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Ключевые слова: Bi2212

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Shi Y., Li J., He Y., Devred A., Nijhuis A., Wang Q., Wu Y., Liu H., Liu F., Qin J., Zhou C., Dai C., Mao Z.

First AC loss test and analysis of a Bi2212 cable-in-conduit conductor for fusion application

Ключевые слова: HTS, Bi2212, cable-in-conduit conductor, ac losses, fusion magnets, wires round, fabrication, test results, design parameters, measurement setup

Superconductor Science Technology, 2018, v.31, N 1, p.15010

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Li P., Ye L., Shen T.

Heat treatment control of Bi-2212 coils: I. Unravelling the complex dependence of the critical current density of Bi-2212 wires on heat treatment

Ключевые слова: HTS, Bi2212, wires, coils, heat treatment, control systems, fabrication, melting, critical characteristics, critical current density

Cryogenics, 2018, v.89, N , p.95-101

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Wang G., Hampshire D.P., Raine M.J.

The cause of 'weak-link' grain boundary behaviour in polycrystalline Bi2Sr2CaCu2O8 and Bi2Sr2Ca2Cu3O10 superconductors

Ключевые слова: HTS, Bi2212, Bi2223, bulk, fabrication, grain boundaries, grain size, nanoscaled effects, annealing process, X-ray diffraction, calorimetric method, measurement technique, resistive transition, resistivity, temperature dependence, magnetic field dependence, susceptibility, irreversibility fields, magnetization, critical characteristics, Jc/B curves, current-voltage characteristics, experimental results

Superconductor Science Technology, 2018, v.31, N 2, p.24001

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Kato T., Yamada Y., Okamoto T., Mori N., Ishibashi T.

Preparation of (11n) oriented Bi2Sr2CaCu2O8+x thin films without c-axis twin structure by the metal-organic decomposition method using vicinal SrTiO3 (110) substrates

Ключевые слова: HTS, Bi2212, films epitaxial, MOD process, substrate SrTiO3, fabrication, X-ray diffraction, microstructure, resistive transition, critical temperature

AIP Advances, 2018, v.8, N 1, p.15101

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Agostino A., Lamberti C., Truccato M., Mino L., Bonino V., Borfecchia E., Operti L., Torsello D., Vittone E.

Monte Carlo analysis of the oxygen knock-on effects induced by synchrotron x-ray radiation in the Bi2Sr2CaCu2O8+d superconductor

Ключевые слова: HTS, Bi2212, single crystals, synchrotron, X-ray irradiation, irradiation effects, oxygen release, numerical analysis, comparison, experimental results

Physical Review Materials, 2018, v.2, N 1, p.14801

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Imaduddin A., Nugraha H., Mulya M.A., Hermanto B.

Development of resistance and temperature measurement system for cryogenic equipment

Ключевые слова: measurement technique, cryogenic systems, measurement setup, HTS, Bi2212, resistance, temperature dependence, control systems

J Physics: Conference Series, 2018, v.817, N 1, p.12055

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Jiang Z., Gou X., Xue F.

Influences of the Bi2Sr2CaCu2Ox/Ag interface and interfilamentary bridge connections on AC loss of composite wires

Ключевые слова: HTS, Bi2212/Ag, wires round, wires multifilamentary, interfaces, bridges, ac losses, critical characteristics, current-voltage characteristics, numerical analysis, modeling, current density, distribution, magnetization curves

Physica C, 2018, v.547, N , p.69-76

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Ozkurt B., Aytekin M.E.

The effect of different dwell times in the ball milling process on the superconducting properties of Bi1.8Sr2Ca1.1Cu2.1Oy (Bi-2212) ceramics

Ключевые слова: HTS, Bi2212, bulk, milling process, fabrication, critical characteristics, X-ray diffraction, lattice parameter, critical characteristics, microstructure, resistive transition, magnetization curves, hysteresis, Jc/B curves

J Materials Science - Materials Electronics, 2018, v.29, N 5, p.3920-3926

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Ozturk O., Cavdar S., Koralay H., Asikuzun E., Gokcen T., Tasci A.T., Ada H.

Comparison ofmechmicrohardness of undoped and Ru doped BSCCO glass ceramic materials

Ключевые слова: HTS, Bi2212, bulk, doping effect, fabrication, mechanical properties, hardness, X-ray diffraction, lattice parameter, microstructure, experimental results, numerical analysis

J Materials Science - Materials Electronics, 2018, v.29, N 5, p.3957-3966

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Stornaiuolo D., Tafuri F., Fallah-Arani H., Baghshahi S., Sedghi A., Riahi-Noori N.

