IEEE Trans. Appl. Supercond.
 2019
DOI: 10.1109/tasc.2019.2898921
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Performance of Polyvinyl Formal Insulated Cu–Nb/Nb3Sn Wires for React-and-Wind Process

M. Sugimoto
1
,
H. Tsubouchi
2
,
Kota Katayama
3
et al.
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Cited by 5 publications
(2 citation statements)
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“…事前曲げ歪印加処理 [6][7][8][9] は,R&W 法コイル巻線において, 予歪効果 (Pre-strain effect) 23) による超電導特性の向上を工業 的に可能にした [10][11][12][13][14][15][16][17][18][19][20][21] 12,13,15) . Note: the data under axial tensile stress in LK224 is for heat treatment condition D (575 ℃×100 hr + 670 ℃×50 hr) 13,19,20) .…”
Section: 事前曲げ歪印加処理unclassified
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Development Progress and Future Prospects of Cu-Nb Reinforced Nb<sub>3</sub>Sn Wires

SUGIMOTO
1
,
Tsubouchi
2
,
Taniguchi
3
et al. 2023
TEION KOGAKU
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“…事前曲げ歪印加処理 [6][7][8][9] は,R&W 法コイル巻線において, 予歪効果 (Pre-strain effect) 23) による超電導特性の向上を工業 的に可能にした [10][11][12][13][14][15][16][17][18][19][20][21] 12,13,15) . Note: the data under axial tensile stress in LK224 is for heat treatment condition D (575 ℃×100 hr + 670 ℃×50 hr) 13,19,20) .…”
Section: 事前曲げ歪印加処理unclassified
“…加処理 (プリベンド処理: Pre-bending treatment) [6][7][8][9] を施すこ とにより,高応力下での超電導特性を向上させた [10][11][12][13] 。 その後,我々は,R&W 法に限らず W&R 法が使用される 多様な Nb 3 Sn 超電導コイルにおける要求特性を実現するた めに,Cu-Nb/Nb 3 Sn 線材の高臨界電流密度化,高強度化, 平角化,エナメル絶縁,小径曲げ,導体化における要素技 術開発を進めてきた [14][15][16][17][18][19][20][21][22] 。本報告では,Cu-Nb/Nb 3 Sn 線材の 開発進捗と今後の展望について解説する。 2.Nb-rod 法 Cu-Nb 強化型 Nb 3 Sn 線材 2. 1 Cu-Nb 強化 Nb 3 Sn 線材の基本構造 13,15) Nb-rod 法 Cu-Nb/Nb 3 Sn 線は,Fig.…”
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Development Progress and Future Prospects of Cu-Nb Reinforced Nb<sub>3</sub>Sn Wires

SUGIMOTO
1
,
Tsubouchi
2
,
Taniguchi
3
et al. 2023
TEION KOGAKU
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Evaluation of Various Nb-Rod-Method Cu-Nb/Nb3Sn Wires Designed for Practical React-and-Wind Coils

Sugimoto
1
,
Tsubouchi
2
,
Hideki
3
et al. 2020
IEEE Trans. Appl. Supercond.
7
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Development of High-Performance Cu-Nb/Nb3Sn Wires for Various High Field Magnets

Sugimoto
1
,
Hideki
2
,
Asami
3
et al. 2021
IEEE Trans. Appl. Supercond.
11
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