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Ключевые слова: Bi2212

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Ramirez I.M., Valdes E.D., Garcia C.M., Salazar J.S., Gallardo A.C., Cervantes A.G.

Effect of Compaction Pressure on the Jc of Superconductor Bi-2212 in Bulk

Ключевые слова: HTS, Bi2212, bulk, powder compaction, pressure effect, fabrication, solid-state synthesis, X-ray diffraction, lattice parameter, density, resistive transition, magnetization curves, hysteresis, critical current density, magnetic field dependence, microstructure, grain size, experimental results

J Superconductivity Novel Magnetism, 2023, v.36, N 1, p.25-32

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Uglietti D., Nardelli D., Sobota R., Testino A.

Examination of commercial ceramic coatings for the electrical insulation of Bi-2212 wire

Ключевые слова: HTS, Bi2212, wires, insulation coating, fabrication, test results

Cryogenics, 2023, v.129, N , p.103626

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Larbalestier D.C., Kvitkovic J., Parrell J.A., Hellstrom E.E., Jiang J., Trociewitz U.P., Huang Y., Kametani F., Shen T., Barua S., Hossain S.I., Oloye T.A., Bugaris D.E., Goggin C.

Performance and Microstructure Variation with Maximum Heat Treatment Temperature for Recent Bi-2212 Round Wires

Ключевые слова: HTS, Bi2212, wires round, geometry effects, densification, comparison, fabrication, microstructure, critical caracteristics, critical current density, heat treatment, experimental results

IEEE Transactions Applied Superconductivity, 2023, v.33, N 5-3, p.6400105

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Guo W., Ma Y., Wang D., Yao C., Lei Z.

Progress on the Fabrication of Superconducting Wires and Tapes via Hot Isostatic Pressing

Ключевые слова: HTS, Bi2212, Bi2223, MgB2, pnictides, wires, tapes, fabrication, hot isostatic pressing, microstructure, X-ray diffraction, Jc/B curves, review

Materials, 2023, v.16, N 4, p.1786

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Gursul M.

Vital variation in superconducting performances of Bi-2212 through lithium substitution

Ключевые слова: HTS, Bi2212, bulk, substitution, solid-state synthesis, fabrication, X-ray diffraction, lattice parameter, critical temperature, microstructure, resistivity, temperature dependence, resistive transition, magnetic field dependence, activation energies, upper critical fields, irreversibility fields, vortex phase diagram, experimental results

J Materials Science - Materials Electronics, 2023, v.34, N 5, p.451

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Guo W., Ma Y., Wang D., Yao C., Lei Z.

Progress on the Fabrication of Superconducting Wires and Tapes via Hot Isostatic Pressing

Ключевые слова: HTS, Bi2223, Bi2212, MgB2, pnictides, fabrication, wires, tapes, hot isostatic pressing, microstructure, Jc/B curves, X-ray diffraction, review

Materials, 2023, v.16, N 5, p.1786

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Barzi E., Zlobin A.V., Ambrosio G., Ferracin P., Cooley L.D., Gupta R., Anerella M., Cozzolino J., Kashikhin V.V., Novitski I., Arbelaez D., Rochepault E., Juchno M., Brouwer L., Marinozzi V., Fajardo L.G., Vallone G., Kurian F., Stern J., Yahia B.

Conceptual Design of 20 T Hybrid Accelerator Dipole Magnets

Ключевые слова: accelerator magnets, hybrid systems, magnets dipole, LTS, Nb3Sn, coils outer, HTS, Bi2212, strands, coils insert, coils racetrack, design, design parameters

IEEE Transactions Applied Superconductivity, 2023, v.33, N 5-2, p.4002007

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Ferracin P., Rochepault E., Vallone G.

20 T Hybrid Nb3Sn-HTS Block-Coil Accelerator Dipole With Stress-Management

Ключевые слова: accelerator magnets, magnets dipole, hybrid systems, LTS, Nb3Sn, HTS, Bi2212, design, quality control, design parameters, mechanical properties, stress effects, numerical analysis

IEEE Transactions Applied Superconductivity, 2023, v.33, N 5-2, p.4001905

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Zhang Y., Qiu L., Cheng G., Zhang T., Cao S., Gao S., Long Y., Zheng Q., Ramakrishna S., Hang W.

Fabrication and magnetic properties of SiO2 nanoparticles-doped BSCCO superconducting nanofibers by solution blow spinning

Ключевые слова: HTS, Bi2212, fibers, nanoscaled effects, fabrication, spin coating process, nanodoping, microstructure, X-ray diffraction, lattice parameter, critical temperature, critical current, pinning force, magnetization, magnetization curves, hysteresis, Jc/B curves

Physica C, 2023, v.608, N , p.1354251

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Ferracin P., Marinozzi V., Vallone G.

Conceptual Design of a 20 T Hybrid Cos-Theta Dipole Superconducting Magnet for Future High-Energy Particle Accelerators

Ключевые слова: accelerator magnets, magnets dipole, design, design parameters, hybrid systems, LTS, Nb3Sn, HTS, Bi2212

IEEE Transactions Applied Superconductivity, 2023, v.33, N 5-2, p.4003805

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Barzi E., Zlobin A.V., Turrioni D., Novitski I.

