Annealing Patents (Class 505/742)
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Patent number: 5622918Abstract: A process for preparing an YBCO oxide thin film which has a crystalline, clean and smooth surface on a substrate. The process is conducted by using an apparatus comprising a vacuum chamber in which an oxidizing gas of O.sub.2 including O.sub.3 can be supplied near the substrate so that pressure around the substrate can be increased while maintaining high vacuum near an evaporation source and K cell evaporation sources arranged in the vacuum chamber wherein the substrate is heated, molecular beam of constituent atoms of the oxide excluding oxygen are supplied from the K cell evaporation sources, and a chilled oxidizing gas is locally supplied to the vicinity of the substrate.Type: GrantFiled: August 25, 1995Date of Patent: April 22, 1997Assignee: Sumitomo Electric Industries, Ltd.Inventor: Takao Nakamura
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Patent number: 5607900Abstract: A process for removing contaminants from a surface of a thin film of oxide superconductor deposited on a substrate. The thin film of oxide superconductor is heat-treated in ultra-high vacuum at a temperature which is within a range of -100.degree. C. to +100.degree. C. of the temperature at which oxygen enter into the oxide superconductor.The process is used for removing photo-resist from a surface of thin film of oxide superconductor and for producing a layered structure containing at least one thin film of oxide superconductor such as Y.sub.1 Ba.sub.2 Cu.sub.3 O.sub.7-x having a contaminated surface. On the cleaned surface, another thin film of oxide superconductor or non-superconductor is deposited. The resulting structure of layered thin films is used for fabricating superconducting transistor, Josephson junctions, superconducting circuits or the like.Type: GrantFiled: November 1, 1995Date of Patent: March 4, 1997Assignee: Sumitomo Electric Industries, Ltd.Inventors: Hiroshi Inada, Takao Nakamura, Michitomo Iiyama, So Tanaka
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Patent number: 5597782Abstract: A method for improving the phase purity of a multiphase ceramic high temperature superconductor by selective microwave heating of undesired phases in a multiphase material to cause a phase transformation of the undesired phase to the desired phase. The selective microwave heating may be employed during initial firing and sintering of the ceramic superconductor compound or as a subsequent annealing step. Plane polarized microwave energy may be employed to enhance the two dimensional anisotropy of the compound by similar selective heating.Type: GrantFiled: January 9, 1995Date of Patent: January 28, 1997Inventor: David L. Henty
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Patent number: 5595959Abstract: A method of forming a high-Tc microbridge superconductor device is disclosed, which comprises the steps of forming an inclined step on the surface of a substrate, the inclined step having an angle of inclination of from about 20 to about 80 degrees; depositing a layer of c-axis oriented superconductor material overlying the substrate such that there is a break in the layer of superconductor material at the inclined step; and depositing a layer of normal material overlying the layer of c-axis oriented superconductor material.Type: GrantFiled: November 22, 1994Date of Patent: January 21, 1997Assignee: Biomagnetic Technologies, Inc.Inventors: Mark S. DiIorio, Shozo Yoshizumi, Kai-Yuen Yang
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Patent number: 5585332Abstract: A perovskite type superconductor film having a high content, almost a single phase, of the high Tc phase is formed by the steps of: depositing at least one first film of a first material (e.g., a composite oxide of Bi-Sr-Ca-Cu-O system or Tl-Ba-Ca-Cu-O system) constituting a perovskite type superconductor over a substrate; depositing at least one second film of a second material containing an oxide or element (Bi.sub.2 O.sub.3, Tl.sub.2 O.sub.3, PbO.sub.x, etc., particularly PbO.sub.x) having a vapor pressure of more than 10.sup.-4 Pa at 800.degree. C. at least as a main component over the substrate; to thereby form a stack of the first and second films; and heat treating the stack of the first and second films to form the perovskite type superconductor film on the substrate. Further, preferred compositions of the as-deposited films or stack are determined.Type: GrantFiled: January 25, 1995Date of Patent: December 17, 1996Assignee: Fujitsu LimitedInventors: Atsushi Tanaka, Nobuo Kamehara, Koichi Niwa
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Patent number: 5567673Abstract: This invention relates to a process of forming multilayered thallium-containing superconducting composites, wherein a first thallium-containing superconducting layer, an intermediate thallium-containing oxide layer and a second thallium-containing superconducting layer are successively deposited on a substrate by a vapor phase process by controlling the heating temperature, pressure of oxidizing gas and thallium vapor pressure during post-deposition annealing of the superconducting films.Type: GrantFiled: March 29, 1995Date of Patent: October 22, 1996Assignee: E. I. Du Pont de Nemours and CompanyInventors: Dean W. Face, Kirsten E. Myers
