Ключевые слова: HTS, YBCO, REBCO, coated conductors, minimum quench energy, normal zone propagation, hot spots, heater, numerical analysis
Ключевые слова: HTS, YBCO, coated conductors, modeling, current, dc performance, ac magnetic field dependence, quench, recovery characteristics, losses, dynamic resistance, shielding effects, frequency dependence, stabilizing layers, Cu-based conductors, thermal conductivity, heat capacity, design parameters, critical caracteristics, critical current, distribution, temperature dependence, current distribution, resistance, heat transfer, experimental results
Ключевые слова: HTS, YBCO, coated conductors, coils pancake, quench detection, sensors, temperature distribution, normal zone propagation, modeling, numerical analysis
Ключевые слова: HTS, YBCO, coated conductors, magnets, quench detection, sensors, fibers, coils pancake, tensile tests, normal zone propagation, fabrication, experimental results
Ключевые слова: HTS, magnets, quench detection, measurement technique, sensors, fibers, Bi2223/Ag, tapes, YBCO, coated conductors, coils pancake, experimental results
Ключевые слова: quench protection, measurement technique, HTS, Bi2223/Ag, coils, fibers
Ключевые слова: high field magnets, insulationless, dc performance
Ключевые слова: HTS, Bi2212/Ag, wires, precursors, nanoscaled effects, fabrication, PIT process, heat treatment, microstructure, magnetization, critical caracteristics, Jc/B curves
Ключевые слова: HTS, Bi2212/Ag, wires multifilamentary, PIT process, fabrication, precursors, microstructure, critical caracteristics, critical current density
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, matrix, interfaces, composites, wires round, mechanical properties, microstructure, modeling, stress effects, strain effects, stress distribution, local distribution
Ключевые слова: HTS, Bi2212, wires multifilamentary, PIT process, fabrication, precursors, heat treatment, microstructure, magnetization
Ключевые слова: HTS, Bi2212/Ag/AgAl, wires round, wires multifilamentary, PIT process, review, mechanical properties, tensile tests, hardness, stress effects, strain effects, critical caracteristics, current-voltage characteristics, critical current, critical current density, microstructure, composition, experimental results
Schwartz J., Ishmael S.A., White M., Mandzy N., Slomski M., Luo H., Hunt A., Paskova T., Straka W., Muth J.F.*1 Nesbit R.
Ключевые слова: HTS, magnets, insulating medium, thermal properties, thermal conductivity, dielectric properties, breakdown characteristics
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
Ключевые слова: HTS, Bi2212/Ag, wires round, fabrication, microstructure, heat treatment, critical caracteristics, Jc/B curves, phase formation, magnetization
Ключевые слова: HTS, YBCO, coated conductors, magnets, quench detection, sensors, measurement technique, hot spots
Ключевые слова: HTS, wires round, Bi2212/Ag alloy, sheath, fabrication, melting, microstructure
Ключевые слова: HTS, YBCO, REBCO, coated conductors, modeling, thermal properties, aspect ratios, coils, normal zone propagation, quench properties, quench protection, numerical analysis
Ключевые слова: HTS, YBCO, coated conductors, critical current, degradation studies, quench properties, 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, Bi2223/Ag, tapes, ac losses, transport currents, experimental results
Ключевые слова: HTS, Bi2212, wires, quench properties, numerical analysis, modeling, minimum quench energy, normal zone propagation
Ключевые слова: HTS, Bi2212/Ag, wires round, melting, solidification, fabrication, heat treatment, critical caracteristics, critical current, microstructure, microstructure
Ключевые слова: HTS, YBCO, coated conductors, aspect ratios, modeling, quench properties, geometry effects, thermal conductivity, normal zone propagation
Ключевые слова: HTS, YBCO, coated conductors, modeling, quench, aspect ratios, quench properties, normal zone propagation
Ключевые слова: HTS, YBCO, coated conductors, stabilizing layers, quench properties, experimental results
Weijers H.W., Larbalestier D.C., Liu X., Hellstrom E.E., Jiang J., Trociewitz U.P., Kametani F., Noyes P., Viouchkov Y., Shen T., Myers D., LoSchiavo M., Schwartz J.L.
