Thermodynamically controlled melt processing to improve bulk materials

Krabbes G.; Schatzle P.

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Thermodynamically controlled melt processing to improve bulk materials

机译：热力学控制的熔体加工以改善散装物料

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High quality melt textured YBCO samples have been prepared on a modified MTG route. A trapped magnetic field of 8.5 T at 51.5 K was measured in the gap of 1 mm in a mini-magnet from two YBCO cylinders (d=26 mm, h=12 mm). At 77 K, each single domain cylinder traps more than 600 mT and the levitation pressure of 15 N/cm/sup 2/ in a distance of 0.5 mm was achieved by a 0.4 T SmCo magnet. The thermodynamic background of the preparation method is outlined. A thermodynamic approach to control growth and stoichiometry y in the alternative material Nd/sub 1+y/Ba/sub 2-y/Cu/sub 3/O/sub x/ is discussed. Critical currents of 46 kA/cm/sup 2/ (77 K) have been achieved by a modified recipe.

机译：已通过改进的MTG路线制备了高质量的熔融织构YBCO样品。在微型磁铁中，从两个YBCO圆柱体（d = 26 mm，h = 12 mm）在1 mm的间隙中，在51.5 K处测量到8.5 T的俘获磁场。在77 K时，每个单畴圆柱体的捕获量超过600 mT，并且通过0.4 T SmCo磁体在0.5 mm的距离内获得15 N / cm / sup 2 /的悬浮压力。概述了制备方法的热力学背景。讨论了控制替代材料Nd / sub 1 + y / Ba / sub 2-y / Cu / sub 3 / O / sub x /中的生长和化学计量y的热力学方法。修改后的配方已实现了46 kA / cm / sup 2 /（77 K）的临界电流。

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《IEEE Transactions on Applied Superconductivity》 |1997年第2期|P.1735-1738|共4页
作者
Krabbes G.; Schatzle P.;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类超导体、超导体材料;半导体技术;
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机译：热力学控制的熔体加工以改善散装物料
2. YBCO bulk material processed in an oxygen controlled melt-growth process [J] . F Giovannelli, I Monot-Laffez Superconductor Science & Technology . 2002,第8期

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Thermodynamically controlled melt processing to improve bulk materials

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