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    • 3. 发明专利
    • Oxide superconductive wire material and manufacturing method thereof
    • 氧化物超导线材及其制造方法
    • JP2012174567A
    • 2012-09-10
    • JP2011036560
    • 2011-02-23
    • Sumitomo Electric Ind LtdNational Institute Of Advanced Industrial & Technology住友電気工業株式会社独立行政法人産業技術総合研究所
    • HONDA GENKINAGAISHI TATSUOKINAKANISHI TAKESHIOKI YASUTAROYAMAGUCHI TAKASHIHANAFUSA KEIYAMAGUCHI IWAOMANABE TAKAAKIKUMAGAI TOSHIYASHIMOYAMA JUNICHI
    • H01B13/00C01G1/00H01B12/06H01F6/06H01L39/24
    • Y02E40/642
    • PROBLEM TO BE SOLVED: To provide an oxide superconductive wire material in which, even though a lamination is thick, Jc is not reduced and an oxide superconducting layer having a sufficiently high Ic proportional to the thickness the lamination is formed on a substrate plate, and provide a manufacturing method of the oxide superconductive wire material.SOLUTION: A manufacturing method for an oxide superconductive wire material in which organic metallic compound is used as raw material and an oxide superconducting layer is formed by a coating pyrolysis method on an orientation metal substrate, includes a coating film forming process for forming a coating film of the organic metallic compound, a temporary baking treatment process for forming a temporary baked film by pyrolyzing and removing organic components contained in the coating film, and a formal baking treatment process for forming a formal baked film by crystallizing the temporary baked film. The coating film forming process, the temporary baking treatment process, and the formal baking treatment process are repeated so as to form and stack a plurality of formal baked films, so that the oxide superconducting layer in which a defective layer is formed between the stacked films is formed. An oxide superconductive wire material has a plurality of formal baked films which are stacked via a defective layer by the coating pyrolysis method.
    • 要解决的问题:提供一种氧化物超导线材料,其中即使层压较厚,Jc也不会被还原,并且具有足够高的Ic的氧化物超导层与叠片形成在衬底上的厚度成正比 并提供氧化物超导线材的制造方法。 解决方案:通过在取向金属基板上的涂层热解法形成其中使用有机金属化合物作为原料的氧化物超导线材料的制造方法和氧化物超导层,包括用于形成的涂膜形成工艺 有机金属化合物的涂膜,通过热解除去包含在涂膜中的有机成分来形成临时烘烤膜的临时烘烤处理工艺和通过使临时烘烤膜结晶形成正式烘烤膜的正式烘烤处理过程 。 重复涂膜形成过程,临时烘烤处理过程和正式烘烤处理过程,以形成和堆叠多个正式烘烤膜,使得在层叠膜之间形成有缺陷层的氧化物超导层 形成了。 氧化物超导线材具有通过涂层热解法通过不良层堆叠的多个正式烘烤膜。 版权所有(C)2012,JPO&INPIT
    • 4. 发明专利
    • Superconducting rebco oxide thin film and method for manufacturing the same
    • 超导氧化物薄膜及其制造方法
    • JP2012113864A
    • 2012-06-14
    • JP2010260114
    • 2010-11-22
    • National Institute Of Advanced Industrial & TechnologySumitomo Electric Ind Ltd住友電気工業株式会社独立行政法人産業技術総合研究所
    • NAGAISHI TATSUOKIOKI YASUTAROYAMAGUCHI IWAOSOMA MITSUGIMANABE TAKAAKIKUMAGAI TOSHIYASHIMOYAMA JUNICHIMUKODA MASASHI
    • H01B13/00C01G1/00C01G3/00C23C28/04H01B12/06
    • Y02E40/642
    • PROBLEM TO BE SOLVED: To provide a method for manufacturing a superconducting oxide thin film offering sufficiently high Ic with stability by thickening the film by a fluorine-free metal organic deposition (FF-MOD) method.SOLUTION: The method for manufacturing a superconducting REBCO oxide thin film comprises the steps of making a superconducting oxide layer by calcining a coating film of a fluorine-free metal organic compound solution and applying firing treatment to the calcined film by a MOD method; forming a non-superconducting material layer on the superconducting oxide layer; and making a dispersion layer by making a superconducting oxide layer on the non-superconducting material layer by the MOD method and dispersing the product of a chemical reaction between the non-superconducting material and the superconducting oxide layer caused by heat applied at the manufacture of the superconducting oxide layer to work as pins. The superconducting REBCO oxide thin film comprises the plurality of superconducting oxide layers made by the MOD method, and contains a dispersion layer made by dispersing the non-superconducting material to work as pins, between the superconducting oxide layers.
