IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0596978
(1984-04-05)
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발명자
/ 주소 |
- Karas Bradley R. (Clifton Park NY) Baumgartner Charles E. (Schenectady NY)
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출원인 / 주소 |
- General Electric Company (Schenectady NY 02)
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인용정보 |
피인용 횟수 :
14 인용 특허 :
4 |
초록
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Utilizing an organometallic precursor, a metal oxide is formed within the pores of a porous sintered blank substantially uniformly throughout the porosity of the blank producing a porous bubble pressure barrier of predetermined pore size. The barrier is integrally sintered to a face of an electrode,
Utilizing an organometallic precursor, a metal oxide is formed within the pores of a porous sintered blank substantially uniformly throughout the porosity of the blank producing a porous bubble pressure barrier of predetermined pore size. The barrier is integrally sintered to a face of an electrode, the median pore size of the barrier being significantly smaller than that of the electrode, producing a composite useful as an electrode in a molten carbonate fuel cell. The blank and the electrode are composed of metal.
대표청구항
▼
A process for producing an integrally bonded electrode composite useful as an electrode in a molten carbonate fuel cell consisting essentially of a porous bubble pressure barrier integrally bonded to an electrode which consists essentially of the following steps: (a) producing a porous bubble pressu
A process for producing an integrally bonded electrode composite useful as an electrode in a molten carbonate fuel cell consisting essentially of a porous bubble pressure barrier integrally bonded to an electrode which consists essentially of the following steps: (a) producing a porous bubble pressure barrier of predetermined pore size by forming metal oxide within its pores, said bubble pressure barrier having at least one face free of any significant amount of said metal oxide, which consists essentially of providing a porous sintered blank in the form of a plaque consisting essentially of a metal selected from the group consisting of nickel, copper, an alloy of nickel and copper, and an alloy of nickel and up to about 10 weight % chromium, said blank having a median pore size ranging from about 1 micron to about 10 microns, and a pore volume ranging from about 40% to about 75% by volume of the total volume of said blank, immersing said blank in a fluid organometallic precursor for a metal oxide selected from the group consisting of aluminum oxide, titanium oxide, iron oxide, zinc oxide and cerium oxide, subjecting said fluid to a vacuum sufficient to at least substantially evacuate the pores of said immersed blank and at least significantly fill said evacuated pores with said fluid, retrieving the resulting precursor-filled-blank, removing said precursor from at least one face of said blank leaving no significant amount thereof, infiltrating said precursor-filled blank with water or steam hydrolyzing said precursor within the pores of said blank producing a hydrolyzed product, first firing the resulting hydrolyzed product-containing-blank to convert said hydrolyzed product to said metal oxide leaving no significant amount of said hydrolyzed product therein at a temperature ranging from the temperature at which said product decomposes to said metal oxide to less than about 600°C., and second firing the resulting metal oxide-containing blank to remove any water which may be present therein at a temperature ranging from about 600°C. to about 700°C., said first and second firings being carried out at or about atmospheric pressure in a reducing atmosphere, said first and second firings having no significant deleterious effect on said bubble pressure barrier, and (b) depositing a layer of an electrode-forming powder on said metal oxide free-face of said bubble pressure barrier, said electrode-forming powder covering said face and being coextensive therewith, said electrode-forming powder being selected from the group consisting of nickel, copper, an alloy of nickel and copper, and an alloy of nickel and up to about 10 weight % chromium, firing the resulting composite structure in a reducing atmosphere at or about atmospheric pressure, said electrode-forming powder sintering to form an electrode and simultaneously sintering to said barrier forming an integral bond therewith producing said integrally bonded electrode composite, said barrier having a median pore size significantly smaller than the median pore size of said electrode, said firing to form said electrode composite not exceeding the melting point of said composite. A process for producing an integrally bonded electrode composite useful as an electrode in a molten carbonate fuel cell consisting essentially of a porous bubble pressure barrier integrally bonded to an electrode which consists essentially of the following steps: (a) producing a porous bubble pressure barrier of predetermined pore size by forming metal oxide within its pores, said bubble pressure barrier having at least one face free of any significant amount of said metal oxide, which consists essentially of providing a porous sintered blank in the form of a plaque consisting essentially of a metal selected from the group consisting of nickel, copper, an alloy of nickel and copper, and an alloy of nickel and up to about 10 weight % chromium, said blank having a median pore size ranging from about 1 micron to about 10 microns, and a pore volume ranging from about 40% to about 75% by volume of the total volume of said blank, immersing said blank in a fluid organometallic precursor for a metal oxide selected from the group consisting of aluminum oxide, titanium oxide, iron oxide, zinc oxide and cerium oxide, subjecting said fluid to a vacuum sufficient to at least substantially evacuate the pores of said immersed blank and at least significantly fill said evacuated pores with said fluid, retrieving the resulting precursor-filled-blank, removing said precursor from at least one face of said blank leaving no significant amount thereof, infiltrating said precursor-filled blank with water or steam hydrolyzing said precursor within the pores of said blank producing a hydrolyzed product, first firing the resulting hydrolyzed product-containing-blank to convert said hydrolyzed product to said metal oxide leaving no significant amount of said hydrolyzed product therein at a temperature ranging from the temperature at which said product decomposes to said metal oxide to less than about 600°C., and second firing the resulting metal oxide-containing blank to remove any water which may be present therein at a temperature ranging from about 600°C. to about 700°C., said first and second firings being carried out at or about atmospheric pressure in a reducing atmosphere, said first and second firings having no significant deleterious effect on said bubble pressure barrier, and (b) providing a porous sintered electrode in the form of a plaque, said electrode being selected from the group consisting of nickel, copper, an alloy of nickel and copper, and an alloy of nickel and up to about 10 weight % chromium, contacting one face of said electrode coextensively with said metal oxide free-face of said bubble pressure barrier forming a composite structure, firing the resulting composite structure in a reducing atmosphere at or about atmospheric pressure sintering said barrier to said electrode forming an integral bond therewith, said bubble pressure barrier having a median pore size significantly smaller than the median pore size of said electrode, said firing to form said electrode composite not exceeding the melting point of said composite.
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