Catalogo Articoli (Spogli Riviste)

HELP
ATTENZIONE: attualmente gli articoli Current Contents (fonte ISI) a partire dall'anno 2002 sono consultabili sulla Risorsa On-Line

Le informazioni sugli articoli di fonte ISI sono coperte da copyright

La ricerca find articoli where soggetti phrase all words 'SUPERCONDUCTING CABLE' sort by level,fasc_key/DESCEND, pagina_ini_num/ASCEND ha restituito 55 riferimenti
Selezionare un intervallo

Per ulteriori informazioni selezionare i riferimenti di interesse.

    1. Parker, B; Anerella, M; Escallier, J; Ghosh, A; Jain, A; Marone, A; Muratore, J; Prodell, A; Thompson, P; Wanderer, P; Wu, KC
      HERA luminosity upgrade superconducting magnet production at BNL

      IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY
    2. Traeholt, C; Olsen, SK; Rasmussen, C; Veje, E; Tonnesen, O
      Calorimetric measurements of losses in HTS cables

      IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY
    3. Jensen, KH; Traeholt, C; Veje, E; Daumling, M; Rasmussen, CN; Willen, DWA; Tonnesen, O
      Overcurrent experiments on HTS tape and cable conductor

      IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY
    4. Lue, JW; Barber, GC; Demko, JA; Gouge, MJ; Stovall, JP; Hughey, RL; Sinha, UK
      Fault current tests of a 5-m HTS cable

      IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY
    5. Hosono, F; Iwaki, G; Inaba, S; Suzuki, T; Hiroshima, K; Kikuchi, K; Chida, K; Watahiki, M; Kamata, K; Pradhan, S; Saxena, YC
      Production of NbTiCICC's for SST-1 project at IPR

      IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY
    6. Kashikhin, VV; Zlobin, AV
      Magnetic designs of 2-in-1 Nb3Sn dipole magnets for VLHC

      IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY
    7. Miyoshi, K; Mukoyama, S; Tsubouchi, H; Takagi, A; Meguro, S; Matsuo, K; Honjo, S; Mimura, T; Takahashi, Y
      Design and production of high-Tc superconducting power transmission cable

      IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY
    8. Lee, JK; Cha, G
      AC loss calculation of a multi-layer HTS transmission cable considering the twist of each layer

      IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY
    9. Bauer, P; Ambrosio, G; Andreev, N; Barzi, E; Dietderich, D; Ewald, K; Fratini, M; Ghosh, AK; Higley, HC; Kim, SW; Miller, G; Miller, J; Ozelis, J; Scanlan, RM
      Fabrication and testing of Rutherford-type cables for react and wind accelerator magnets

      IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY
    10. Stovall, JP; Demko, JA; Fisher, PW; Gouge, MJ; Lue, JW; Sinha, UK; Armstrong, JW; Hughey, RL; Lindsay, D; Tolbert, JC
      Installation and operation of the Southwire 30-meter high-temperature superconducting power cable

      IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY
    11. Willen, DWA; Hansen, F; Rasmussen, CN; Daumling, M; Schuppach, OE; Hansen, E; Baerentzen, J; Svarrer-Hansen, B; Traeholt, C; Olsen, SK; Rasmussen, C; Veje, E; Jensen, KH; Tonnesen, O; Ostergaard, J; Mikkelsen, SD; Mortensen, J; Dam-Andersen, M
      Test results of full-scale HTS cable models and plans for a 36 kV, 2 kA(rms) utility demonstration

      IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY
    12. Bydzovsky, J; Vavra, I; Frohlich, K; Polak, M; Smatko, V; Kovacova, E; Paskevic, P
      Application of La1-xMnO3 giant magnetoresistance sensors for testing of high-T-C superconducting tapes

      SENSORS AND ACTUATORS A-PHYSICAL
    13. Honjo, S; Matsuo, K; Mimura, T; Takahashi, Y
      High-T-c superconducting power cable development

      PHYSICA C
    14. Takacs, S
      Time constants of flat superconducting composites determined from AC loss and relaxation measurements

      PHYSICA C
    15. Takacs, S; Iwakuma, M; Funaki, K
      The effective resistance between twisted superconducting filaments in tapes

      PHYSICA C
    16. Bellucci, P; Ciotti, M; Gislon, P; Spadoni, M; Bottura, L; Muzzi, L; Turtu, S
      Comparison between the predictions of the thermo-hydraulic code Gandalf and the results of a long length instrumented CICC module experiment