    • 要解决的问题:提供一种通过无氟金属有机沉积(FF-MOD)方法通过使膜增厚而使稳定性提供足够高的Ic的超导氧化物薄膜的制造方法。 解决方案:制造超导REBCO氧化物薄膜的方法包括以下步骤:通过煅烧无氟金属有机化合物溶液的涂膜并通过MOD方法对煅烧膜进行焙烧处理来制造超导氧化物层 ; 在超导氧化物层上形成非超导材料层; 以及通过MOD法在非超导材料层上制造超导氧化物层并分散在超导材料与超导氧化物层之间产生的化学反应的产物,从而制造分散层, 超导氧化物层作为引脚工作。 超导REBCO氧化物薄膜包括通过MOD方法制成的多个超导氧化物层,并且包含通过将非超导材料分散成在超导氧化物层之间作为引脚而制成的分散层。 版权所有(C)2012,JPO&INPIT
    • 5. 发明专利
    • Method for manufacturing oxide superconductive thin film
    • 氧化物超导薄膜的制造方法
    • JP2012064394A
    • 2012-03-29
    • JP2010206697
    • 2010-09-15
    • National Institute Of Advanced Industrial & TechnologySumitomo Electric Ind Ltd住友電気工業株式会社独立行政法人産業技術総合研究所
    • HONDA GENKINAGAISHI TATSUOKIYAMAGUCHI IWAOMANABE TAKAAKISHIMOYAMA JUNICHI
    • H01B13/00C01G1/00C01G3/00H01B12/06
    • Y02E40/642
    • PROBLEM TO BE SOLVED: To provide a method for manufacturing an oxide superconductive thin film, capable of obtaining a thick-film type oxide superconductive thin film formed by sintering a plurality of preliminary sintered films laminated and having a sufficiently high critical current value Ic.SOLUTION: A method for manufacturing an RE123-based (where RE is a rare earth element) oxide superconductive thin film used for manufacturing a superconductive wire rod by an application thermal decomposition method comprises: a preliminary-sintered-film forming step of forming preliminary sintered films having a plurality of films laminated by repeating several times, applying a raw material solution onto a base material and preliminary sintering the applied film; and an oxide-superconductive-thin-film forming step of forming the oxide superconductive thin film by sintering the preliminary sintered films. In the method for manufacturing the oxide superconductive thin film, the raw material solution having a ratio of RE, Ba and Cu deviating from a stoichiometric ratio is used for forming a first layer of the applied film provided on a surface of the base material.
    • 要解决的问题:为了提供一种制造氧化物超导薄膜的方法,能够获得通过烧结多个预先烧结的薄膜而形成的厚膜型氧化物超导薄膜,并且具有足够高的临界电流值 我知道了。 解决方案:通过应用热分解方法制造用于制造超导线材的RE123基(其中RE是稀土元素)氧化物超导薄膜的方法包括:预烧结膜形成步骤 形成通过重复多次层叠多个膜的初步烧结膜,将原料溶液施加到基材上并预涂烧所述膜; 以及通过烧结预烧结膜来形成氧化物超导薄膜的氧化物超导薄膜形成步骤。 在制造氧化物超导薄膜的方法中,使用偏离化学计量比的具有RE,Ba和Cu的比率的原料溶液来形成设置在基材表​​面上的涂布膜的第一层。 版权所有(C)2012,JPO&INPIT
    • 8. 发明专利
    • Oxide superconducting thin film wiring material, and method of manufacturing the same
    • 氧化物超薄薄膜接线材及其制造方法
    • JP2012230869A
    • 2012-11-22
    • JP2011100010
    • 2011-04-27
    • Sumitomo Electric Ind Ltd住友電気工業株式会社National Institute Of Advanced Industrial & Technology独立行政法人産業技術総合研究所
    • HONDA GENKINAGAISHI TATSUOKINAKANISHI TAKESHIOKI YASUTAROYAMAGUCHI TAKASHIHANAFUSA KEIMANABE TAKAAKIKUMAGAI TOSHIYAYAMAGUCHI IWAOSHIMOYAMA JUNICHIMUKODA MASASHI
    • H01B13/00C01G1/00C01G3/00H01B12/06
    • Y02E40/642
    • PROBLEM TO BE SOLVED: To provide an oxide superconducting thin film wiring material of stable quality which has a good adhesion with an oxide superconducting layer, and has a silver layer formed thereon, which works as a protection layer sufficiently, and a method of manufacturing the same.SOLUTION: The method for manufacturing an oxide superconducting thin film wiring material comprises: the step of forming an oxide superconducting layer on an orientated metal substrate; the step of applying a silver-containing material solution to a surface of the oxide superconducting layer and then forming a silver particle-containing oxide superconducting layer so that silver particles are partially exposed from the surface by MOD method; and the step of forming, as a protection layer, a silver layer on the silver particle-containing oxide superconducting layer. The oxide superconducting thin film wiring material comprises: an orientated metal substrate; an oxide superconducting layer formed on the orientated metal substrate; a silver particle-containing oxide superconducting layer which is formed on the oxide superconducting layer so that silver particles are partially exposed from the surface; and a silver layer formed on the silver particle-containing oxide superconducting layer, which serves as a protection layer.
