Title :
Fabrication of HTS monoliths for a bearing system in a cryogenic vessel
Author :
Leenders, A. ; Ullrich, M. ; Freyhardt, H.C. ; Kesten, M. ; Fieseler, H. ; Canders, W.R. ; May, H. ; Weh, H. ; Gauss, S. ; Beck, Johannes
Author_Institution :
Zentrum fuer Funktionswerkstoffe GmbH, Goettingen, Germany
fDate :
6/1/1999 12:00:00 AM
Abstract :
Melt-textured YBCO monoliths were prepared by the top-seeded-melt-growth (TSMG) method with quadratic shape and dimensions of 38 mm/spl times/38 mm/spl times/12 mm. Generally, 16 samples of that size are prepared in one batch by carefully adjusting the processing parameters. Typical values of the maximum frozen-in field vary from 600-700 mT. A remarkably high value of 865 mT was recorded for a sample with dimensions of 17 mm/spl times/17 mm/spl times/12 mm. The levitation forces of these samples typically amount to 60-70 N. A demonstration model of a cryogenic vessel using arrangements of TSMG-YBCO monoliths and permanent magnets showed an improved performance compared to that of a conventional vessel.
Keywords :
barium compounds; copper compounds; cryogenics; high-temperature superconductors; magnetic levitation; permanent magnets; superconducting magnets; yttrium compounds; 12 mm; 17 mm; 38 mm; 600 to 700 mT; 865 mT; HTSC; YBaCuO; cryogenic vessel bearing systems; demonstration mode; levitation forces; maximum frozen-in field; melt-textured YBaCuO monoliths; permanent magnets; processing parameters; quadratic shape; top-seeded-melt-growth method; Cryogenics; Fabrication; High temperature superconductors; Hydrogen; Magnetic domains; Magnetic levitation; Permanent magnets; Shape; Superconducting magnets; Yttrium barium copper oxide;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
