MANUFACTURING METHOD OF TAPE-SHAPED Re-BASE (123) SUPERCONDUCTOR

This invention provides a tape-shaped superconductor which can realize high Jc and Ic values by virtue of the elimination of the cause of generation of cracks and deterioration of an electrical connectivity in crystal grain boundaries. In producing an Re-base (123) superconductor on a substrate by a...

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Main Authors MATSUDA, JUNKO, IZUMI, TERUO, SHIOHARA, YUH, YOSHIZUMI, MASATERU, AOKI, YUJI, NAKAOKA, KOICHI, NAKANISHI, TATSUHISA
Format Patent
LanguageEnglish
French
Japanese
Published 28.02.2008
Subjects
CHEMISTRY
COMPOUNDS CONTAINING METALS NOT COVERED BY SUBCLASSESC01D OR C01F
ELECTRICITY
INORGANIC CHEMISTRY
METALLURGY
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Summary:This invention provides a tape-shaped superconductor which can realize high Jc and Ic values by virtue of the elimination of the cause of generation of cracks and deterioration of an electrical connectivity in crystal grain boundaries. In producing an Re-base (123) superconductor on a substrate by an MOD method, the use of a raw material solution having a Re : Ba : Cu molar ratio of 1 : X : 3, wherein X is a Ba molar ratio satisfying X < 2 (preferably 1.0 = X = 1.8, especially 1.3 = X = 1.7), can realize the production of a thick-film tape-shaped superconductor having a superconductivity of Jc = 3.20 MA/cm2 and Ic = 525 A/cm (X = 1.5). La présente invention concerne un supraconducteur sous forme de ruban permettant d'obtenir des valeurs élevées de Jc et Ic via l'élimination de la cause de la fissuration et de la perte de connectivité électrique au niveau de joints de grains cristallins. Le procédé de l'invention produit un supraconducteur à base de Re (123) sur un substrat par procédé de décomposition organométallique (MOD) ; l'utilisation d'une solution de matière première ayant un rapport molaire de Re:Ba:Cu de 1:X:3, X étant un rapport molaire de Ba tel que X < 2 (de préférence 1,0 = X = 1,8, mieux encore 1,3 = X = 1,7), permet de produire un supraconducteur en forme de ruban à film épais ayant une supraconductivité telle que Jc = 3,20 MA/cm2 et Ic = 525 A/cm (avec X = 1,5).
Bibliography:Application Number: WO2007JP00623