Electrical and Electronic Engineering

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引用スタイル

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abstract = "A superconducting magnet with an inner diameter of 110 mm, outside diameter of 720 mm, and height of 750 mm, wound from multifilamentary superconductors using a react-and-wind method, has been constructed. The authors succeeded in energizing this magnet up to 16. 2 Tesla and 6. 3 MJ at 4. 2 K without a quench and further fabricated an insert booster magnet to get a higher magnetic field. This insert booster magnet was wound from a Nb//3Sn( plus Ti) conductor in a wind-and-react method; the dimensions were only 34-mm inner bore, 98-mm outside diameter, and 192-mm in height. When this magnet was installed in the abovementioned magnet, the whole assembly produced 17. 1 Tesla at 4. 2 K without quenching, which is a new record for a magnet made of multifilamentary conductors.",

author = "M. Takeo and K. Funaki and S. Sato and K. Yamafuji and M. Iwakuma and M. Hiramatsu and K. Matsumoto and M. Hamada",

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AU - Takeo, M.

AU - Funaki, K.

AU - Sato, S.

AU - Yamafuji, K.

AU - Iwakuma, M.

AU - Hiramatsu, M.

AU - Matsumoto, K.

AU - Hamada, M.

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