Ключевые слова: LTS, Nb3Sn, coatings, cavity, microwave devices, fabrication, test results, X-ray diffraction, microstructure, resistive transition
Ключевые слова: HTS, Bi2223/Ag, mechanical properties, strain effects, quench, magnets, degradation studies, control systems, quench protection, critical caracteristics, critical current, magnetic field dependence, n-value, stress distribution, hot spots, bending radius, coils spiral, experimental results
Ключевые слова: HTS, Bi2212, wires, coils, heat treatment, control systems, fabrication, melting, critical caracteristics, critical current density
Gourlay S., Kim Y., Larbalestier D., Jiang J., Ye L., Zhang K., Hellstrom E., Trociewitz U., Lu J., Shen T., Prestemon S., Bosque E., Higley H., English C.
Ключевые слова: HTS, Bi2212, Rutherford cables, coils racetrack, overpressure processing, control systems, quench current, design, design parameters, fabrication, test results
Ключевые слова: MgB2/Ni/Cu, MgB2/Monel, wires multifilamentary, coils, conduction cooled systems, critical caracteristics, Jc/B curves, critical current, magnetic field dependence, critical temperature, n-value, quench properties, minimum quench energy, recovery characteristics, self-field effect, normal zone propagation, stability, degradation studies
Ключевые слова: HTS, Bi2212/Ag, wires round, wires multifilamentary, composites, impregnation, thermal properties, compression, mechanical properties, strain effects, stress effects, wires round, wires multifilamentary, elastic behavior, Rutherford cables, measurement technique, experimental results
Schwartz J., Ye L., Liu X.T., Hunte F., Naderi G., White M., Ishmael S., Luo H.*, Mandzy N., Muth J.F., Hunt A.T.
Ключевые слова: HTS, YBCO, coated conductors, Bi2212, tapes, coils, quench propagation, quench detection, insulating medium, nanoscaled effects, nanodoping, thermal conductivity, experimental results
Schwartz J., Ye L., Liu X.T., Le Q.V., Chan W.K., Hunte F., Gou X.F., Phillips M., Naderi G., Turenne M.
Ключевые слова: review, HTS, magnets, Bi2212, wires round, YBCO, coated conductors, critical caracteristics, Jc/B curves, comparison, mechanical properties, quench properties, normal zone propagation, status
Ключевые слова: HTS, Bi2212, wires, quench properties, numerical analysis, modeling, minimum quench energy, normal zone propagation
Ключевые слова: MgB2/Cu/Fe, magnets, conduction cooled systems, quench protection, numerical analysis, MRI magnets
Ключевые слова: HTS, cables, coated conductors, ac losses, numerical analysis, MgB2/Cu-Ni, wires monofilamentary, wires multifilamentary, YBCO, power equipment
Majoros M., Collings E.W., Coombs T.A., Campbell A.M., Tomsic M., Sumption M.D., Velichko A.V., Ye L., Astill D.M., Sargent P., Haslett M., Husband. M.
Majoros M., Campbell A.M., Harrison S., Coombs T., Sargent P., Haslett M., Ye L.(ly231@cam.ac.uk), Husband M.
Majoros M., Campbell A.M., Astill D., Tomsic M., Rindfleisch M., Harrison S., Coombs T., Ye L.(ly231@cam.ac.uk), Husband M.
Ключевые слова: modeling, ac losses, tapes, geometry effects, coils bifilar, FCL resistive, numerical analysis, power equipment
Majoros M., Tomsic M., Harrison S., Ye L., Sargent P., Haslett M., Husband M., Campbell M. A., Coombs A. T., Velichko V. A., Astill M. D., Sumption D. M., Collings W. E.
Ключевые слова: MgB2, wires, FCL resistive, current limiting characteristics, quench, overcurrent, measurement technique, experimental results, power equipment
Ключевые слова: power distribution system, FCL, modeling, HTS, power equipment
Ключевые слова: FCL resistive, power transmission lines, modeling computational, numerical analysis, power equipment
Ye L.(YL@cau.edu.cn), Juengst K.-P.(juengst@itp.fzk.de)
Ключевые слова: FCL resistive, HTS, fault currents, modeling, numerical analysis, power equipment
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