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    • 3. 发明授权
    • Method for preparing high-temperature superconducting wire
    • 制备高温超导线的方法
    • US5902774A
    • 1999-05-11
    • US955322
    • 1997-10-20
    • Koji MuranakaKenichi SatoTakeshi Hikata
    • Koji MuranakaKenichi SatoTakeshi Hikata
    • H01L39/24
    • H01L39/248Y10T29/49014Y10T29/4981
    • A method of producing a tape-shaped superconducting wire is provided. The wire maintains a high critical temperature and a high critical current density along the overall length thereof. In this method, raw material powder for the oxide superconductor is first charged in a silver sheath and the sheath charged with the powder is subjected to plastic working to prepare a first flat type wire. On the other hand, a second wire consisting of a tape wire formed by coating a surface of a flat type wire having at least an outer surface consisting essentially of silver or a silver alloy with a metal oxide or ceramics, or a tape wire containing ceramics fibers and a binder dissipated by heat treatment is prepared. The first and second wires are layered with each other, and tightly wound in a pancake coil shape. The wires wound in the pancake coil shape are heat treated for sintering the oxide superconductor. After the heat treatment, the first wire is separated from the second wire.
    • 提供了一种制造带状超导线材的方法。 导线沿其整个长度保持高临界温度和高临界电流密度。 在该方法中,将首先将氧化物超导体的原料粉末装入银护套中,并对装有粉末的护套进行塑性加工以制备第一扁平型线。 另一方面,一种第二线,其由通过将至少具有由银或银合金构成的外表面与金属氧化物或陶瓷至少包覆的扁平线的表面形成的带状线或者包含陶瓷的带状线 制备通过热处理消散的纤维和粘合剂。 第一和第二线彼此层叠,并且以扁平线圈形状紧密缠绕。 以扁平线圈形状缠绕的线被热处理以烧结氧化物超导体。 在热处理之后,第一线与第二线分离。
    • 4. 发明授权
    • Method of preparing oxide superconducting wire
    • 制备氧化物超导线的方法
    • US5508254A
    • 1996-04-16
    • US291237
    • 1994-08-16
    • Kenichi SatoHidehito MukaiTakeshi Hikata
    • Kenichi SatoHidehito MukaiTakeshi Hikata
    • B21F15/06B21F19/00B22F3/14C22C1/05H01B12/10H01B13/00H01L39/24
    • H01L39/248Y10S505/704Y10S505/742Y10T29/49014
    • Disclosed herein is a method of preparing an oxide superconducting wire comprising the steps of coating a powder material for forming an oxide superconductor with a metal, performing deformation processing on the metal-coated powder material thereby obtaining a tape-type wire material, superposing a plurality of such tape-type wire materials, performing first heat treatment on the plurality of superposed tape-type wire materials while simultaneously diffusion-bonding the metallic coats to each other, then performing deformation processing on the plurality of superposed tape-type wire materials, and performing second heat treatment on the plurality of deformation-processed tape-type wire materials. Preferably the oxide superconductor to be obtained is a bismuth oxide superconductor having a 2223 composition in a composition of Bi-Sr-Ca-Cu or (Bi,Pb)-Sr-Ca-Cu, and the powder material consists of a superconducting phase, which is mainly composed of a 2212 phase, and non-superconducting phases.
