References Ë 53[62]Hull JR, Murakami M. Applications of bulk high-temperature superconductors. Proc IEEE.
2004;92:1705–1718.
[63]Krabbes G, Fuchs G, Canders WR, May H, Palka R. High temperature superconciluctor bulk
materials. Weinheim: Wiley-Vch Verlag GmbH & Co. KGaA; 2006.
[64]Wang SY, Wang JS, Wang JY, Wei XQ, Zhang HB, Jia J, Yang SH, Wang C, Tang B. Superconducti-
vity of Bulk Y–Ba–Cu–O Oxide. Superconductivity and cryogenics. 1987;15(3):47–48.
[65]Tamura H, Mito T, Yamada Y, Watanabe M, Ohkubo J, Heller R. Bi2212 HTS tubular bulk with
conical shape for current lead. Journal of Physics: conference series. 2006;43:1035–1038.
[66]Endoh R, Kato H, Izumi T, Shiohara Y. Evaluation of the invasion heat for the HTS current lead
using YBCO. Physica C. 2003;392–396:1167–1170.
[67]Obata K, Shimoyama J, Yamamoto A, Ogino H, Kishio K, Kobayashi S, Hayashi K. Critical
current properties of c-axis oriented Bi (Pb) 2223 bulks sintered under high gas pressures.
Physics procedia, 2012;36:665–668.
[68]Fagnard JF, Vanderheyden B, Vanderbemden P. Magnetic shielding with bulk high tempera-
ture superconductors: factors influencing the magnetic field penetration in hollow cylinders.
Miryala M, ed. Superconductivity: recent development and new production technologies. New
York: Nova Science Publishers; 2012. pp. 127–150.
[69]Nishikubo T, Endo H, Itoh M. Orientation characteristics in RF magnetic shielding effects of
BPSCCO Plates. IEEE Trans on Appl Supercond. 2009;19(3):2245–2248.
[70]Rabbers JJ, POomen M, Bassani E, Ripamonti G, Giunchi G. Magnetic shielding capability of
MgB 2 cylinders. Supercond Sci Technol. 2010;23(12):125003.
[71]Fang H, Claycomb JR, Zhou XY, Putman PT, Padmanhabhan S, Miller JH, Ravi-Chandar K,
Salama K. Melt-textured YBCO superconducting tube for magnetic shielding. IEEE Trans on
Appl Supercond. 2003;13(2):3103–3105.
[72]Ohsemochi K, Ono Mi, Nomura S, Kuriyama T, Kasahara H, Akita S, Koso S. Development of
3kA conduction cooled HTS current lead system. Cryogenics. 2003;43(10–11):643–648.
[73]Jin S, Tiefel TH, Sherwood RC, Van Dover RB, Davis ME, Kammlott GW, Fastnacht RA. Melt-
textured growth of polycrystalline YBa 2 Cu 3 O 7 −δ, with high transportJc, at 77 K. Phys Rev.
1988;37(13):7850–7853.
[74]Jin S, Tiefel TH, Sherwood RC, Van Dover RB, Davis ME, Kammlott GW, Fastnacht RA, Kuth
HD. High critical currents in Y–Ba–Cu–O superconductors. Appl Phys Lett. 1988;52(24):
2074–2076.
[75]Salama K, Selvamanicham V, Gao L, Sun K. High current density in bulk YBa 2 Cu 3 Ox
superconductor. Appl Phys Lett. 1989;54(23):2352–2354.
[76]Murakami M, Morita M, Doi K, Miyamoto K. A new process with the promise of highJcin Oxide
Superconductors. Jpn J Appl Phys. 1989;28(7):1189–1194.
[77]Murakami M, Gotoh S, Fujimoto H, Yamagushi K, Koshizuka N, Tanaka S. Flux pinning
and critical currents in melt processed YBaCuO superconductors. Supercond Sci Technol.
1991;4(4):S43.
[78]Chen YL, Chan HM, Harmer MP, Todt VR, Sengupta S, Shi D. A new method for net-shape
forming of large, single-domain YBa 2 Cu 3 O 6 +x. Physica C. 1994;234(3–4):232–236.
[79]Li BZ, Zhou DF, Xu K, Hara S, Tsuzuki K, Miki M, Felder B, Deng ZG, Izumi M. Materials process
and applications of single grain (RE)–Ba–Cu–O bulk high-temperature superconductors.
Physica C. 2012;482(11):50–57.
[80]Chen PW, Chen SY, Chen IG, Wu MK. Melt processing and flux pinning of bulk RE–Ba–Cu–O
high temperature superconductors. Miryala M, (Ed.) Superconductivity: recent development
and new production technologies. New York: Nova Science Publishers; 2012. pp. 105–125.