Ключевые слова: MRI magnets, HTS, REBCO, tapes, design, design parameters, portable unit, cryogenic systems, nitrogen solid, cooling technology
Voccio J., Favazza C.J., Allen C., Tetreault N., Munson L., Nedbal V., Weekes-Tulloch A., Rueckert F.J., Curtsmith P., Boyle J., Franchi M.
Ключевые слова: NMR magnet, tapes, mechanical properties, stress effects, strain effects, HTS, Bi2212, coils, measurement technique, cryogenic systems, nitrogen solid, measurement setup
Ключевые слова: Maglev system, propulsion system, design, motors, HTS, GdBCO, magnets permanent, comparison, cryogenic systems, nitrogen solid, winding configurations, model small-scale
Ключевые слова: switches, cooling technology, Maglev system, HTS, REBCO, magnets, cryogenic systems, nitrogen solid, prototype, design parameters, fabrication, thermal properties, cryocoolers
Tomsic M., Kim J.H., Choi S., Dou S.X., Xu J., Hossain M.S., Shahabuddin M., Gajda D., Ma Z., Patel D., Mustapic M., Qiu W., Knott J.C., Yamauchi Y.
Ключевые слова: MRI magnets, MgB2, persistent current mode, nitrogen solid, HTS, Bi2223, comparison, coils, design parameters, joints superconducting , current distribution, review
Ключевые слова: insulating medium, cryogenic systems, nitrogen solid, resistance, review, breakdown characteristics
Ключевые слова: power equipment, cables, termination, cryogenic systems, nitrogen solid, thermal stability, HTS, modeling, numerical analysis, experimental results
Ключевые слова: HTS, magnets, cooling technology, heat exchanger, nitrogen solid, conduction cooled systems, experimental results
Tomsic M., Kim J.H., Choi S., Dou S.X., Rindfleisch M., Hong J., Kobayashi H., Maeda M., Hossain M.S., Shahabuddin M., Ma Z., Patel D., See K.W., Kim S.J., Park J.Y., Qiu W.
Ключевые слова: cryogenic systems, nitrogen solid, foams, experimental results, fabrication
Ключевые слова: MgB2, bulk, levitation performance, nitrogen solid, cryogenic systems, bearing magnetic, fabrication, heat exchanger, design
Ключевые слова: nitrogen solid, cooling technology, cryostability, heat capacity, experimental results
Ключевые слова: cryogenic systems, nitrogen solid, NMR magnet, MRI magnets, LTS, Nb3Sn, MgB2, NbTi, HTS, YBCO, bulk, rings, heat capacity, neon, argon
Ключевые слова: nitrogen liquid , nitrogen solid, phase composition, measurement setup, pressure drop, experimental results, tubes, friction
Ключевые слова: HTS, YBCO, coated conductors, stabilizing layers, quench properties, recovery characteristics, nitrogen solid, heat capacity, cryogenic systems, conduction cooled systems, overcurrent, critical caracteristics, current-voltage characteristics, thermal stability, stability, experimental results
Ключевые слова: patents, magnets, MRI magnets, medical applications, nitrogen solid, design, HTS, bulk
Ключевые слова: SMES, cryogenic systems, cryocoolers, design, test results, nitrogen solid, HTS, Bi2223, coils pancake, thermal stability, power equipment
Ключевые слова: HTS, power equipment, refrigerator, nitrogen solid, neon condensed, cooling technology, cryogenic systems, thermal performance
Ключевые слова: HTS, cooling technology, nitrogen solid, insulating medium, breakdown characteristics, experimental results
Ключевые слова: HTS, tapes, Bi2223/Ag, nitrogen solid, thermal stability, heat transfer, impregnation, cryocoolers, thermal conductivity, experimental results
Ключевые слова: cooling technology, HTS, YBCO, coated conductors, FCL resistive, quench, test results, nitrogen solid, recovery characteristics, power equipment
Ключевые слова: HTS, Bi2223, tapes, magnets, nitrogen solid, cryogenic systems, model small-scale, MHD generators, shipboard applications, power equipment, dynamic operation
Jones H., Hales P.(p.hales1@physics.ox.ac.uk), Milward S., Harrison S.
Ключевые слова: nitrogen solid, cryogenic systems, HTS, magnets, design parameters, Bi2223, MHD generators, power equipment
Higashikawa K., Muta I., Hoshino T., Nakamura T.(tk_naka@kuee.kyoto-u.ac.jp)
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