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Patent number: 5556831Abstract: A method of treating a part made of a superconductive ceramic of the (Ln).sub.1 Ba.sub.2 Cu.sub.3 O.sub.7-.delta. type, where Ln is chosen from the rare earth elements other than cerium and terbium, the method being designed to reduce the value of .delta., in which method said part is heat treated in an oxidizing atmosphere, said method being wherein, during said treatment, an electric current with a density lying in the range 0.1 A/cm.sup.2 to 2 A/cm.sup.2 is caused to flow through said part, said treatment atmosphere having a partial pressure of oxygen lying in the range 0.1 atmospheres to 1 atmosphere, the treatment temperature lying in the range 200.degree. C. to 500.degree. C., and the duration of said treatment lying in the range 1 hour to 200 hours.Type: GrantFiled: June 21, 1994Date of Patent: September 17, 1996Assignee: Alactel Alsthom Compagnie Generale d'ElectriciteInventors: Alain Wicker, Jean-Pierre Bonnet, Mariano Sanz, Patrice Dordor, Christophe Magro
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Patent number: 5545613Abstract: A method of preparing a superconducting oxide by combining the metallic elements of the oxide to form an alloy, followed by oxidation of the alloy to form the oxide. Superconducting oxide-metal composites are prepared in which a noble metal phase intimately mixed with the oxide phase results in improved mechanical properties. The superconducting oxides and oxide-metal composites are provided in a variety of useful forms.Type: GrantFiled: July 11, 1994Date of Patent: August 13, 1996Assignee: Massachusetts Institute of TechnologyInventors: Gregory J. Yurek, John B. VanderSande
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Patent number: 5536705Abstract: A family of mercury-containing Sr-(Ca.cndot.Y)-Cu-O superconducting materials having a zero-resistance temperature, T.sub.c(zero), greater than 90 K so that they can be cooled to and maintain the desired superconducting characteristics using relatively less expensive liquid nitrogen, are disclosed. The high-temperature superconductor is represented by the formula of: (Pb.sub.0.5 Hg.sub.0.5)(Sr.sub.2-x Ba.sub.x)(Ca.sub.0.7 Y.sub.0.3)Cu.sub.2 O.sub.7-.delta. ; wherein the value of x ranges between about 0.1 and about 0.6, preferably between about 0.2 and about 0.3. These superconducting materials are prepared by first grinding and mixing in open air constituent oxide powders of PbO, HgO, SrO.sub.2, BaO.sub.2, CaO, Y.sub.2 O.sub.3, and CuO. After mixing, the powder mixture is pressed under a pressure of about 5 ton/cm.sup.2 to form a pellet having a diameter of 8 mm and a thickness of 3 mm. Thereafter, the pressed pellet is wrapped with a gold foil (with a thickness of 0.Type: GrantFiled: July 31, 1995Date of Patent: July 16, 1996Assignee: Industrial Technology Research InstituteInventors: Ru-shi Liu, Der-Shiuh Shy, Chung-Ho Tai, Hui-Wen Lee
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Patent number: 5534491Abstract: A process for producing a layered structure containing at least one thin film of oxide superconductor (1) such as Y.sub.1 Ba.sub.2 Cu.sub.3 O.sub.7-x having a contaminated surface on a substrate (3). The contaminated surface of the thin film of oxide superconductor is heat-treated in an atmosphere containing oxygen of high purity of higher than 5N and a partial pressure of 25 Torr at a temperature of 350.degree. to 700.degree. C. On the thin film of oxide superconductor (1), another thin film (2) of oxide superconductor or non-superconductor is deposited.The resulting structure of layered thin films is used for fabricating superconducting transistor, Josephson junctions, superconducting circuits or the like.Type: GrantFiled: January 31, 1995Date of Patent: July 9, 1996Assignee: Sumitomo Electric Industries, Ltd.Inventors: Takao Nakamura, Michitomo Iiyama
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Patent number: 5534490Abstract: Provided is an Hg-Ba-Ca-Cu-O oxide superconductor having a high superconductivity transition temperature Tc and a method which can prepare the same in excellent reproducibility. This oxide superconductor consists essentially of Hg, Ba, Ca, Cu and O, and is expressed in a chemical formula (Hg.sub.1-X Cu.sub.X)Ba.sub.2 Ca.sub.2 Cu.sub.3 O.sub.Y, wherein X=0.05 to 0.7 and Y=8 to 8.75. A method of preparing the oxide superconductor comprises a step of mixing raw materials of Hg, Ba, Ca and Cu with each other so that (Hg+Ba):Ca:Cu=b:1:C and Hg:Ba=(1-a):a, wherein 0.625.ltoreq.a.ltoreq.0.714, 1.ltoreq.b.ltoreq.3 and 1.667.ltoreq.c.ltoreq.3.444, in mole ratio, and compression-molding the mixture, and a step of heat treating a compact obtained by the compression molding. This oxide superconductor has a superconductivity transition temperature Tc of 134 K., which is the highest at present.Type: GrantFiled: June 23, 1994Date of Patent: July 9, 1996Assignees: Sumitomo Electric Industries, Ltd., Tohoku Electric Power Co., Inc., Matsushita Electric Industrial Co., Ltd., International Superconductivity Technology CenterInventors: Makoto Itoh, Ayako Yamamoto, Kazuyuki Isawa, Seiji Adachi, Hisao Yamauchi, Shoji Tanaka
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Patent number: 5527767Abstract: There is disclosed a method for annealing oxide thin film superconductors having layered structures including at least Cu--O layers in which each oxide thin film superconductor is heated partially by a heating means and the heating portion is moved at a predetermined speed.Type: GrantFiled: May 5, 1994Date of Patent: June 18, 1996Assignee: Matsushita Electric Industrial Co., Ltd.Inventors: Kentaro Setsune, Kiyotaka Wasa, You Ichikawa
