Process of manufacturing electrochemical device

US 4,610,741 A
Filed: 12/18/1984
Issued: 09/09/1986
Est. Priority Date: 12/24/1983
Status: Expired due to Term

First Claim

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1. A process of manufacturing an electrochemical device including an electrochemical pumping cell having a first and a second electrode, and an electrochemical sensing cell having a third and a fourth electrode, such that the electrodes are disposed on at least one of a plurality of planar solid electrolyte bodies and such that the second and fourth electrodes are exposed to an internal cavity formed in an assembly of the pumping and sensing cells, the process comprising the steps of superposing unfired layers of the solid electrolyte bodies, which contain at least a thermally decomposable binder, on each other to form an unfired integral laminar structure with unfired layers of the electrodes disposed on at least one of the unfired layers of the solid electrolyte bodies such that the internal cavity is formed with a desired volume in said unfired integral laminar structure and such that the unfired layers of the second and fourth electrodes are exposed to the internal cavity, wherein the improvement comprises the steps of:

interposing an insert having a volume less than or equal to said desired volume into said internal cavity to be formed during the superposition of said unfired layers of the solid electrolyte bodies and electrodes into said unfired integral laminar structure, such that said insert is disposed opposite to exposed surfaces of said unfired layers of the second and fourth electrodes to prevent deformation of said internal cavity, said insert comprising a sublimable material which sublimes at a temperature above a decomposition temperature of said binder; and

co-firing said unfired integral laminar structure to sinter said laminar structure and result said sublimable material disappearing by means of sublimation.

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Abstract

A process of manufacturing an electrochemical device including a pumping cell having a first and a second electrode, and a sensing cell having a third and fourth electrode such that the electrodes are disposed on at least one solid electrolyte body, and the second and fourth electrodes are exposed to the atmosphere in an internal cavity formed in the device. The process comprises a step of interposing an insert consisting essentially of a sublimable material in the cavity to be formed during superposition of green sheets or layers of the solid electrolyte bodies and electrodes into an unfired laminar structure, such that the insert is disposed opposite to the unfired layers of the second and fourth electrodes, and further comprises a step of co-firing the unfired laminar structure incorporating the insert so as to cause the insert to disappear through sublimation. The insert prevents portions of the solid electrolyte bodies from being extruded or displaced into the cavity while the stack of the green sheets of solid electrolyte is compressed into the unfired laminar structure.

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23 Claims

1. A process of manufacturing an electrochemical device including an electrochemical pumping cell having a first and a second electrode, and an electrochemical sensing cell having a third and a fourth electrode, such that the electrodes are disposed on at least one of a plurality of planar solid electrolyte bodies and such that the second and fourth electrodes are exposed to an internal cavity formed in an assembly of the pumping and sensing cells, the process comprising the steps of superposing unfired layers of the solid electrolyte bodies, which contain at least a thermally decomposable binder, on each other to form an unfired integral laminar structure with unfired layers of the electrodes disposed on at least one of the unfired layers of the solid electrolyte bodies such that the internal cavity is formed with a desired volume in said unfired integral laminar structure and such that the unfired layers of the second and fourth electrodes are exposed to the internal cavity, wherein the improvement comprises the steps of:
- interposing an insert having a volume less than or equal to said desired volume into said internal cavity to be formed during the superposition of said unfired layers of the solid electrolyte bodies and electrodes into said unfired integral laminar structure, such that said insert is disposed opposite to exposed surfaces of said unfired layers of the second and fourth electrodes to prevent deformation of said internal cavity, said insert comprising a sublimable material which sublimes at a temperature above a decomposition temperature of said binder; and
  
  co-firing said unfired integral laminar structure to sinter said laminar structure and result said sublimable material disappearing by means of sublimation.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
- - 2. The process of claim 1, wherein said insert has substantially the same size and shape as said internal cavity, and the cavity is substantially filled by said insert.
  - 3. The process of claim 1, wherein said sublimable material is selected from the group consisting of theobromime, indigo, 1,5-diaminoanthraquinone, hexabromobenzene and naphthacene.
  - 4. The process of claim 1, wherein said second and fourth electrodes are disposed on the same surface of the same solid electrolyte body.
  - 5. The process of claim 4, wherein said internal cavity is an elongate rectangular flat space to which said second and fourth electrodes are exposed in a spaced-apart relation with each other along the surface of said same solid electrolyte body.
  - 6. The process of claim 1, wherein said second electrode is disposed on one of said plurality of solid electrolyte bodies, and said fourth electrode is disposed on another of said plurality of solid electrolyte bodies.
  - 7. The process of claim 6, wherein said insert is sandwiched between said unfired layers of the second and fourth electrodes.
  - 8. The process of claim 1, wherein a single electrode serves commonly as said second and fourth electrodes.
  - 9. The process of claim 1, wherein said first and third electrodes are disposed on the same surface of the same solid electrolyte body.
  - 10. The process of claim 1, wherein a single electrode serves commonly as said first and third electrodes.
  - 11. The process of claim 1, wherein a heater is disposed adjacent to said electrochemical pumping cell.
  - 12. The process of claim 1, wherein a heater is disposed adjacent to said electrochemical sensing cell.
  - 13. The process of claim 1, further comprising the step of forming diffusion-resistance means for communication between an outside measurement atmosphere and said internal cavity, said diffusion-resistance means having a predetermined diffusion resistance to molecules of a component of the outside measurement atmosphere.
  - 14. The process of claim 13, wherein said diffusion-resistance means is formed by forming an aperture through thicknesses of said unfired layers of the first and second electrodes and through the solid electrolyte body of said electrochemical pumping cell in its green state, said aperture having a diameter selected so as to provide said predetermined diffusion resistance.
  - 15. The process of claim 13, wherein said diffusion-resistance means is formed by opposing two electrochemical cells toward each other, said two electrochemical cells comprising an electrochemical pumping cell and an electrochemical sensing cell, with a gap therebetween said gap being selected so as to provide said predetermined diffusion resistance.
  - 16. The process of claim 1, further comprising the steps of forming a reference-gas passage in said unfired integral laminar structure such that the unfired layer of the third electrode is exposed to said reference-gas passage, and interposing another insert consisting essentially of said sublimable material in said reference-gas passage before said unfired integral laminar structure is co-fired.
  - 17. The process of claim 1, wherein said unfired layers of solid electrolyte further contain a plasticizer, and said sublimable material sublimes at a temperature above a decomposition temperature of said plasticizer.