    • 本文公开了一种制备氧化物超导线的方法,包括以下步骤:用金属涂覆用于形成氧化物超导体的粉末材料,对金属涂覆的粉末材料进行变形处理,从而获得带状线材,将多个 对这些带状线材进行第一热处理,同时使金属外壳彼此扩散接合,然后对多个重叠的带状线材进行变形处理, 对多个经变形处理的带状线材进行第二热处理。 优选地,要获得的氧化物超导体是Bi-Sr-Ca-Cu或(Bi,Pb)-Sr-Ca-Cu组成中具有2223组成的氧化铋超导体,并且该粉末材料由超导相组成, 主要由2212相和非超导相组成。
    • 6. 发明授权
    • Method of manufacturing oxide superconducting wire
    • 氧化物超导线的制造方法
    • US5288699A
    • 1994-02-22
    • US960307
    • 1992-10-13
    • Kenichi SatoTakeshi Hikata
    • Kenichi SatoTakeshi Hikata
    • H01L39/24
    • H01L39/248Y10S505/928Y10S505/93Y10T29/49014
    • In a method of manufacturing an oxide superconducting wire including steps of performing heat treatment and deformation processing in a state of filling up a metal sheath with powder of an oxide superconductor or raw material therefor, fine particles or gas adsorbed by the powder can be desorbed by heating the powder at least once preferably under decompression in a stage before final sintering of the powder. It is possible to further withdraw the adsorbed fine particles or gas by heating the powder under decompression at least once before the same is covered with the sheath, covering the powder with the sheath, deforming the sheath and again heating the same under decompression, for example. Thus, it is possible to prevent gas generation from the powder during heat treatment for further growing superconductive particles, thereby preventing the superconducting wire from inflation etc. caused by such gas generation.
    • 在制造氧化物超导线的方法中,包括在用氧化物超导体或其原料的粉末填充金属护套的状态下进行热处理和变形处理的步骤,由粉末吸附的细颗粒或气体可以被 在粉末的最终烧结之前的阶段中,优选在减压下至少一次加热粉末。 可以通过将减压下的粉末加热至少一次,同时被护套覆盖,用护套覆盖粉末,使护套变形并且在减压下再次加热,从而进一步退出吸附的微粒或气体,例如 。 因此,可以防止在热处理期间从粉末中产生气体以进一步生长超导颗粒,从而防止由这种气体产生引起的超导线材的充气等。
    • 8. 发明授权
    • Method of preparing bismuth oxide superconducting wire
    • 制备氧化铋超导线的方法
    • US06536096B2
    • 2003-03-25
    • US08167581
    • 1993-12-15
    • Kenichi SatoNobuhiro ShibutaHidehito MukaiTakeshi HikataMunetsugu UeyamaTakeshi Kato
    • Kenichi SatoNobuhiro ShibutaHidehito MukaiTakeshi HikataMunetsugu UeyamaTakeshi Kato
    • H01L3924
    • H01L39/248C04B35/4521C04B35/4525Y10T29/49014
    • Powder of not more than 1 &mgr;m in mean particle diameter is prepared to contain a mixture of superconducting phases mainly composed of 2212 phases of Bi—Sr—Ca—Cu or (Bi, Pb)—Sr—Ca—Cu and non-superconducting phases which is obtained by calcining and pulverizing raw material powder at least once, this powder is heat treated at a high temperature and thereafter coated with a metal to prepare a round wire by deformation processing, thereafter a tape type or flat type wire is prepared by deformation processing, then the wire is heat treated under conditions for allowing phase transformation of the 2212 phases of main superconducting phases to 2223 phases with facilitation of grain growth, thereafter the as-formed 2223 phases are highly densified by deformation processing or pressurization, and the wire is again heat treated so that the 2223 phases are strongly bonded with each other and the non-superconducting phases are finely dispersed. Thus, a bismuth oxide superconducting wire having a high critical current density is obtained.