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Patent number: 5525585Abstract: The present invention provides a process for the preparation of YBa.sub.2 Cu.sub.3 O.sub.7-x superconductor which comprises surrounding a sintered material in which the molar ratio of Y:Ba:Cu is 2:1:1 with liquid-forming powder and subjecting the powder compact to isothermal heat-treatment at a temperature below the peritectic temperature of YBa.sub.2 Cu.sub.3 O.sub.7-x. The YBa.sub.2 Cu.sub.3 O.sub.7-x superconductors prepared according to the present invention have aligned grain structure in one direction and thus exhibit a high critical current density.Type: GrantFiled: June 16, 1994Date of Patent: June 11, 1996Assignee: Korea Advanced Institute of Science and TechnologyInventors: Jeong-Hun Suh, Young A. Jee, Suk-Joong L. Kang, Duk Y. Yoon
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Patent number: 5525584Abstract: A high critical temperature and high critical current density superconductor is disclosed which contains a metal oxide expressed by the following formula (I):(R.sup.1.sub.1-x,Ba.sub.x)Ba.sub.2 Cu.sub.3 O.sub.d (I)wherein R.sup.1 stands for at least one element selected from the group consisting of La, Nd, Sm, Eu and Gd, x is a number greater than 0 but not greater than 0.5 and d is a number between 6.2 and 7.2. Fine phases of RE211, RE422 and/or a metal oxide expressed by the formula (R.sup.2.sub.1-z, Ba.sub.z) (Ba.sub.1-y, R.sup.2.sub.y).sub.2 Cu.sub.3 O.sub.p (R.sup.2 =La, Nd, Sm, Eu or Gd) may be dispersed in a matrix of the matrix phase of the formula (I). The above superconductor may be obtained by cooling a melt having a temperature of 1,000.degree.-1,300.degree. C. and containing R.sup.1, Ba, Cu and O at a cooling rate of 5.degree. C./hour or less under a partial pressure of oxygen of between 0.00001 and 0.05 atm, followed by annealing at 250.degree.-600.degree. C. in an oxygen atmosphere.Type: GrantFiled: May 26, 1995Date of Patent: June 11, 1996Assignees: International Superconductivity Technology Center, Railway Technical Research Institute, Shikoku Denryoku Kabushikigaisha, Tosoh CorporationInventors: Masato Murakami, Sang-Im Yoo, Naomichi Sakai, Hiroshi Takaichi, Takamitsu Higuchi, Shoji Tanaka
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Patent number: 5523284Abstract: In accordance this invention, there is provided a process for making a bulk superconductive material. In the first step of this process, a diffusion couple is formed from superconductor oxide and impurity oxide. Thereafter, the diffusion couple is heated to a temperature in excess of 800 degrees Centigrade, cooled at a controlled rate, and annealed.Type: GrantFiled: September 30, 1994Date of Patent: June 4, 1996Assignee: Alfred UniversityInventors: James G. Fagan, Jr., Vasantha R. W. Amarakoon
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Patent number: 5508254Abstract: 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.Type: GrantFiled: August 16, 1994Date of Patent: April 16, 1996Assignee: Sumitomo Electric Industries, Ltd.Inventors: Kenichi Sato, Hidehito Mukai, Takeshi Hikata
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Mercury-thallium-barium-calcium-strontium-copper-oxide 1223 superconductor and method of making same
Patent number: 5492885Abstract: Mercury-thallium based superconductors with the formula Hg.sub.1-x Tl.sub.x Ba.sub.2 (Ca.sub.1-y Sr.sub.y).sub.2 Cu.sub.3 O.sub.8+.delta. ; change "their preparing method, in particular characterized in that it" to and a method for preparing them. The new superconductors are prepared by reacting respective ternary oxides, such as Ba.sub.2 CuO.sub.3+x and Ca.sub.1-y Sr.sub.y CuO.sub.2, to reduce the formation of an impure phase and by substituting thallium (Ti) a portion of the mercury (Hg) conventionally used in mercury-based superconductors of similar structure, in order to thermally stabilize the superconductor and provide it with a high critical current density characteristic.Type: GrantFiled: August 17, 1994Date of Patent: February 20, 1996Assignee: Korea Research Institute of Standards and ScienceInventors: Yong H. Hur, Yong K. Park, Jong C. Park -
Patent number: 5492886Abstract: Novel superconducting materials in the form of compounds, structures or phases are formed by performing otherwise known syntheses in a highly oxidizing atmosphere rather than that created by molecular oxygen at atmospheric pressure or below. This leads to the successful synthesis of novel superconducting compounds which are thermodynamically stable at the conditions under which they are formed.Type: GrantFiled: April 15, 1994Date of Patent: February 20, 1996Assignee: Regents of the University of CaliforniaInventor: Donald E. Morris
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Patent number: 5489573Abstract: A method is disclosed for forming polycrystalline thallium system superconductors having high current carrying capacity and high magnetic field behavior. A precursor deposit is formed comprised of silver, in an amount of about 1 to 20 mole percent of total metals in the precursor deposit, and the balance oxides of calcium, barium, and copper in ratios for forming the superconductor. The precursor deposit is annealed in an oxidizing atmosphere, and in the presence of a source of thallous oxide. The source of thallous oxide is heated to a first temperature selected to incorporate thallium into the deposit in an amount of about 6 to 22 mole percent of metals in the superconductor, and the precursor deposit is heated to a second temperature to form the superconductor.Type: GrantFiled: August 16, 1994Date of Patent: February 6, 1996Assignee: General Electric CompanyInventors: John A. DeLuca, Pamela L. Karas