    • 要解决的问题:提供一种质量稳定的氧化物超导薄膜布线材料,其与氧化物超导层具有良好的粘附性,并且其上形成有银层,充分地用作保护层,以及方法 的制造相同。 解决方案:制造氧化物超导薄膜布线材料的方法包括:在取向的金属基板上形成氧化物超导层的步骤; 将含银材料溶液施加到氧化物超导层的表面上,然后形成含银颗粒的氧化物超导层,使得银颗粒通过MOD方法从表面部分暴露出来的步骤; 以及在含有银颗粒的氧化物超导层上形成作为保护层的银层的步骤。 氧化物超导薄膜布线材料包括:定向金属基板; 形成在取向金属基板上的氧化物超导层; 形成在氧化物超导层上的含银颗粒的氧化物超导层,使得银颗粒从表面部分露出; 以及形成在作为保护层的含有银粒子的氧化物超导层上形成的银层。 版权所有(C)2013,JPO&INPIT
    • 10. 发明专利
    • Oxide superconductive thin film wire rod manufacturing method
    • 氧化物超导薄膜生产线制造方法
    • JP2012129084A
    • 2012-07-05
    • JP2010280105
    • 2010-12-16
    • National Institute Of Advanced Industrial & TechnologySumitomo Electric Ind Ltd住友電気工業株式会社独立行政法人産業技術総合研究所
    • HANAFUSA KEINAKANISHI TAKESHIHONDA GENKINAGAISHI TATSUOKIYAMAGUCHI IWAOKUMAGAI TOSHIYAMANABE TAKAAKISHIMOYAMA JUNICHI
    • H01B13/00C01G1/00H01B12/06H01L39/24
    • Y02E40/642
    • PROBLEM TO BE SOLVED: To provide a manufacturing method of an oxide superconductive thin film wire rod which, in manufacturing an oxide superconductive thin film wire rod by an MOD process, restrains a heterogeneous phase from being formed on an orientated metal substrate to ensure that an oxide superconductive thin film wire rod having desired superconducting characteristics will be manufactured.SOLUTION: A manufacturing method of an oxide superconductive thin film wire rod involves forming an oxide superconductive thin film from a metal organic compound by an application thermal decomposition process using an atmosphere furnace to manufacture an oxide superconductive thin film wire rod. The manufacturing method comprises a coated film making step in which a solution of a metal organic compound is applied to an orientated metal substrate having an intermediate layer formed therein to make a coated film, a temporary calcining step in which organic components contained in the metal organic compound of the coated film are removed by thermal decomposition to make a temporarily calcined film, and a formal calcining step in which the temporarily calcined film is crystallized to make an oxide superconductive thin film. The formal calcining step is a heat treatment step in which formal calcining is carried out under a low oxygen partial pressure and high temperature atmosphere, after which, in a region other than an oxide superconductor decomposition region, operation is performed to reduce oxygen partial pressure while the temperature is lowered to cool.
    • 解决的问题:提供一种氧化物超导薄膜线材的制造方法,其在通过MOD工艺制造氧化物超导薄膜线材时抑制在取向的金属基板上形成非均匀相, 确保制造具有期望的超导特性的氧化物超导薄膜线材。 解决方案:氧化物超导薄膜线材的制造方法包括通过使用气氛炉的施加热分解方法从金属有机化合物形成氧化物超导薄膜,以制造氧化物超导薄膜线材。 制造方法包括:涂膜制作步骤,其中将金属有机化合物的溶液施加到其中形成有中间层的定向金属基材上以制备涂膜;临时煅烧步骤,其中有机组分包含在金属有机 通过热分解除去涂膜的化合物以制备临时煅烧的膜,并且将临时煅烧的膜结晶以制备氧化物超导薄膜的正式煅烧步骤。 正式煅烧步骤是在低氧分压和高温气氛下进行正式煅烧的热处理步骤,然后在氧化物超导体分解区域以外的区域中进行操作以降低氧分压,同时 将温度降低冷却。 版权所有(C)2012,JPO&INPIT