Ключевые слова: magnetic separation, ferromagnetic material, LTS, NbTi, conduction cooled systems, experimental results, separator
Ключевые слова: LTS, HTS, NbTi, YBCO, current distribution, stability, numerical analysis, quench propagation, minimum quench energy
Ключевые слова: magnetic separation, conduction cooled systems, HTS, Bi2223, magnets, LTS, NbTi, design parameters, magnetic field distribution, experimental results, wastewater
Ключевые слова: HTS, Bi2223/Ag, LTS, NbTi, modeling, numerical analysis, critical caracteristics, current density, current distribution, temperature distribution
Mitchell N., Libeyre P., Bauer P., Bessette D., Sahu A., Gallix R., Gribov Y., Foussat A., Jong C.T.
Ключевые слова: ITER, correction coils, design parameters, cable-in-conduit conductor, NbTi, supporting structure, termination, LTS
Ключевые слова: ITER, design parameters, bus bar conductor, cable-in-conduit conductor, LTS, NbTi, design, feeder
Ключевые слова: ITER, coils poloidal field, cable-in-conduit conductor, LTS, NbTi, ac losses, thermal-hydraulics, modeling, numerical analysis
Bruzzone P., Stepanov B., Turtu S., Muzzi L., Corato V., Zignani C.F., Reccia L., Peyrot M., Barabaschi P., De M.G., Di Z.A., della C.A.
Bruzzone P., Stepanov B., Ciazynski D., Zani L., Lacroix B., Torre A., Barabaschi P., Decool P., Nannini M., Verger J.-M.
Ключевые слова: LTS, NbTi, cable-in-conduit conductor, magnets double pancake, coils toroidal, Tokamak, prototype, test results, joint resistances, ac losses, high field magnets
Wesche R., Bruzzone P., Stepanov B., Vogel M., Calvi M., Bagnasco M., Herzog R., Cau F., Rajainmaki H., Jenni M., Holenstein M.
Ключевые слова: Tokamak, test results, cryogenic systems, LTS, cable-in-conduit conductor, NbTi, coils toroidal, SULTAN, status, high field magnets, facility
Friend C.M., Young E.A., Meinesz M., Seung H., Hanping M., Domptail F., Melhem Z., Yibing H., Yifeng Y.
Ключевые слова: ITER, coils poloidal field, LTS, NbTi, quench propagation, test results, numerical analysis
Ключевые слова: ITER, coils toroidal, coils poloidal field, central coils, LTS, Nb3Sn, NbTi, management
Tsuchiya K., Mito T., Yoshida K., Takahata K., Imagawa S., Kizu K., Murakami H., Obana T., Hamaguchi S., Ichige T.
Ключевые слова: coils equilibrium field, LTS, NbTi, cable-in-conduit conductor, quench properties, stability, Tokamak, test results, high field magnets
Ключевые слова: fusion magnets, coils poloidal field, cable-in-conduit conductor, NbTi, coils helical, ac losses, experimental results, LTS, high field magnets
Renard B., Hertel K., Viebke H., Heenemann C., Baldzuhn J., Ehmler H., Croari G., Bensouda-Korachi M., Genini L., Vieillard L.
Ключевые слова: stellarator, LTS, cable-in-conduit conductor, NbTi, coils, design parameters, test results
Ключевые слова: Tokamak, central coils, coils equilibrium field, cable-in-conduit conductor, LTS, NbTi, Nb3Sn, jacketing, fabrication, high field magnets, facility
Viebke H., Genini L., Hathiramani D., Bergmann T., Bykov V., Peng C., Danner W., Dudek A., Fellinger J., Freundt S., Hochel K., Kallmeyer J.P., Lingertat J., Weber S., Schauer F.
Ключевые слова: stellarator, LTS, NbTi, cable-in-conduit conductor, coils D-shaped, stability, test results, mechanical properties
Shikov A., Fischer E., Potanina L., Moritz G., Khodzhibagiyan H., Kovalenko A., Mueller H., Pantsyrny V., Salunin N., Gubkin I., Korpusov V.
Ключевые слова: LTS, NbTi, wires, magnets, synchrotron, fabrication, mechanical properties, ac losses, cables, model small-scale, test results, power equipment
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