Development of a Bi2212 Dipole Insert at Fermilab

Ключевые слова: magnets dipole, HTS, Bi2212, strands, Rutherford cables, coils insert, mechanical properties, design, design parameters, fabrication

IEEE Transactions Applied Superconductivity, 2023, v.33, N 5-2, p.4602305

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Xu X., Li Z., Li C., Liu G., Jin L., Hao Q., Jiao G., Yao K.

Influence of the Precursor Powder on the Processing Window and Current-Carrying Property of Bi-2212 Wires

Ключевые слова: HTS, Bi2212, wires, fabrication, precursors, powder processing, spray pyrolysis process, X-ray diffraction, microstructure, critical current density, susceptibility

J Superconductivity Novel Magnetism, 2023, v.36, N 3, p.843-861

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Haugan T.J., Sumption M.D., Kovacs C.J., Bullard T.J.

Cryogenic Electrical Properties of an Aluminum-Beryllium Nanocomposite

Ключевые слова: LTS, nanocomposites, Al, alloying effects, wires, resistivity, temperature dependence, magnetoresistivity, comparison, HTS, Bi2212, MgB2, Cu-based conductors, ac losses

IEEE Transactions Applied Superconductivity, 2023, v.33, N 5-2, p.360206

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Ferracin P., Arbelaez D., Shen T., Prestemon S., Brouwer L., Hafalia A., Fajardo L.G., Fernandez R.

Electromechanical Analysis for the Integration of a Nb3Sn and a Bi-2212 CCT Dipole Magnet for a Hybrid Magnet Test

Ключевые слова: accelerator magnets, hybrid systems, LTS, Nb3Sn, HTS, Bi2212, magnets dipole, magnetic field distribution, stress distribution, quench protection, modeling

IEEE Transactions Applied Superconductivity, 2023, v.33, N 5-2, p.4901005

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Das S.D., Shit S., Nath T.K.

Influence of Pb substitution in the charge reservoirs of Bi-2212 superconductors on pinning potential and superconducting properties

Ключевые слова: HTS, Bi2212, bulk, fabrication, doping, pinning potential, flux flow, X-ray diffraction, lattice parameter, microstructure, resistive transition, magnetic field dependence, critical temperature, current-voltage characteristics, vortex phase diagram

Applied Physics A, 2023, v.129, N 9, p.648

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Chen W., Li J., Nijhuis A., Jin H., Li C., Wang M., Zhang Z., Liu H., Liu S., Yu M., Liu F., Qin J., Zhou C., Hao Q., Yang D., Gao P., Ma H., Kanazawa S.

Performance of first Bi-2212 cable with pre-over pressure and over pressure heat treatment

Ключевые слова: HTS, Bi2212, cable-in-conduit conductor, design parameters, heat treatment, pressure dependence, fabrication, critical caracteristics, critical current, current-voltage characteristics, critical current density, cycling, quench, experimental results

Superconductor Science Technology, 2022, v.35, N 1, p.15007

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Yan G., Li C., Zhao G., Lei L., Shen M., Ji H., Ren P.

Regulation of the Growth Orientation of Bi-2212 Thin Film and the Corresponding Influences on Critical Current Density

Ключевые слова: HTS, Bi2212, thin films, sol gel process, substrate LaAlO3, oxygen, control systems, X-ray diffraction, resistivity, temperature dependence, critical temperature, current-voltage characteristics, critical caracteristics, critical current density, texture, microstructure, experimental results

J Superconductivity Novel Magnetism, 2022, v.35, N 1, p.33-39

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Malagoli A., Celentano G., Bernini C., Armenio A.A., Leveratto A., Marzi G., Traverso A.

Investigation of transport mechanisms induced by filament-coupling bridges-network in Bi-2212 wires

Ключевые слова: HTS, Bi2212/Ag, wires multifilamentary, fabrication, PIT process, microstructure, filaments, grain structure, critical caracteristics, critical current density, temperature dependence, magnetic field dependence, magnetization, hysteresis, Jc/B curves, experimental results

Superconductor Science Technology, 2022, v.35, N 3, p.35002

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Zhou H., Zhang Z., Qin J., Yang D., Luo G.

Degradation mechanism of the superconducting performance of a Bi2212 cable under magnetic fields

Ключевые слова: fusion magnets, HTS, Bi2212, cable-in-conduit conductor, design parameters, degradation studies, operational performance, magnetic field dependence, critical caracteristics, critical current density, cycling, microstructure, grain boundaries, experimental results

Superconductor Science Technology, 2022, v.35, N 3, p.35004

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Sarmago R.V., Rol, Vera F.I., Singidas B.G.

Coupling behavior of Bi2Sr2-xInxCaCu2O8+d

Ключевые слова: HTS, Bi2212, substitution, bulk, resistivity, susceptibility, grain structure, X-ray diffraction, microstructure, experimental results

Cryogenics, 2022, v.121, N , p.103406

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