      CRYOGENICS
    17. Akhmetov, AA
      Compatibility of two basic models describing the a.c. loss and eddy currents in flat superconducting cables

      CRYOGENICS
    18. Egorov, SA
      AC coupling losses in superconducting multistage cables with and without additional co-twisted copper strands

      PLASMA DEVICES AND OPERATIONS
    19. Hao, FN; Wu, WH
      Analysis of LN2 cooling system send electrical insulation contraction for high Tc superconducting cables

      IEEE TRANSACTIONS ON POWER DELIVERY
    20. Egorov, SA; Astrov, MS; Kalinichenko, MA; Fedotova, SB
      Coupling currents and AC losses in superconducting cables under the non-uniform profiles of the applied magnetic field alteration rate

      PLASMA DEVICES AND OPERATIONS
    21. Egorov, SA; Astrov, MS; Kalinichenko, MA
      Effect of the subcable twist pitch ratio on the circulation currents induced by the time varying self field of multistage superconducting cables

      PLASMA DEVICES AND OPERATIONS
    22. Naumov, VN; Panin, AG
      Some mechanisms of the frictional heating in a superconducting cable

      PLASMA DEVICES AND OPERATIONS
    23. Takacs, S
      The similarities in loss creation in LTS and HTS cables

      PHYSICA C
    24. Olsen, SK; Traeholt, C; Kuhle, A; Daumling, M; Tonnesen, O
      Measurements of AC losses in different former materials

      PHYSICA C
    25. Egorov, S
      AC coupling losses in superconducting multistage cables with and without additional co-twisted copper strands

      PHYSICA C
    26. Egorov, S; Lancetov, A; Lebedev, A; Rodin, I; Trokhachev, G; Zhelamskij, M
      Experimental investigation of AC losses and effective time constant in thehigh current cable

      PHYSICA C
    27. Ries, G; Leghissa, M; Rieger, J; Wiezorek, J; Oomen, M
      High-T-c superconductors and AC loss in electrotechnical devices

      PHYSICA C
    28. Egorov, S; Astrov, M; Fedotova, S
      Energy losses in a thin-wall tube multifilament composite superconductor carrying a transport current in a time-varying transverse magnetic field

      PHYSICA C
    29. Akhmetov, AA
      Network models of superconducting cables and the results of the matrix approach to their description

      PHYSICA C
    30. Bottura, L
      Modelling stability in superconducting cables

      PHYSICA C
    31. Ishiyama, A; Sasaki, M; Susa, T; Kim, SB; Tsuda, M; Yumura, H; Ohmatsu, K; Sato, K
      Transient stability of AC multi-strand superconducting cables

      PHYSICA C
    32. Vysotsky, VS; Funaki, K; Takeo, M
      Current distribution in multistrand superconducting cables - experimental methods and results

      PHYSICA C
    33. Seo, K; Hasegawa, M; Morita, M; Yoshimura, H
      Design parameters influencing non-uniform current distributions in superconducting multi-stage stranded cables

      PHYSICA C
    34. Dolgosheev, PI; Sytnikov, VE; Svalov, GG; Polyakova, N; Belij, DI
      The transport current redistribution between the core layers on the modelsof HTS cables

      PHYSICA C
    35. Akhmetov, AA; Sytnikov, VE
      Segregation of copper in the ITER cable and ramp rate limitation

      PHYSICA C
    36. Akhmetov, AA; Ivanov, SS; Shchegolev, IO
      The network approach to calculation of characteristic time constants of the flat two-layer superconducting cable

      PHYSICA C
    37. Sytnikov, VE; Dolgosheev, PI; Svalov, GG; Polyakova, NV; Belij, DI
      Influence of the multilayer HTS-cable conductor design on the current distribution

      PHYSICA C
    38. ROMANOVSKII VR
      RAMP RATE LIMITATION IN AC MULTISTRAND SUPERCONDUCTING CABLE DUE TO STATISTICAL SCATTERING IN INDUCTIVE COUPLING BETWEEN STRANDS

      Cryogenics
    39. AMEMIYA N
      OVERVIEW OF CURRENT DISTRIBUTION AND RE-DISTRIBUTION IN SUPERCONDUCTING CABLES AND THEIR INFLUENCE ON STABILITY