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Patent number: 5462921Abstract: A method of fabricating a thin-film Hg-containing oxide superconductor is disclosed, which comprises forming a thin film on a substrate, said thin film containing mercury, an alkaline earth element, and copper as main components thereof; and subjecting said substrate with the thin film to a heat treatment in an oxygen-containing atmosphere at an oxygen partial pressure of 1/500 to 1/10 atm, to convert said thin film to the thin-film superconductor.Type: GrantFiled: May 9, 1994Date of Patent: October 31, 1995Assignee: Matsushita Electric Industrial Co., Ltd.Inventors: Hideaki Adachi, Kentaro Setsune, Koichi Mizuno
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Patent number: 5462917Abstract: A superconductor material having a current density, J, of from about 30,000 to about 85,000 amps/cm.sup.2 at zero magnetic field and 77.degree. K is disclosed. The 123 superconductor, of the formula L.sub.1 Ba.sub.2 Cu.sub.3 O.sub.6 +.delta. wherein L is preferably yttrium, is capable of entrapping sufficiently high magnetic fields and exhibits a low microwave surface resistance. The process of preparing the superconductor comprises compacting the bulk product, L.sub.1 Ba.sub.2 Cu.sub.3 O, and then sintering the reaction product at a temperature between about 40.degree. C. to about 90.degree. C. below its melting point, i.e., for Y.sub.1 Ba.sub.2 Cu.sub.3 O.sub.6 +.delta. at a temperature of approximately 940.degree. C. The composition is then heated in a preheated chamber maintained at approximately 1090.degree. C. to about 1,200.degree. C. (approximately 1,100.degree. C. for Y.sub.1 Ba.sub.2 Cu.sub.3 O.sub.6 +.delta.Type: GrantFiled: February 14, 1994Date of Patent: October 31, 1995Assignee: University of Houston-University ParkInventors: Kamel Salama, Venkatakrishnan Selvamanickam
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Patent number: 5447906Abstract: Superconducting transition metal oxide films are provided which exhibit very high onsets of superconductivity and superconductivity at temperatures in excess of 40.degree. K. These films are produced by vapor deposition processes using pure metal sources for the metals in the superconducting compositions, where the metals include multi-valent nonmagnetic transition metals, rare earth elements and/or rare earth-like elements and alkaline earth elements. The substrate is exposed to oxygen during vapor deposition, and, after formation of the film, there is at least one annealing step in an oxygen ambient and slow cooling over several hours to room temperature. The substrates chosen are not critical as long as they are not adversely reactive with the superconducting oxide film. Transition metals include Cu, Ni, Ti and V, while the rare earth-like elements include Y, Sc and La. The alkaline earth elements include Ca, Ba and Sr.Type: GrantFiled: June 23, 1994Date of Patent: September 5, 1995Assignee: International Business Machines CorporationInventors: Praveen Chaudhari, Richard J. Gambino, Roger H. Koch, James A. Lacey, Robert B. Laibowitz, Joseph M. Viggiano
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Patent number: 5439880Abstract: A method of preparing a superconducting oxide by combining the metallic elements of the oxide to form an alloy, followed by oxidation of the alloy to form the oxide. Superconducting oxide-metal composites are prepared in which a noble metal phase intimately mixed with the oxide phase results in improved mechanical properties. The superconducting oxides and oxide-metal composites are provided in a variety of useful forms.Type: GrantFiled: May 3, 1993Date of Patent: August 8, 1995Assignee: Massachusetts Institute of TechnologyInventors: Gregory J. Yurek, John B. Vander Sande
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Patent number: 5430010Abstract: The present invention relates to a process for preparing an oxide superconductor having a high critical current density, a uniform structure and an excellent mechanical property and thermal stability, which comprises heating raw material powders of a REBaCuO system at 1050.degree. C. or higher, cooling the material for solidification, pulverizing and mixing the solidified material to homogeneously disperse the structure of the solidified material, molding the material, optionally mixed with silver oxide or silver, into a predetermined shape, and reheating the molding to 1050.degree. C. or higher to grow a superconducting phase.Type: GrantFiled: June 8, 1993Date of Patent: July 4, 1995Assignees: International Superconductivity Technology Center, Nippon Steel CorporationInventors: Masato Murakami, Terutsugu Oyama, Hiroyuki Fujimoto, Naoki Koshizuka, Yu Shiohara, Shoji Tanaka
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Patent number: 5401712Abstract: A ceramic superconductor is produced by close control of oxygen partial pressure during sintering of the material. The resulting microstructure of YBa.sub.2 Cu.sub.3 O.sub.x indicates that sintering kinetics are enhanced at reduced p(O.sub.2) and that because of second phase precipitates, grain growth is prevented. The density of specimens sintered at 910.degree. C. increased from 79 to 94% theoretical when p(O.sub.2) was decreased from 0.1 to 0.0001 MPa. The increase in density with decrease in p(O.sub.2) derives from enhanced sintering kinetics, due to increased defect concentration and decreased activation energy of the rate-controlling species undergoing diffusion. Sintering at 910.degree. C resulted in a fine-grain microstructure, with an average grain size of about 4 .mu.m. Post sintering annealing in a region of stability for the desired phase converts the second phases and limits grain growth.Type: GrantFiled: September 18, 1992Date of Patent: March 28, 1995Assignee: University of ChicagoInventors: Jitrenda P. Singh, Roger B. Poeppel, Kenneth C. Goretta, Nan Chen
