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Vanderbemden P., Fagnard J., Rikel M., Mucha J., Stachowiak P., Szewczyk D.

Anisotropy of the thermal conductivity of bulk melt-cast Bi-2212 superconducting tubes

Ключевые слова: Bi2212, bulk, melting, casting process, tubes, thermal conductivity, anisotropy, specific heat, temperature dependence, resistivity, experimental results

Superconductor Science Technology, 2020, v.33, N 2, p.25006

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Jiang J., Trociewitz U.P., Matras M.R., Hellstrom D.C.

Process to densify Bi2Sr2CaCu2O X round wire with overpressure before coil winding and final overpressure heat treatment

Ключевые слова: HTS, Bi2212, wires round, overpressure processing, densification, winding process, coils, heat treatment, microstructure

Superconductor Science Technology, 2020, v.33, N 2, p.25010

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Xiao L.

Recent Progress of Large-scale Application in China

Ключевые слова: presentation, China, large-scale applications, review, wires, HTS, YBCO, fabrication, coated conductors, pnictides, tapes, Bi2212, cable-in-conduit conductor, FCL, cables, power transmission lines, liquid methan, generators, high field magnets, coils insert, MRI magnets, LTS, NbTi, coils toroidal, central coils, Nb3Sn, coils model, Maglev system, evacuated tube, critical characteristics, test results

EUROPEAN SUPERCONDUCTIVITY NEWS FORUM, 2020, v.14, N 48-1, p.0

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Larbalestier D., Gupta R., Amm K., Prestemon S.

Superconducting Magnet Development for Next-Generation Accelerator Capabilities

Ключевые слова: accelerator magnets, FCC, LHC, LTS, Nb3Sn, critical characteristics, Jc/B curves, comparison, NbTi, Bi2223, Bi2212, MgB2, REBCO, review, design, presentation

EUROPEAN SUPERCONDUCTIVITY NEWS FORUM, 2020, v.14, N 48-1, p.121

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Jiang Z., Shen T., Gou X.

Impact of the Complex Interface Between Bi2Sr2CaCu2Ox Filaments and Ag Matrix on the Quench Behavior of Composite Round Wires

Ключевые слова: HTS, Bi2212/Ag/AgAlloy, composites, wires round, filaments, interfaces, quench properties, modeling, numerical analysis, minimum quench energy, normal zone propagation

IEEE Transactions Applied Superconductivity, 2019, v.29, N 1, p.6400109

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Song Y., Huang X., Yang H., Lu K., Rong J.

Sub-cable Butt Joint Design for CS Magnet of CFETR

Ключевые слова: Tokamak, magnets, central coils, HTS, Bi2212, wires round, cable-in-conduit conductor, joints, design, fabrication, joint resistances, temperature distributions

J Physical Society Japan, 2019, v.88, N 2, p.24704

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Wang X., Liu Y., Gao Y.

Three-dimensional multifilament finite element models of Bi-2212 high temperature superconducting round wire under axial load

Ключевые слова: HTS, Bi2212, wires round, wires multifilamentary, mechanical properties, modeling, stress effects, heat treatment, thermal expansion, cryogenic materials, strain effects, thermal stress, twisting, numerical analysis

Composite Structures, 2019, v.211, N , p.273-286

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Cheng Y., Liao X., Zhou N., Huang B.

The effect of Ba doping on Sr site on structural and superconducting properties of Bi2212 phase

Ключевые слова: HTS, Bi2212/Ag, doping effect, X-ray diffraction, microstructure, Raman spectroscopy, composition, susceptibility, critical temperature, experimental results

Physica B, 2019, v.557, N , p.12-16

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He Y., Liu F., Qin J., Dai C.

An Analysis of AC Loss of Bi-2212 CICC

Ключевые слова: hybrid liquid phase epitaxy, Bi2212, cable-in-conduit conductor, ac losses, fabrication, test results

IEEE Transactions Applied Superconductivity, 2019, v.29, N 2, p.5900603

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Liu X., Zhang P., Huang Y., Li C., Feng J., Zhang S., Ma X., Cui L.

Fabrication and optimization of Bi-2212 high temperature superconductors with K and Ag co-incorporation

Ключевые слова: HTS, Bi2212, bulk, doping effect, fabrication, hot pressing, X-ray diffraction, lattice parameter, microstructure, magnetization, critical characteristics, Jc/B curves, pinning force, experimental results

J Materials Science - Materials Electronics, 2019, v.30, N 4, p.3418-3425

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Imai K., Irisawa D., Shintomi K., Yahara A., Matsubara H.

