Method for improving single domain YBCO superconducting block critical current

A critical current, superconducting block technology, applied in the usage of superconductor elements, superconducting devices, superconducting/high-conducting conductors, etc., to achieve the effect of improving critical current

Inactive Publication Date: 2009-05-13
UNIV OF SCI & TECH BEIJING
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Problems solved by technology

The critical current density under the self-field can be increased by nearly 20000A / cm 2 , Unfortunately, the critical current density under high field (2T) only increased by nearly 5000A / cm 2

Method used

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  • Method for improving single domain YBCO superconducting block critical current

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Embodiment 1

[0012] Tetraethyl orthosilicate, absolute ethanol and deionized water are formulated into a clear and transparent solution in a volume ratio of 1:1-3:1-3. After 50-90 ° C water bath, and stirred for 1-3 hours. Then adjust the pH value to 8-10 with ammonia water, and continue to stir until a milky white gel is formed. After one week in the air, dry at 70-90°C for 10-30 hours to form xerogel. Grind the xerogel into fine powder, and calcinate at 400-700°C for 0.5-2.5 hours to obtain SiO with a particle size of 20-100nm 2 Nano powder.

[0013] SiO 2 The nanometer powder is added to the precursor powder in proportions of 0.03wt%, 0.06wt% and 0.09wt% relative to the YBCO superconducting bulk precursor powder. Place in an agate jar and grind with yttrium-stabilized zirconia balls. Match the balls according to the grinding particle size of 300-400 mesh, the weight ratio of balls to materials is about 1:1.2, and the grinding time is about 2 hours. After being uniformly mixed by b...

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Abstract

The invention relates to a method for increasing the critical current of a single domain YBCO superconducting block, which belongs to the field of functional materials. The method is characterized by comprising the following steps: doping SiO2 nanometer powder of which the grain size is between 20 and 100 nanometers to pioneer powder of the single domain YBCO superconducting block; adding SiO2 nanometer powder which is 0.02 to 1 weight percent of the pioneer powder of the YBCO superconducting block to the pioneer powder; performing compression molding with a single shaft on the mixture after the mixture is mixed evenly through ball milling; and generating the single domain structured YBCO superconducting block by adopting a top seed assisted melt texture growth process (TSMTG). The process for preparing the SiO2 nanometer powder comprises the following steps: preparing a clear and transparent solution from tetraethyl orthosilicate, anhydrous ethanol and deionized water according to the volume ratio of 1 to 1-3 to 1-3, and forming a milky gel after water bath and stirring; and forming a dried gel and grinding the dried gel into fine powder, and baking the fine powder at a temperature of between 400 and 700 DEG C for 0.5 to 2.5 hours to obtain the SiO2 nanometer powder of which the grain size is between 20 and 100 nanometers. The method effectively increases the critical current the single domain YBCO superconducting block within a wide field range.

Description

technical field [0001] The invention relates to a method for increasing the critical current of a monodomain yttrium barium copper oxide (YBCO) superconducting block, which belongs to the field of functional materials. Background technique [0002] The melt-textured YBCO superconducting bulk can capture high magnetic fields. And it is expected to be used in flywheel energy storage, motor rotor, high-performance magnetic source, maglev device, etc. Although people have obtained a relatively high critical current density. But practical industrial applications require higher critical current densities, especially at high fields. Since the coherence length of type II superconductors is only a few nanometers. Accordingly, efforts in this area have focused on chemical doping and adding non-superconducting nanoparticles as the second phase of the Y123 matrix. For example: On the one hand, non-magnetic ions (such as Li+) replace CuO 2 Cu ions on the surface; magnetic ions (such...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B35/45C04B35/622H01B12/00
CPCY02E40/60
Inventor 燕青芝焦玉磊肖玲郑明辉冯巧商敏葛昌纯
Owner UNIV OF SCI & TECH BEIJING
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