Ключевые слова: HTS, Bi2212, wires round, test results, critical caracteristics, critical current, magnetic field dependence, high field magnets
Schwartz J., Larbalestier D.C., Hong S., Czabaj B., Miao H., Meinesz M., Wang X., Trociewitz U.P., Knoll D.C., Huang Y., Markiewicz W.D.
Ключевые слова: HTS, Bi2212/Ag, tapes, quench properties, degradation studies, experimental results
Ключевые слова: HTS, YBCO, coated conductors, substrate Hastelloy, mechanical properties, fatigue behavior, experimental results
Breschi M., Wang X., Ribani P.L., Schwartz J.(schwartz@magnet.fsu.edu)
Ключевые слова: HTS, YBCO, coated conductors, quench properties, modeling
Ключевые слова: HTS, YBCO, coated conductors, quench properties, minimum quench energy, normal zone propagation, experimental results
Ключевые слова: HTS, YBCO, coated conductors, ac losses, stabilizing layers, substrate ferromagnetic, numerical analysis
Schwartz J.(schwartz@magnet.fsu.edu), Merritt G.A.
Ключевые слова: HTS, Bi2212, wires round, wires multifilamentary, coils, fabrication, winding techniques, heat treatment, coils wind-and-react, power equipment
Schwartz J., Marken K.R., Hong S., Czabaj B., Miao H., Meinesz M., Trociewitz U.P., Twin A., Noonan P.
Ключевые слова: measurement setup, ac losses, stability, temperature dependence, HTS, wires, tapes, facility
Ключевые слова: HTS, YBCO, coated conductors, quench, minimum quench energy, ac losses, normal zone propagation, experimental results
Usak P.(elekusak@savba.sk), Schwartz J., Sastry P.V.P.S.S.
Ключевые слова: cables, modeling, current distribution, numerical analysis, LTS, power equipment
Schwartz J., Sastry P.V., Nguyen D.N.(nguyen@caps.fsu.edu), Knoll D.C.
Ключевые слова: HTS, YBCO, coated conductors, substrate Ni alloy, ac losses, measurement technique, RABITS process, stabilizing layers, fabrication
Haken B., Dhalle M., Schwartz J., Laan D.C., Naveira L.M., Eck H.J.N., Metz A., Davidson M.W., ten Kate H.
Xu B., Su J.H., Schwartz J.(schwartz@magnet.fsu.edu)
Weijers H.W., Schwartz J., Zhang G., Wang X.(xiaorong@caps.fsu.edu), Caruso A.R.(caruso@magnet.fsu.edu), Breschi M.(marco.breschi@unibo.it), Trociewitz U.P.
Schwartz J., Zhang G., Nguyen D.N.(nguyen@caps.fsu.edu), Sastry P.V.P.S.S., Knoll D.C.
Schwartz J., Nguyen D.N.(nguyen@caps.fsu.edu), Sastry P.V.P.S.S., Zhang G.M., Knoll D.C.(knoll@caps.fsu.edu)
Ключевые слова: HTS, Bi2223/Ag, strain effects, ac losses, tensile tests, stress effects, mechanical properties, experimental results
Schwartz J., Lin L.Z., Yu Y.J., Xiao L.Y., Zhang G.M., Sastry P.V.P.S.S.(pamidi@caps.fsu.edu)
Ключевые слова: HTS, Bi2223/Ag, assembled conductors, ac losses, transport currents, angular dependence, experimental results
Haken B., Weijers H.W., Schwartz J., Kate H.H.J.(h.h.j.tenkate@tnw.utwente.nl)
Schwartz J., Lin L.Z., Yu Y.J., Xiao L.Y., Zhang G.M.(gzhang@caps.fsu.edu), Sastry P.V.
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