Electrolyte-electrode joined assembly and method for producing the same
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01M-008/02
H01M-008/10
H01M-004/86
출원번호
US-0982300
(2004-11-05)
등록번호
US-7300718
(2007-11-27)
우선권정보
JP-2003-375577(2003-11-05)
발명자
/ 주소
Yamada,Takayuki
Kamide,Naoki
Yamada,Kazuyuki
출원인 / 주소
Honda Motor Co., Ltd.
대리인 / 주소
Lahive & Cockfield, LLP
인용정보
피인용 횟수 :
1인용 특허 :
6
초록▼
A flattening layer is provided between an anode and a solid electrolyte. The flattening layer has a porosity which is set to be smaller than that of the anode. Large diameter pores, which are open at an end surface of the anode on a side facing the solid electrolyte, are filled with the flattening l
A flattening layer is provided between an anode and a solid electrolyte. The flattening layer has a porosity which is set to be smaller than that of the anode. Large diameter pores, which are open at an end surface of the anode on a side facing the solid electrolyte, are filled with the flattening layer, and projections, which bulge out of the end surface, are buried therewith to flatten the projections. Therefore, when the solid electrolyte is formed on the flattening layer, the solid electrolyte is prevented from any depressions and bulges on which stress is concentrated.
대표청구항▼
What is claimed is: 1. An electrolyte-electrode joined assembly comprising a solid electrolyte which is interposed between a first electrode and a second electrode, said first electrode functioning as one of an anode and a cathode, and said second electrode functioning as the other of said anode an
What is claimed is: 1. An electrolyte-electrode joined assembly comprising a solid electrolyte which is interposed between a first electrode and a second electrode, said first electrode functioning as one of an anode and a cathode, and said second electrode functioning as the other of said anode and said cathode, wherein said first electrode is a porous member which has pores for allowing a gas to flow therethrough and which has recesses and projections disposed at an end surface on a side facing said solid electrolyte, wherein said pores have opening diameters of 1 to 20 μm in a two-dimensional cross section; a flattening layer is provided between said first electrode and said solid electrolyte, said recesses being filled therewith, said projections being buried therewith, and said flattening layer having a flat end surface on a side facing said solid electrolyte; said flattening layer has a thickness which is set to be an average value of said opening diameters of said pores in said two-dimensional cross section, wherein said flattening layer has a thickness of 1 to 20 μm and; and said flattening layer has a porosity which is smaller than that of said first electrode. 2. The electrolyte-electrode joined assembly according to claim 1, wherein a material for said first electrode is the same as a material for said flattening layer. 3. The electrolyte-electrode joined assembly according to claim 1, wherein said opening diameters in said two-dimensional cross section of said pores is 4 to 6 μm, and said thickness of said flattening layer is 5 μm. 4. The electrolyte-electrode joined assembly according to claim 1, wherein said opening diameters in said two-dimensional cross section of said pores is 12 to 14 μm, and said thickness of said flattening layer is 13 μm. 5. The electrolyte-electrode joined assembly according to claim 1, wherein said first electrode further includes small diameter pores having opening diameters in said two-dimensional cross section of 0.5 to 1 μm. 6. The electrolyte-electrode joined assembly according to claim 1, wherein said first electrode comprises small diameter pores and large diameter pores, the large diameter pores being formed by adding a pore-forming agent and then extinguishing said pore-forming agent. 7. A method for producing an electrolyte-electrode joined assembly comprising a solid electrolyte which is interposed between a first electrode and a second electrode, said first electrode functioning as one of an anode and a cathode, and said second electrode functioning as the other of said anode and said cathode, said method comprising: preparing a compact with particles and then presintering said compact to provide said first electrode, wherein said first electrode has pores which have opening diameters in a two-dimensional cross section of 1 to 20 μm that are formed by adding a pore-forming agent in advance to said particles as a raw material for said first electrode and extinguishing said pore-forming agent; forming a flattening layer in a state in which a porosity of said flattening layer is smaller than that of said first electrode, wherein said flattening layer has a thickness which is set to be an average value of said opening diameters in said two-dimensional cross section of said pores, said flattening layer having a flat and exposed end surface, recesses existing at one end surface of said first electrode being filled therewith, and projections being buried therewith; forming said solid electrolyte on said flattening layer, wherein said flattening layer has a thickness of 1 to 20 μm; sintering said flattening layer and said solid electrolyte; and forming said second electrode on said sintered solid electrolyte. 8. The method for producing said electrolyte-electrode joined assembly according to claim 7, wherein said flattening layer is formed with a material which is the same as a material for said first electrode. 9. The method for producing said electrolyte-electrode joined assembly according to claim 7, wherein said opening diameters in said two-dimensional cross section of said pores is 4 to 6 μm, and said thickness of said flattening layer is 5 μm. 10. The method for producing said electrolyte-electrode joined assembly according to claim 7, wherein said pore-forming agent, which is used to form said pores, has an average grain diameter of 8 μm. 11. The method for producing said electrolyte-electrode joined assembly according to claim 7, wherein said opening diameters in said two-dimensional cross section of said pores is 12 to 14 μm, and said thickness of said flattening layer is 13 μm. 12. The method for producing said electrolyte-electrode joined assembly according to claim 11, wherein said pore-forming agent, which is used to form said pores, has an average grain diameter of 20 μm. 13. The method for producing said electrolyte-electrode joined assembly according to claim 7, wherein said first electrode comprises small diameter pores and large diameter pores, the large diameter pores being formed by adding a pore-forming agent and then extinguishing said pore-forming agent.
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이 특허에 인용된 특허 (6)
Iacovangelo Charles D. (Schenectady NY) Zarnoch Kenneth P. (Clifton Park NY), Anode composite for molten carbonate fuel cell.
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