IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0171502
(1988-03-10)
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발명자
/ 주소 |
- Gupta Tapan K. (Monroeville PA) Bich George J. (Pittsburgh PA) Lawless William N. (Westerville OH)
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출원인 / 주소 |
- United States of America as represented by the Secretary of the Air Force (Washington DC 06)
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인용정보 |
피인용 횟수 :
8 인용 특허 :
0 |
초록
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The composite insulation coating consists of a mixture of glass and ceramic oxide(s), coated onto a wire by conventional wire enameling techniques followed by heat treatment at 600°-850°C. The enamel when initially applied, the “green”coat slurry, consists of four components: (1) the glass, (2) an i
The composite insulation coating consists of a mixture of glass and ceramic oxide(s), coated onto a wire by conventional wire enameling techniques followed by heat treatment at 600°-850°C. The enamel when initially applied, the “green”coat slurry, consists of four components: (1) the glass, (2) an inorganic filler (ceramic oxide powder, (3) an organic binder and (4) an organic solvent. The glasses can be selected from several commercial glasses (Corning 7570 and 7050) as well as Westinghouse glasses A-508, M 3072 and M 3073. None of these glasses contain lead or boron, allowing for nuclear applications. Suitable ceramic fillers are alumina, and the CeramPhysics, Inc. ceramics SC1C and SC1A. Organic binder materials and solvents are used. It is preferable that a copper wire to be coated with Ni, Inconel or Cr prior to coating with the subject insulation. For superconductors, the brittle nature of Nb3Sn wire and the high reaction temperature (_700°C.) required to form it preclude the use of standard organic insulation systems. The inorganic insulation with SC1C and SC1A ceramics, characterized by unusually high specific heats and thermal conductivities at cryogenic temperatures, offers the opportunity of providing increased enthalpy stabilization in a superconducting winding. The glass and ceramic is chosen so that the vitrification temperature of the composite coincides with the reaction temperature of 600°-800 °C. The most successful glasses meeting this criterion are A-508 and M3072.
대표청구항
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The method of making an inorganic insulation system for superconducting Nb3Sn wire embedded in a copper matrix, for fast pulse superconducting magnets and energy storage devices which require high current, high field, low loss, stable superconductors and associated insulation systems, which can with
The method of making an inorganic insulation system for superconducting Nb3Sn wire embedded in a copper matrix, for fast pulse superconducting magnets and energy storage devices which require high current, high field, low loss, stable superconductors and associated insulation systems, which can withstand a high formation temperature and yet be electrically satisfactory at low use temperature (4°-8°K.), and which is able to absorb energy dissipated during fast charge and discharge of a magnet, comprising the steps: forming a protective coating layer on the wire with a metal selected from the class consisting of Ni, inconel and Cr; preparing a slurry which comprises a mixture of 35-45% glass, 20-30% of an inorganic ceramic oxide powder, 30-40% of an organic binder and a solvent, chosen so that the vitrification temperature coincides with the superconducting formation temperature of 600°-800°C. with the glass selected from the group consisting of a first glass (A-508) of a composition comprising by weight approximately 40% SiO2, 6% Al2O3, 12% K2O, 8% Na2O, 10% BaO, 2% SrO, 3% CaO; and a second glass (M3072) of a composition comprising by weight approximately 55% SiO2, 4% Al2O3, 11% Na2O, 20% BaO, 6% CaO, and 4% Y2O3; and the ceramic selected from the group consisting of a first ceramic (SC1C) having a chromite-spinal type structure with a specific heat maximum at 8°K. of 2 J cm-3K1, a second ceramic (SC1A) having a niobate-columbite type structure having a specific heat maximum at 4.2°K. of 0.3 J cm-3K1 (SC1A), and a mixture which includes said first and said second ceramics; drawing the wire through the slurry to form a green coating; and heat treating the coated wire at 600°-800°C. to form a vitrified coating on the wire at said temperature, the vitrified insulation being 55-65% glass and 35-45% ceramic.
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