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Patent number: 5401717Abstract: This invention is related to the preparation of an elongate conductor having a silver sheath, and a core of an aligned polycrystalline oxide superconductor having the approximate formula Bi.sub.2-x Pb.sub.x Sr.sub.2-a L.sub.a+b Ca.sub.1-b Cu.sub.2 O.sub.y where y is from 7.5 to 8.5, and L is a lanthanide. A powder mixture is formed comprised of a first portion of a superconducting bismuth oxide compound that can be reaction-sintered to form the core oxide superconductor, and a second portion of oxides suitable for reacting with the first portion to form the core oxide superconductor. An elongate body is formed having a silver sheath, and a core of the mixture. The body is deformed to align the first portion, and heated to reaction-sinter the first and second portions to form the core oxide superconductor.Type: GrantFiled: February 14, 1994Date of Patent: March 28, 1995Assignee: General Electric CompanyInventor: Kenneth W. Lay
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Patent number: 5389604Abstract: To ensure a well-oriented crystal structure, there is provided a process of producing an oxide superconductor of a Y--Ba--Cu--O system with a composition having an atomic ratio Y:Ba:Cu of 1.0-2.0:2.0-2.5:3.0-3.5, the process comprising the steps of: preparing a semimelt including solid and liquid phases and consisting of Y, Ba, Cu and O in the atomic ratio; and solidifying the semimelt to form the oxide superconductor by so controlling a moving speed of a solidification front to have two components of different values in two perpendicularly intersecting directions.Type: GrantFiled: June 17, 1993Date of Patent: February 14, 1995Assignees: Nippon Steel Corporation, Tosoh Corporation, Kawasaki Jukogyo Kabushiki Kaisha, Hokuriku Electric Power Company, Kawasaki Steel Corporation, Railway Technical Research Institute, International Superconductivity Technology CenterInventors: Masato Murakami, Naomichi Sakai, Hiroshi Takaichi, Akihiro Kondoh, Shoichi Kagiya, Naomichi Nakamura, Hiroyuki Fujimoto, Naoki Koshizuka, Shoji Tanaka
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Patent number: 5380702Abstract: A method for improving the phase purity of a multiphase ceramic high temperature superconductor by selective microwave heating of undesired phases in a multiphase material to cause a phase transformation of the undesired phase to the desired phase. The selective microwave heating may be employed during initial firing and sintering of the ceramic superconductor compound or as a subsequent annealing step. Plane polarized microwave energy may be employed to enhance the two dimensional anisotropy of the compound by similar selective heating.Type: GrantFiled: June 4, 1990Date of Patent: January 10, 1995Inventor: David L. Henty
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Patent number: 5376623Abstract: Unexpected results were obtained when Tl-1223 and Tl=-2223 superconductive materials were annealed at respectively pre-determined annealing temperatures. The optimum annealing temperatures for Tl-1223 and Tl-2223 superconductive materials are found to be 860.degree. C. and 820.degree. C., respectively. By incorporating the optimum annealing temperature and an optimum annealing envirenment, which is expressed in terms of oxygen partial pressure, into the manufacturing process, the present invention presents a method which can substantially increase the critical temperature of thallium based superconductive materials with greatly reduced annealing time and with improved reproducibility, and is thus superior to any method disclosed in the prior art.Type: GrantFiled: September 7, 1993Date of Patent: December 27, 1994Assignee: Industrial Technology Research InstituteInventors: Ming-Jinn Tsai, Sheng-Feng Wu, Yao-Tsung Huang, Ru-Shi Liu
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Patent number: 5376628Abstract: Herein is disclosed a method of improving or producing an oxide superconductor. An oxide superconductor or starting material of oxide superconductor as an object material is irradiated with active oxygen species. The irradiation process is carried out while keeping the object material at a temperature at which the object material is effectively oxidized with the active oxygen species. The active oxygen species are formed on the inside or in the peripheral portion of a nonequilibrium or equilibrium, high-temperature plasma.Type: GrantFiled: March 9, 1992Date of Patent: December 27, 1994Assignee: Anelva CorporationInventors: Atsushi Sekiguchi, Hideo Mito
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Patent number: 5376627Abstract: Provided herein is a method of efficiently preparing a thin film having a higher critical temperature as to an oxide superconducting material containing Tl. A thin film of an oxide containing Tl is formed and then heat treated at a temperature of about 850.degree. to 950.degree. C. for a short time, and thereafter further heat treated at a temperature, which is lower than the preceding heat treatment temperature, of at least about 750.degree. C. for a long time. The thin film is heat treated in an atmosphere having an oxygen partial pressure of not more than about 0.1 atm. In formation of a Tl superconducting thin film, on the other hand, a 1212 phase layer is reacted with an amorphous Ca--Cu--O layer to form a 1223 phase layer, or a layer containing volatile metal elements (Tl, Bi and Pb, for example) and oxygen is reacted with another layer containing other elements than the volatile metal elements to form a superconducting film having a high critical temperature.Type: GrantFiled: March 5, 1993Date of Patent: December 27, 1994Assignee: Sumitomo Electric Industries, Ltd.Inventors: Yasuko Torii, Katsuya Hasegawa, Hiromi Takei