Enhancement in superconducting properties of Bi2Sr2Ca1Cu2O8+d (Bi-2212) by means of boron oxide additive

Ключевые слова: HTS, Bi2212, doping effect, bulk, fabrication, X-ray diffraction, critical temperature, lattice parameter, microstructure, susceptibility, magnetization, hysteresis, critical characteristics, Jc/B curves, experimental results

Physica C, 2018, v.548, N , p.31-39

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Bird M.D., Budinger T.F.

MRI and MRS of the human brain at magnetic fields of 14 T to 20 T - Technical feasibility, safety, and neuroscience horizons

Ключевые слова: MRI magnets, LTS, Nb3Sn, NbTi, HTS, geometry effects, YBCO, Bi2212, Bi2223, review, high field magnets, medical applications

NeuroImage, 2018, v.168, N , p.509-531

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Zhou Y., Peng X., Yong H.

Damage Analysis of Superconducting Composite Wire with Bridging Model

Ключевые слова: Bi2212, composites, wires multifilamentary, wires round, filament arrangements, mechanical properties, modeling, stress effects, tensile tests, crack formation, elastic behavior, fracture behavior

Acta Mechanica Solida Sinica, 2018, v.31, N 1, p.19-31

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Suzuki S., Kawakami T., Taniguchi H., Cosset-Cheneau M., Arakawa T., Miyasaka S., Setsuko

Electrical contacts to thin layers of Bi2Sr2CaCu2O8+d

Ключевые слова: HTS, Bi2212, films thin, contact characteristics, resistive transition, microstructure

Applied Physics Express, 2018, v.11, N 5, p.53201

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Liu B., Nijhuis A., Liu P., Li C., Wu Y., Liu S., Qin J., Zhou C., Hao Q., Dai C.

Uniaxial Strain Induced Critical Current Degradation of Ag-Sheathed Bi-2212 Round Wire

Ключевые слова: HTS, Bi2212/Ag, wires round, degradation studies, critical current, mechanical properties, strain effects, critical characteristics, magnetic field dependence, n-value, stress effects

IEEE Transactions Applied Superconductivity, 2018, v.28, N 3, p.6400104

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Bottura L., Larbalestier D., Senatore C., Jiang J., Leo A., Bonura M., Barth C., Avitabile F., Fete A.

Very-high thermal and electrical conductivity in overpressure processed Bi2Sr2CaCu2O8+x wires

Ключевые слова: HTS, wires round, Bi2212/Ag, fabrication, overpressure processing, oxygenation treatments, RRR parameter, thermal conductivity, resistivity, temperature dependence, experimental results

Materials Research Express, 2018, v.5, N 5, p.56001

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Shengnan Z., Pingxiang Z., Chengshan L., Jianqing F., Xiaoyan X., Qingbin H.

Density Enhancement for the Fabrication of Bi-2212 Superconducting Tapes

Ключевые слова: HTS, Bi2212, tapes, fabrication, densification, PIT process, microstructure, precursors, powder processing, X-ray diffraction, critical characteristics, critical current

Rare Metal Materials Engineering, 2018, v.47, N 1, p.47-51

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Zhou Y., Yang Y., Yong H.

Mechanical behavior in superconducting composite wires

Ключевые слова: Bi2212/Ag, HTS, wires round, composites, cables, modeling, numerical analysis, mechanical properties, stress distribution, stress effects, magnetic field dependence, Rutherford cables

European J Mechanics A Solids, 2018, v.70, N , p.191-202

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Mohammed N.H., Abou-Aly A.I., HASSAN M.S., Barakaty M.M.

Effect of nano BiPb-2212 phase addition on BiPb-2223 phase properties

Ключевые слова: Bi2212, nanodoping, phase composition, doping effect, fabrication, solid-state synthesis, X-ray diffraction, microstructure, resistivity, temperature dependence, critical characteristics, current-voltage characteristics, critical current density, n-value, experimental results, Bi2223

Modern Physics Letters B, 2018, v.32, N 16, p.1850178

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Gourlay S.A.

Superconducting accelerator magnet technology in the 21st century: Anew paradigm on the horizon?

Ключевые слова: accelerator magnets, design, fabrication, review, LTS, Nb3Sn, HTS, Bi2212, wires round, Rare Earth-BCO, coated conductors, Rutherford cables, Roebel conductors, CORC cables, cost estimate

Nuclear Instruments Methods in Physical Research A, 2018, v.893, N , p.124-137

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Shi Y., Li J., Lei L., Wu Y., Liu H., Liu F., Qin J., Ma H.

Experimental Study on Bi-2212 Cable-in-Conduit Conductor

Ключевые слова: HTS, Bi2212/Ag, cable-in-conduit conductor, fabrication, high pressure processing, heat treatment, PIT process, joints, joint resistances, critical characteristics, current-voltage characteristics, critical current, magnetic field dependence, self-field effect, distribution, experimental results

IEEE Transactions Applied Superconductivity, 2018, v.28, N 4, p.4802104

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