Superconducting magnetic shield for MEG coupled with permalloy PC

Ключевые слова: cylinders, Bi2212, HTS, coatings, shielding effects, experimental results, medical applications, magnetic shielding

Electrical Engineering in Japan, 2019, v.207, N 1, p.3-14

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Uglietti D.

A review of commercial high temperature superconducting materials for large magnets - from wires and tapes to cables and conductors

Ключевые слова: HTS, REBCO, coated conductors, CORC cables, twisting, stacked blocks, Bi2223/Ag, Bi2212, tapes, LTS, Nb3Sn, wires, cables, Roebel conductors, Rutherford cables, high field magnets, review, commercialization, critical characteristics, mechanical properties, critical current, magnetic field dependence, angular dependence, cost estimate, review

Superconductor Science Technology, 2019, v.32, N 5, p.53001

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Glowacki B.A.

Advances in Development of Powder-in-Tube Nb3Sn, Bi-Based, and MgB2 Superconducting Conductors

Ключевые слова: fabrication, PIT process, LTS, Nb3Sn, MgB2, HTS, Bi2212, cryogenic systems, hydrogen liquid, microstructure, critical characteristics, critical current, flux density, Jc/B curves, experimental results

Acta Physica Polonica A, 2019, v.135, N 1, p.7-13

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Song Y., Huang X., Yang H., Lu K., Rong J.

AC losses calculation of Bi-2212 Cable-in-Conduit Conductor used in CFETR

Ключевые слова: HTS, Bi2212, wires round, cable-in-conduit conductor, twisting, design, ac losses, numerical analysis, mechanical properties, stress effects, critical characteristics, Jc/B curves, temperature dependence, Tokamak

Fusion Engineering Design, 2019, v.141, N , p.109-115

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Sergeev A., Golev I.

High-Temperature Superconducting Materials Based on Bismuth with a Low Critical Current

Ключевые слова: Bi2212, Bi2223, bulk, X-ray diffraction, microstructure, phase composition, voltage, temperature dependence, resistive transition, ac magnetic field dependence, harmonic coefficients

Materials Today Proceedings, 2019, v.11, N 1, p.489-493

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Hall S.R., Nakayama T., Rojas O.G.

Green and cost-effective synthesis of the superconductor BSCCO (Bi-2212), using a natural deep eutectic solvent

Ключевые слова: HTS, Bi2212, bulk, fabrication, solution techniques, X-ray diffraction, phase composition

Ceramics International, 2019, v.48, N 7, p.8546-8552

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Jiang Z., Shen T., Gou X.

Numerical simulation of quench initiation and propagation in multi-filamentary Bi2Sr2CaCu2Ox round wires at high magnetic fields

Ключевые слова: HTS, Bi2212/Ag/AgAlloy, wires round, wires multifilamentary, quench, quench propagation, high field tests, minimum quench energy, normal zone propagation, numerical analysis

J Applied Physics, 2019, v.125, N 16, p.163901

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Larbalestier D.C., Tarantini C., Hellstrom E.E., Jiang J., Jaroszynski J., Abraimov D., Brown M.D., Bradford G.

Prediction of the JC (B) Behavior of Bi-2212 Wires at High Field

Ключевые слова: HTS, Bi2212, wires multifilamentary, high field tests, comparison, fabrication, heat treatment, magnetization, critical current density, magnetic field dependence, pinning force, experimental results

IEEE Transactions Applied Superconductivity, 2019, v.29, N 5-3, p.6400504

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Malagoli A., Ferdeghini C., Chiarelli S., Celentano G., Hopkins S.C., Putti M., Ballarino A., Leveratto A., Leoncino L.

Evidence for Longitudinal Homogeneity and No Je Degradation in Bi-2212 Wires Realized by the GDG Process

Ключевые слова: HTS, Bi2212, wires multifilamentary, fabrication, mechanical treatment, measurement technique, critical characteristics, Jc/B curves, length, homogeneity

IEEE Transactions Applied Superconductivity, 2019, v.29, N 5-3, p.6400305

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Larbalestier D.C., Miao H., Parrell J.A., Hellstrom E.E., Jiang J., Trociewitz U.P., Huang Y., Sengupta S., Kametani F., Shen T., White M., Hunt A., Brown M.D., Bradford G., Hossain S.I., Cooper J., Miller E., Revur R.

High-Performance Bi-2212 Round Wires Made With Recent Powders

Ключевые слова: HTS, Bi2212, wires round, wires multifilamentary, fabrication, PIT process, precursors, powder processing, overpressure processing, heat treatment, microstructure, critical characteristics, Jc/B curves, n-value, critical current, magnetic field dependence, new, experimental results

IEEE Transactions Applied Superconductivity, 2019, v.29, N 5-3, p.6400405

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