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Patent number: 5376622Abstract: A melting-and-solidification manufacturing method for manufacturing an ingot of a high critical temperature superconductive oxide belonging, in particular, to the YBaCuO, BiSrCaCuO, or TlBaCaCuO families, wherein:an ingot of oxide having the appropriate stoichiometery is used;the ingot is held horizontally by levitation on a film of gas inside a furnace;the ingot is melted;a vertical thermal gradient is established inside said furnace such that nucleation starts at the bottom portion of said ingot;while maintaining said thermal gradient, the overall temperature of the furnace is lowered at a rate of not more than 0.1.degree. C./hour down to the temperature which corresponds to complete ingot solidification; andfinally, conventional oxygenation treatment is applied to said ingot.Type: GrantFiled: March 31, 1993Date of Patent: December 27, 1994Assignee: Alcatel Alsthom Compagnie Generale d'ElectriciteInventor: Christian Belouet
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Patent number: 5371066Abstract: A precursor material is superoxidized to a superconducting oxide material in an atmosphere containing a reactive component that reacts with and removes hydroxide ion (OH.sup.-), replacing it with peroxide ion (O.sup.-). Preferred reactive components include H.sub.2 O.sub.2, N.sub.2 O, and I.sub.2. The reactive component reacts with and removes hydroxide ion from the precursor material, to reach a higher oxidation state in the superconducting oxide material than possible by oxidation in molecular oxygen. The use of such a reactive component permits both faster oxidation of the precursor material at conventional temperatures and the use of lower temperatures to achieve oxidation.Type: GrantFiled: June 5, 1992Date of Patent: December 6, 1994Assignee: Hughes Aircraft CompanyInventors: Ricardo C. Pastor, Antonio C. Pastor, deceased, Luisa E. Gorre, deceased, Keith C. Fuller
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Patent number: 5369089Abstract: 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.Type: GrantFiled: September 27, 1993Date of Patent: November 29, 1994Assignee: Sumitomo Electric Industries, Ltd.Inventors: Kenichi Sato, Hidehito Mukai, Takeshi Hikata
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Patent number: 5369087Abstract: A melt-texturing method for producing high transition temperature superconducting ceramic elements of given length, such as wires of Y Ba.sub.2 Cu.sub.3 O.sub.7-.delta., which method is much faster and efficient than the existing ones. In this method, an element made of grains of superconducting ceramic precursor material is subjected to zone melting at a number of different locations equally spaced apart along its length. This multi-zone-melting is carried out at the same time, under the same temperature and speed conditions and in the same direction so as to form a same number of similarly textured zones along the length of the element, which zones grow up while the method progresses until they merge. This method makes it possible to multiply the present rate of production known to be very low, by a number of the same order of magnitude as the number of different locations where zone melting is carried out.Type: GrantFiled: July 11, 1991Date of Patent: November 29, 1994Assignee: Noranda Inc.Inventors: Philip R. Critchlow, Julian Cave
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Patent number: 5362710Abstract: A process for preparing a thin film of superconducting material is disclosed in which films are deposited from a defined target. The thin films prepared by the process are characterized by high critical temperature of superconductivity and a smaller discrepancy between the critical temperature and the onset temperature at which superconductivity is observed.Type: GrantFiled: December 28, 1992Date of Patent: November 8, 1994Assignee: Sumitomo Electric Industries, Ltd.Inventors: Nobuhiko Fujita, Tadakazu Kobayashi, Hideo Itozaki, Saburo Tanaka, Shuji Yazu, Tetsuji Jodai
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Patent number: 5360784Abstract: An oxide superconducting material is coated with silver or an alloy thereof and shaped into a linear body, and the linear body is subjected to diameter reduction by means of groove roll rolling, a swaging machine and the like, and then differential speed rolling and heat treatment are repeatedly performed, whereby the linear body is shaped into a tape-shaped wire material. The microstructure control in the longitudinal direction is performed uniformly and efficiently, and a superconducting wire having a high c-axis orientation ratio and a large critical current density Jc at a service temperature is obtained.Type: GrantFiled: July 31, 1992Date of Patent: November 1, 1994Assignee: Mitsubishi Materials CorporationInventors: Toshio Kimura, Takuo Takeshita, Motokazu Suzuki
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Patent number: 5350738Abstract: The present invention provides a method of manufacturing a high quality oxide superconductor film capable of controlling the film-forming rate and the film composition easily and forming the superconductor film safely and economically, over a wide region and homogeneously, wherein each of elements of R in which R represents one or more of elements selected from the group consisting of Y and lanthanide series rare earth elements, Ba and Cu is vapor deposited in the state of metal on a substrate under a high vacuum of lower than 10.sup.-8 Torr by a vacuum vapor deposition process to form a precursor comprising an amorphous metal and the precursor is oxidized and crystallized by applying a heat treatment without taking out the same into the atmospheric air.Type: GrantFiled: November 27, 1992Date of Patent: September 27, 1994Assignees: International Superconductivity Technology Center, Kabushiki Kaisha Kobe Seiko Sho, Sharp Kabushiki KaishaInventors: Takashi Hase, Ryusuke Kita, Masato Sasaki, Tadataka Morishita
