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    • 3. 发明授权
    • Method of manufacturing oxide superconductor
    • 制造氧化物超导体的方法
    • US5652199A
    • 1997-07-29
    • US360407
    • 1994-12-21
    • Kazuyuki IsawaAyako YamamotoSeiji AdachiMakoto ItohHisao Yamauchi
    • Kazuyuki IsawaAyako YamamotoSeiji AdachiMakoto ItohHisao Yamauchi
    • C01G1/00C01G13/00C04B35/45H01B12/00H01B13/00H01L39/12H01L39/24C04B35/64
    • C04B35/45H01L39/2419
    • A method of manufacturing an oxide superconductor, including the steps of mixing oxide materials of the metals contained in an oxide superconductor represented by HgBa.sub.2 Ca.sub.2 Cu.sub.3 O.sub.8+y to prepare a powder mixture of the composition noted above, molding the powder mixture to prepare a molded body of a desired shape, and applying a heat treatment to the molded body within a hermetic container at a temperature sufficient for bringing about a solid phase reaction of the oxide materials for at least 20 hours. Also provided is a method of manufacturing an oxide superconductor, including the steps of mixing at least one additive element selected from the group consisting of Pb, Bi, Tl, Au, Pt, Ag, Cd and In with oxide materials of the metals contained in a Hg-series 1223 type oxide superconductor to prepare a powder mixture, molding the powder mixture to prepare a molded body of a desired shape, and applying a heat treatment to the molded body within a hermetic container at a temperature sufficient for bringing about a solid phase reaction of the oxide materials for at least 10 hours.
    • 一种制造氧化物超导体的方法,包括以下步骤:将由HgBa2Ca2Cu3O8 + y表示的氧化物超导体中所含的金属的氧化物材料混合,制备上述组合物的粉末混合物,模制该粉末混合物以制备 所需的形状,并且在足以使氧化物材料的固相反应至少20小时的温度下在密封容器内对成型体进行热处理。 还提供了一种制造氧化物超导体的方法,包括以下步骤:将选自Pb,Bi,Tl,Au,Pt,Ag,Cd和In中的至少一种添加元素与包含在其中的金属的氧化物材料混合 一种Hg系1223型氧化物超导体,以制备粉末混合物,模塑该粉末混合物以制备所需形状的成型体,并且在足以产生固体的温度下对密闭容器内的成型体进行热处理 氧化物材料的相位反应至少10小时。
    • 8. 发明授权
    • Oxide superconductor and method for manufacturing the same
    • 氧化物超导体及其制造方法
    • US5705457A
    • 1998-01-06
    • US525912
    • 1995-09-08
    • Toshiyuki TamuraSeiji AdachiXiao-Jing WuHisao Yamauchi
    • Toshiyuki TamuraSeiji AdachiXiao-Jing WuHisao Yamauchi
    • C01G1/00C01G21/00C04B35/45C04B35/645H01B13/00H01L39/24H01L39/12
    • C04B35/45C04B35/645Y10S505/742Y10S505/776
    • The present invention provides an oxide superconductor which is expressed in the composition formula (Pb.sub.1-x-y M.sub.x (A1).sub.y)(A2).sub.2 (A3).sub.n-1 (Cu).sub.n (O).sub.2n+3+z (wherein 0.ltoreq.0.6, 0.ltoreq.y.ltoreq.0.6, x+y.ltoreq.0.6, n denotes integers of 1 or more, -0.6.ltoreq.z.ltoreq.0.5, M denotes Cu or Cd, and A1, A2 and A3 denote at least one element of Ba, Sr, and Ca, respectively) and which has a crystal structure stacking rock salt structure based portions and infinite layer structure portions, wherein the rock salt structure based portion has a structure that an atoms layer having 0.5-1.5 oxygen atoms, in case the total atoms number of Pb, M and A1 is one, and an atoms layer having one or less oxygen atoms per one A2 atom, are stacked and the infinite layer structure portion has a structure that an atoms layer having 2 oxygen atoms per one Cu atom and an atoms layer of A3 atoms only, are stacked. Further, the present invention provides a method for manufacturing the above oxide superconductor by heat-treating a raw material of oxide superconductor at a temperature of 800.degree.-1200.degree. C. under superhigh pressure of 2-8 GPa.
    • 本发明提供以组成式(Pb1-x-yMx(A1)y)(A2)2(A3)n-1(Cu)n(O)2n + 3 + z(其中0)表示的氧化物超导体 n = 0.6,0≤y≤0.6,x + y <0.6,n表示1以上的整数,-0.6≤Z≤0.5,M表示Cu或Cd,A1表示 ,A2和A3分别表示Ba,Sr和Ca中的至少一种元素),其具有层叠基于盐岩结构的部分和无限层结构部分的晶体结构,其中岩盐结构基部分具有以下结构:原子 在氧原子数为0.5-1.5的情况下,在Pb,M和Al的总原子数为1的情况下,每个A2原子具有一个或多个氧原子的原子层被堆叠,并且无限层结构部分具有以下结构: 每个Cu原子具有2个氧原子并且仅具有A3原子的原子层的原子层被堆叠。 此外,本发明提供一种通过在800〜1200℃的温度下在2-8GPa的超高压下热处理氧化物超导体的原料来制造上述氧化物超导体的方法。
    • 9. 发明授权
    • Oxide superconductor and method of producing same
    • 氧化物超导体及其制造方法
    • US5670457A
    • 1997-09-23
    • US356640
    • 1994-12-15
    • Seiji AdachiChangqin JinXiao-Jing WuHisao YamauchiShoji Tanaka
    • Seiji AdachiChangqin JinXiao-Jing WuHisao YamauchiShoji Tanaka
    • C01G1/00C01G3/00H01B12/00H01B13/00H01L39/12C04B35/01C04B35/03
    • H01L39/126Y10S505/776Y10S505/778
    • An oxide superconductor composed of Cu, O and at least one of Ba, Sr and Ca and including alternately arranged at least one oxygen-deficient perovskite structure section and at least one infinite layer structure section, wherein the perovskite structure section consists of two first atomic layers and a second atomic layer sandwiched between the first layers, and wherein the infinite layer structure section consists of alternately arranged, third and fourth atomic layers. Each of the first layers consists of O and an element M.sup.1 selected from Ba, Sr and Ca and has an atomic ratio O/M.sup.1 of 1 or less, while the second layer consists of O and Cu and has an atomic ratio O/Cu of 2 or less. Each of the third layers consists of O and Cu and has an atomic ratio O/Cu of 2, while each of the fourth layers consists of an element M.sup.2 selected from Ba, Sr and Ca. A superconductor having a superconducting critical temperature of over 100 K. may be produced by heat treatment at 800.degree.-1,200.degree.C. under a super-high pressure of 20,000-80,000 atm.
    • 由Cu,O和Ba,Sr和Ca中的至少一种构成的氧化物超导体,包括交替排列至少一个缺氧钙钛矿结构部分和至少一个无限层结构部分,其中钙钛矿结构部分由两个第一原子 层和夹在第一层之间的第二原子层,并且其中无限层结构部分由交替排列的第三和第四原子层组成。 每个第一层由O和选自Ba,Sr和Ca的元素M1组成,并且具有1或更小的原子比O / M1,而第二层由O和Cu组成,并且原子比O / Cu为 2以下。 每个第三层由O和Cu组成,并且原子比O / Cu为2,而每个第四层由选自Ba,Sr和Ca的元素M2组成。 具有超导临界温度超过100K的超导体可以通过在20000-80,000大气压的超高压下在800-1200℃下进行热处理来制备。