      Cryogenics
    40. MITO T; TAKAHATA K; IWAMOTO A; MAEKAWA R; YANAGI N; SATOW T; MOTOJIMA O; YAMAMOTO J; SUMIYOSHI F; KAWABATA S; HIRANO N
      EXTRA AC LOSSES FOR A CICC COIL DUE TO THE NONUNIFORM CURRENT DISTRIBUTION IN THE CABLE

      Cryogenics
    41. AMEMIYA N; YONEKAWA H; OGITSU T; KOBAYASHI E; SASAKI K; OHUCHI N; TSUCHIYA K; MIYASHITA K
      INFLUENCE OF CURRENT RE-DISTRIBUTION ON MINIMUM QUENCH ENERGY OF SUPERCONDUCTING TRIPLEX CABLE AGAINST LOCAL DISTURBANCE

      Cryogenics
    42. Kosaki, M; Nagao, M; Shimizu, N; Mizuno, Y
      Solid insulation and its deterioration

      CRYOGENICS
    43. Shimizu, H; Taketa, K; Yokomizu, Y; Matsumura, T
      Noncontact measurement of transient potential distribution in superconducting cable

      CRYOGENICS
    44. KIM SW; MAKIDA Y; SHINTOMI T; MITO T; IWAMOTO A; YAMAMOTO J
      EXPERIMENTAL-STUDY ON THE CHARACTERISTICS OF CURRENT DISTRIBUTION IN RUTHERFORD CABLES AND PARALLEL STRANDS

      IEEE transactions on applied superconductivity
    45. VYSOTSKY VS; KOROBKO AV; ILYIN YA; MULDER GBM; TENKATE HJ
      INFLUENCE OF A MUTLISTRAND CABLE DESIGN ON ITS QUENCH DEVELOPMENT PROCESS AND STABILITY

      Cryogenics
    46. ROMANOVSKII VR; GAVRILIN AV
      CURRENT-CARRYING CAPACITY REDUCTION IN SUPERCONDUCTING MULTISTRAND CABLE WITH DIFFERENT SMOOTHNESS OF VOLTAGE-CURRENT CHARACTERISTICS OF STRANDS

      Cryogenics
    47. YANAGI N; TAKACS S; MITO T; TAKAHATA K; IWAMOTO A; YAMAMOTO J
      MEASUREMENT OF TIME CONSTANTS FOR SUPERCONDUCTING CABLES WITH HALL PROBES

      Cryogenics
    48. KIMURA A; SHINTOMI T; TERASHIMA A; KAWABATA S; SUMIYOSHI F; HIRABAYASHI H
      INTERSTRAND COUPLING LOSSES OF RUTHERFORD CABLES

      Cryogenics
    49. MIURA O; TANAKA S; MIYOSHI K; ICHIYANAGI N; TANAKA Y; ISHII H; HARA T
      66KV-2KA PEAK LOAD TEST OF HIGH-T-C SUPERCONDUCTING MODEL CABLE

      Cryogenics
    50. BUZNIKOV NA; PUKHOV AA; RAKHMANOV AL; VYSOTSKY VS
      CURRENT REDISTRIBUTION BETWEEN STRANDS AND QUENCH PROCESS IN A SUPERCONDUCTING CABLE

      Cryogenics
    51. TAKAHATA K; YAMAMOTO J; MITO T
      STABILITY OF NBTI FORCED-FLOW SUPERCONDUCTING CABLE

      Cryogenics
    52. LVOVSKY YM
      STABILITY AGAINST TRANSIENT DISTURBANCES IN CABLE-IN-CONDUIT CONDUCTORS COOLED BY SUPERCRITICAL HELIUM

      IEEE transactions on applied superconductivity
    53. AKHMETOV AA; KURODA K; ONO K; TAKEO M
      EDDY CURRENTS IN FLAT 2-LAYER SUPERCONDUCTING CABLES

      Cryogenics
    54. KOSAKI M; NAGAO M; MINODA A; MIZUNO Y; HIRATA N; NAGATA M; TANAKA S
      DEVELOPMENT AND TESTS OF EXTRUDED ETHYLENEPROPYLENE-RUBBER-INSULATED SUPERCONDUCTING CABLE

      Cryogenics
    55. KANEKO H; YANAGI N; SATOW T; MITO T; TAKAHATA K; YAMAMOTO J
      FLUX JUMP IN SOLID MULTISTRAND SUPERCONDUCTING CABLE FOR FUSION MAGNET

      Cryogenics


ASDD Area Sistemi Dipartimentali e Documentali, Università di Bologna, Catalogo delle riviste ed altri periodici
Documento generato il 04/06/20 alle ore 07:12:03