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Patent number: 5348935Abstract: Novel superconducting materials in the form of compounds, structures or phases are formed by performing otherwise known syntheses in a highly oxidizing atmosphere rather than that created by molecular oxygen at atmospheric pressure or below. This leads to the successful synthesis of novel superconducting compounds which are thermodynamically stable at the conditions under which they are formed.Type: GrantFiled: May 22, 1992Date of Patent: September 20, 1994Assignee: The Regents of the University of CaliforniaInventor: Donald E. Morris
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Patent number: 5344816Abstract: High temperature superconducting oxide materials can be taken to a higher, but stable, state of oxidation by removing H-impurities, such as OH.sup.-, using I.sub.2 /O.sub.2 mixtures in a reactive atmosphere process. A higher T.sub.c and a narrower .DELTA.T-transition result.Type: GrantFiled: February 24, 1993Date of Patent: September 6, 1994Assignee: Hughes Aircraft CompanyInventors: Ricardo C. Pastor, Antonio C. Pastor, deceased, Luisa E. Gorre, deceased, Keith C. Fuller
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Patent number: 5342828Abstract: A superconducting Tl--Pb--Sr--Ca--Cu--O thin film comprised of at least one phase of the formula Tl.sub.0.5 Pb.sub.0.5 Sr.sub.2 Ca.sub.1+n Cu.sub.2+n O.sub.7+2n where n=0, 1 or 2 is disclosed, which is prepared by a process comprising sputtering an oxide film onto a dielectric substrate from an oxide target containing preselected amounts of Tl, Pb, Sr, Ca and Cu, and heating an oxygen-containing atmosphere in the deposited film in the presence of a source of thallium oxide and lead oxide and cooling the film.Type: GrantFiled: January 29, 1993Date of Patent: August 30, 1994Assignee: E. I. Du Pont de Nemours and CompanyInventors: Dennis J. Kountz, Frank M. Pellicone
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Patent number: 5340797Abstract: A method of preparing a superconductor. The method includes preparing a mixture of superconductor material constituents, disposing the constituents on a silver containing substrate, heating the mixture of constituents on a silver containing substrate, heating the mixture in a first atmosphere having a partial pressure of CO.sub.2 to control decomposition of at least one of the superconductor material constituents and changing the first atmosphere to a second atmosphere consisting essentially of an oxidizing gas capable of allowing decomposition of at least one of the superconductor material constituents.Type: GrantFiled: January 29, 1993Date of Patent: August 23, 1994Assignee: Illinois Superconductor CorporationInventors: James D. Hodge, Lori J. Klemptner
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Patent number: 5340792Abstract: A method of substantially aligning the superconducting grains of a multi-grained perovskite defect oxide type material, which material includes at least one superconducting phase. In the superconducting phase of such perovskite materials, the unit cells thereof include a plurality of substantially parallel metal oxide planes spacedly disposed along the c axis thereof. The aforementioned alignment of discrete grains of the multi-grained superconducting material occurs along the c axis.Type: GrantFiled: November 28, 1989Date of Patent: August 23, 1994Assignee: Energy Conversion Devices, Inc.Inventors: Stanford R. Ovshinsky, Rosa Young
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Patent number: 5338722Abstract: Superconducting oxide ceramics having a high density of superconducting current are formed without making use of very high temperatures higher than 1000.degree. C. Superconducting oxide material is placed in a crucible, melted and fired at a relatively low temperature. During the melting and firing step, the partial pressure of oxygen is reduced in order to lower the melting point of the ceramic. After the firing, the partial pressure of oxygen is increased.Type: GrantFiled: March 12, 1993Date of Patent: August 16, 1994Assignee: Semiconductor Energy Laboratory Co., Ltd.Inventor: Yasuhiko Takemura
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Patent number: 5334557Abstract: A method of preparing a powder of YBaCuO [phase 123] suitable for forming by drawing-lamination, which includes:preparing a powdered reactive mixture of precursors of purity greater than 99% and with a stoichiometry accurate to within less than 1%,binding this powdered reactive mixture to form intermediate pieces less than two millimeters in thickness which are placed in an oven so that their contact with a support is as small as possible,a heat treating the intermediate pieces,dry grinding the intermediate pieces to obtain grains of said powder with an average diameter of the order of a few .mu.m.Type: GrantFiled: March 3, 1993Date of Patent: August 2, 1994Assignee: Alcatel Alsthom Compagnie Generale d'ElectriciteInventors: Grard Duperray, Claudette Audry, Francoise Ducatel