    • 制备平均粒径不超过1um的粉末,其含有主要由2212相的Bi-Sr-Ca-Cu或(Bi,Pb)-Sr-Ca-Cu和非超导相的超导相的混合物 其通过将原料粉末煅烧和粉碎至少一次而获得,该粉末在高温下进行热处理,然后用金属涂覆以通过变形处理制备圆形线,然后通过变形来制备带状或扁平型线 然后在使主要超导相的2212相相变到2223相的条件下进行热处理,促进晶粒生长,此后形成的2223相通过变形加工或加压而高度致密化,并且导线 再次热处理使得2223相彼此牢固地结合,并且非超导相被细分散。 因此,获得具有高临界电流密度的氧化铋超导线。
    • 9. 发明授权
    • Bismuth oxide superconductor and method of preparing the same
    • 氧化铋超导体及其制备方法
    • US5910222A
    • 1999-06-08
    • US858842
    • 1997-05-19
    • Kenichi SatoTakeshi Hikata
    • Kenichi SatoTakeshi Hikata
    • H01L39/12H01L39/14H01L39/24
    • H01L39/143H01L39/126H01L39/248Y10S428/93Y10S505/701Y10S505/704
    • In a bismuth oxide superconductor having a composition of Bi--Sr--Ca--Cu or (Bi,Pb)--Sr--Ca--Cu and being covered with a metal sheath, the a-b plane of a 2223 phase, which is a 110 K phase, is oriented along the longitudinal direction as a matrix, while a dispersed superconducting phase mainly consisting of a 2212 phase, which is a 80 K phase, and/or non-superconducting phases is dispersed along the a-b plane in the 2223 phase, so that a magnetic field property of its critical current density is extremely improved. In order to prepare such a bismuth oxide superconductor, performed are the steps of preparing raw material which is based on a 2223 composition in. Bi--Sr--Ca--Cu or (Bi,Pb)--Sr--Ca--Cu in relation to blending/composition, consisting as a superconducting phase of mainly a 2212 phase and non-superconducting phases in relation to the crystal structure, covering the raw material with a metal sheath, and performing deformation processing and heat treatment on the composite.
    • 在具有Bi-Sr-Ca-Cu或(Bi,Pb)-Sr-Ca-Cu组成并被金属护套覆盖的氧化铋超导体中,2223相的ab平面为110K相 沿纵向取向为矩阵,而主要由2212相组成的分散的超导相(其为80K相和/或非超导相)沿着2223相的ab平面分散,使得 其临界电流密度的磁场特性极大地改善。 为了制备这种氧化铋超导体,进行以Bi-Sr-Ca-Cu或(Bi,Pb)-Sr-Ca-Cu为基础的2223组成相对于共混物的原料的制备工序 组成,主要包括相对于晶体结构的2212相和非超导相的超导相,用金属护套覆盖原材料,并对复合材料进行变形加工和热处理。
    • 10. 发明授权
    • Method of preparing oxide superconducting wire
    • 制备氧化物超导线的方法
    • US5369089A
    • 1994-11-29
    • US128010
    • 1993-09-27
    • Kenichi SatoHidehito MukaiTakeshi Hikata
    • Kenichi SatoHidehito MukaiTakeshi Hikata
    • B21F15/06B21F19/00B22F3/14C22C1/05H01B12/10H01B13/00H01L39/24
    • H01L39/248Y10S505/704Y10S505/742Y10T29/49014
    • Disclosed herein is a method of preparing an oxide superconducting wire comprising the steps of coating a powder material for forming an oxide superconductor with a metal, performing deformation processing on the metal-coated powder material thereby obtaining a tape-type wire material, superposing a plurality of such tape-type wire materials, performing first heat treatment on the plurality of superposed tape-type wire materials while simultaneously diffusion-bonding the metallic coats to each other, then performing deformation processing on the plurality of superposed tape-type wire materials, and performing second heat treatment on the plurality of deformation-processed tape-type wire materials. Preferably the oxide superconductor to be obtained is a bismuth oxide superconductor having a 2223 composition in a composition of Bi--Sr--Ca--Cu or (Bi,Pb)--Sr--Ca--Cu, and the powder material consists of a superconducting phase, which is mainly composed of a 2212 phase, and non-superconducting phases.
    • 本文公开了一种制备氧化物超导线的方法,包括以下步骤:用金属涂覆用于形成氧化物超导体的粉末材料,对金属涂覆的粉末材料进行变形处理,从而获得带状线材,将多个 对这些带状线材进行第一热处理,同时使金属外壳彼此扩散接合,然后对多个重叠的带状线材进行变形处理, 对多个经变形处理的带状线材进行第二热处理。 优选地,要获得的氧化物超导体是Bi-Sr-Ca-Cu或(Bi,Pb)-Sr-Ca-Cu组成中具有2223组成的氧化铋超导体,并且该粉末材料由超导相组成, 主要由2212相和非超导相组成。