18. A process of manufacturing an electrochemical device including an electrochemical pumping cell having a first and a second electrode, and an electrochemical sensing cell having a third and a fourth electrode, such that the electrodes are disposed on at least one of a plurality of planar solid electrolyte bodies and such that the third electrode is exposed to a reference gas existing in a reference-gas passage formed in an assembly of the electrochemical pumping and sensing cells, the process comprising the steps of superposing unfired layers of the solid electrolyte bodies, which contain at least a thermally decomposable binder, on each other to form an unfired integral laminar structure with unfired layers of the electrodes disposed on at least one of the unfired layers of the solid electrolyte bodies such that the reference-gas passage is formed with a desired volume in said unfired integral laminar structure and such that the unfired layers of the third electrode is exposed to the reference-gas passage, wherein the improvement comprises the steps of:
- interposing an insert having a volume less than or equal to said desired volume into said reference-gas passage to be formed during the superposition of said unfired layers of the solid electrolyte bodies and electrodes into said unfired integral laminar structure, such that said insert is disposed opposite to an exposed surface of said unfired layer of the third electrode to prevent deformation of said reference-gas passage, said insert comprising a sublimable material which sublimes at a temperature above a decomposition temperature of said binder; and
  
  co-firing said unfired integral laminar structure to sinter said laminar structure and result said sublimable material disappearing by means of sublimation.
- View Dependent Claims (19, 20)
- - 19. The process of claim 18, wherein said sublimable material is selected from the group consisting of theobromine, indigo, 1,5-diaminoanthraquinone, hexabromobenzene and naphthacene.
  - 20. The process of claim 18, wherein said unfired layers of solid electrolyte further contain a plasticizer, and said sublimable material sublimes at a temperature above a decomposition temperature of said plasticizer.

21. A process of manufacturing an electrochemical device including an electrochemical sensing cell having a first and a second electrode, such that the electrodes are disposed on at least one planar solid electrolyte body, such that the first electrode is exposed to an outside measurement gas while the second electrode is exposed to a reference gas existing in a reference-gas passage formed in the device, the process comprising the steps of superposing unfired layers of said at least one solid electrolyte body, which contain at least a thermally decomposable binder, and said first and second electrodes into an unfired integral laminar structure such that the reference-gas passage is formed with a desired volume in said unfired integral laminar structure and such that the unfired layer of the second electrode is exposed to the reference-gas passage, wherein the improvement comprises the steps of:
- interposing an insert having a volume less than or equal to said desired volume into the reference-gas passage to be formed during the superposition of said unfired layers of said at least one solid electrolyte body and said electrodes into said unfired integral laminar structure, such that said insert is disposed opposite to an exposed surface of said unfired layer of the second electrode to prevent deformation of said reference-gas passage, said insert comprising a sublimable material which sublimes at a temperature above a decomposition temperature of said binder; and
  
  co-firing said unfired integral laminar structure to sinter said laminar structure and result in said sublimable material disappearing by means of sublimation.
- View Dependent Claims (22, 23)
- - 22. The process of claim 21, wherein said sublimable material is selected from the group consisting of theobromine, indigo, 1,5-diaminoanthraquinone, hexabromobenzene and naphthacene.
  - 23. The process of claim 21, wherein said unfired layers of solid electrolyte further contain a plasticizer, and said sublimable material sublimes at a temperature above a decomposition temperature of said plasticizer.

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Current Assignee
NGK Insulators Limited
Original Assignee
NGK Insulators Limited
Inventors
Soejima, Shigeo, Mase, Syunzo
Primary Examiner(s)
Niebling, John F.
Assistant Examiner(s)
Nguyen, Nam X.

Application Number

US06/683,139
Time in Patent Office

630 Days
Field of Search

204/421, 204/424, 204/425, 204/426, 204/427, 204/428, 204/429, 204/412, 29/592 R, 156/89
US Class Current

156/89.15
CPC Class Codes

G01N 27/417 using cells , i.e. more tha...

Y10T 29/49002 Electrical device making

Process of manufacturing electrochemical device

First Claim

1 Assignment

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Abstract

53 Citations

23 Claims

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Process of manufacturing electrochemical device

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

53 Citations

23 Claims

Specification

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Solutions

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