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Patent number: 5332721Abstract: An improved technique for the fabrication of thallium-based superconducting oxides, and particularly Tl:Ba:Ca:Cu:O 2223 oxides, is described which allows production of very pure superconductors (>95% 2223 phase) having excellent structural characteristics. The method of the invention involves first forming a self-sustaining body of starting oxides and subjecting this body to a sintering technique wherein the temperature of the body is gradually raised to a maximum level of about 850.degree.-930.degree. C., followed by maintaining the body at this temperature for a period of about 48 hours. The body is then slowly cooled to avoid distortion and loss of superconducting character. Most preferably, the sintering is a two-stage operation, wherein the body is first heated a relatively low rate (e.g., 1.degree.-10.degree. C./min.) to a temperature of about 650.degree.-750.degree. C., followed by faster heating at a higher rate to achieve the maximum sintering temperature.Type: GrantFiled: October 21, 1992Date of Patent: July 26, 1994Assignees: Midwest Superconductivity, Inc., The University of ArkansasInventors: Ying Xin, Zhengzhi Sheng, Yufang Li
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Patent number: 5330966Abstract: An oxide superconducting layer is formed on a base material of silver, whose single side is coated with MgO, or single-crystalline MgO for depositing a Bi.sub.2 Sr.sub.2 Ca.sub.2 Cu.sub.3 phase in a crystallographically oriented state by sputtering, CVD or laser ablation. Metal lead or lead oxide is then laid thereon by sputtering to obtain a two-layer structure, and the two-layer structure is heat treated in the atmospheric air. Thus, a bismuth oxide superconducting film, which is excellent in crystal orientation as well as denseness and thereby having high critical current density, is formed on the base material.Type: GrantFiled: June 26, 1992Date of Patent: July 19, 1994Assignees: Sumitomo Electric Industries, Inc., The Kansai Electric Power Co., Inc.Inventors: Noriki Hayashi, Satoshi Takano
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Patent number: 5318745Abstract: A method of manufacturing an oxide superconductor having a composition expressed by formula La.sub.2-X Sr.sub.X CaCu.sub.2 O.sub.6 (0<X.ltoreq.0.6), comprising the steps of: preliminarily burning a raw powder having a predetermined composition, and sintering the powder to obtain a sintered body; and subjecting the sintered body to hot isostatic pressing at a temperature falling within a range of from 940.degree.-1600.degree. C. under total pressure of 10 MPa or more and oxygen partial pressure of 2 MPa or more. By virtue of the step of subjecting the sintered body to hot isostatic pressing, a superconductor can be manufactured at a temperature and under a pressure within respective wide ranges. Further, the composition of the superconductor can be selected within a wide range of 0<X.ltoreq.0.6. Moreover, the superconductor can be manufactured by performing quenching after the hot isostatic pressing.Type: GrantFiled: July 8, 1992Date of Patent: June 7, 1994Assignees: International Superconductivity Technology Center, Mitsubishi Materials Corporation, Hitachi, Ltd.Inventors: Takeshi Sakurai, Toru Yamashita, Hisao Yamauchi, Shoji Tanaka
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Patent number: 5317008Abstract: A method of manufacturing a bismuth oxide superconductor, wherein a molded body of a bismuth oxide superconducting substance comprising bismuth, an alkaline earth metal, copper, and oxygen or a precursor thereof is subjected to a heat treatment for producing a superconducting phase and then subjected to one step selected from (1) a step of cooling the heated body from 700.degree. C. to 200.degree. C. in an atmosphere having an oxygen partial pressure of not less than 0.1 atm at a cooling rate of not less than 10.degree. C./min, (2) a step of cooling the heated body from 700.degree. C. in an atmosphere having an oxygen partial pressure of less than 0.1 atm at a cooling rate of less than 10.degree. C./min, and (3) a step of cooling the heated body, and then performing a heat treatment for the cooled heated body in an atmosphere having an oxygen partial pressure of not more than 0.1 atm at a temperature from 700.degree. C. to 200.degree. C.Type: GrantFiled: January 22, 1993Date of Patent: May 31, 1994Assignee: The Furukawa Electric Co., Ltd.Inventor: Kumiko Imai
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Patent number: H1399Abstract: A new process for more easily making a superconducting matrix of YBa.sub.2 Cu.sub.3 O.sub.7-x with fine and homogeneously dispersed Y.sub.2 BaCuO.sub.5 inclusions smaller than one micron compacts powders of YBa.sub.2 Cu.sub.3 O.sub.7-x and Y.sub.2 BaCuO.sub.5 into samples which are first sintered for improved mechanical stability and then placed into contact with each other. The samples are placed into a furnace above the peritectic temperature of the YBa.sub.2 Cu.sub.3 O.sub.7-x and held at that temperature for less than about fifteen minutes so that the YBa.sub.2 Cu.sub.3 O.sub.7-x begins to melt and be absorbed by capillary action into the Y.sub.2 BaCuO.sub.5 sample. The combined sample is cooled to a temperature below the peritectic temperature by a variety of alternative cooling cycles where it is transformed by a reaction into a superconducting matrix of YBa.sub.2 Cu.sub.3 O.sub.7-x with fine and homogeneously dispersed Y.sub.2 BaCuO.sub.5. BaCuO.sub.2 +CuO may be substituted for the YBa.sub.2 Cu.sub.Type: GrantFiled: July 6, 1993Date of Patent: January 3, 1995Assignee: The United States of America as represented by the Secretary of the Air ForceInventors: Gregory Kozlowski, William E. Endres