Claims
- 1. An oxygen-cathode for use in electrolysis of an alkali chloride, comprising a current collector made of a compact carbonaceous material, and at least one electrode substrate made of a porous carbonaceous material having a catalyst carried thereon, wherein said current collector and said electrode substrate are integrated into one body consisting essentially of carbon and said catalyst, wherein said current collector has a permeability to air of not more than 10.sup.-3 ml/cm.multidot.hour.multidot.mmH.sub.2 O, a bending strength of not less than 500 kg/cm.sup.2, an electric resistance of not more than 10 m.OMEGA..multidot.cm and a thermal conductivity of not less than 3 kcal/m.multidot.hour.multidot..degree.C., and said electrode substrate has a thickness of 0.2 to 2 mm, a pore diameter of 5 to 100 .mu.m, a permeability to air of not less than 5 ml/cm.multidot.hour.multidot.mmH.sub.2 O, a bending strength of not less than 30 kg/cm.sup.2, an electric resistance of not more than 50 m.OMEGA..multidot.cm and a thermal conductivity of not less than 0.5 kcal/m.multidot.hour.multidot..degree.C.
- 2. An oxygen-cathode according to claim 1, wherein said current collector has ribs and said electrode substrate has no ribs.
- 3. An oxygen cathode according to claim 2, wherein said current collector having ribs is sandwiched between said two electrode substrates.
- 4. An oxygen-cathode according to claim 1, wherein said current collector has no ribs and said electrode substrate has ribs.
- 5. An oxygen-cathode according to claim 4, wherein said current collector is sandwiched between said two electrode substrates.
- 6. An oxygen-cathod according to claim 1, wherein said electrode substrate is produced by mixing carbon fibers, a binding material and a micropore-forming substance which is volatile at high temperatures, molding the thus obtained mixture under a pressure and baking the thus molded mixture.
- 7. An oxygen-cathode according to claim 1, wherein said electrode substrate is produced by mixing carbon fibers, a binding material and a micropore-forming substance which is soluble in a solvent, molding the thus obtained mixture under pressure, subjecting the thus molded mixture to extraction with said solvent, thereby removing said micropore-forming substance from said molded mixture and baking the thus obtained molded mixture.
- 8. A process for preparing an oxygen-cathode for use in electrolysis of an alkali chloride, comprising the steps of (1) facing an unbaked surface of a first molded mixture for producing an electrode substrate, said first molded mixture being produced by mixing carbon fibers, a binding material and a micropore-forming substance and molding the resulting mixture under pressure, with a surface of a current collector, said current collector being produced by mixing a carbonaceous material selected from the group consisting of hard carbon particles and soft carbon particles, and a binding material, molding the thus obtained mixture to form a second molded mixture and preliminarily baking the second molded mixture at a temperature of from 500.degree. to 1500.degree. C. when said carbonaceous material is hard carbon particles, temperature of higher than 2000.degree. C. when said carbonaceous material is hard carbon particles or at a (2) joining said first molded mixture for producing said electrode substrate and said current collector material under pressure, (3) baking the thus joined first molded mixture and current collector, thereby integrating said first molded mixture for said electrode substrate and said current collector material into a unitary body and simultaneously carbonizing said current collector and said first molded mixture whereby said first molded mixture becomes a carbonized electrode substrate with pores formed therein, and wherein after baking said unitary body consists essentially of carbon, and (4) subjecting said carbonized electrode substrate to a hydrophobic treatment, and coating the treated surface of said electrode substrate with a catalyst, wherein said current collector has a permeability to air of not more than 10.sup.-3 ml/cm.multidot.hour.multidot. mmH.sub.2 O, a bending strength of not less than 500 kg/cm.sup.2, an electric resistance of not more than 10 m.OMEGA..multidot.cm and a thermal conductivity of not less than 3 koal/m.multidot.hour.multidot..degree.C and said electrode substrate has a thickness of 0.2 to 2 mm, a pore diameter of 5 to 100 .mu.m, a permeability to air of not less than 5 ml/cm.multidot.hour.multidot.mmH.sub.2 O, a bending strength of not less than 30 kg/cm.sup.2, an electric resistance of not more than 50 m.OMEGA..multidot.cm and a thermal conductivity of not less than 0.5 kcal/m.multidot.hour.multidot..degree.C.
- 9. A process according to claim 8, wherein said hard carbon particles are prepared by baking pitch derived from coal or petroleum and pulverizing the baked pitch and said soft carbon particles are graphite particles or graphitizable carbon particles.
- 10. A process according to claim 8, which further comprises after said baking step, coating said electrode substrate with an emulsion containing particles of fluorine-containing polymer and carbon black, and then further coating the electrode substrate with a suspension containing particles of a catalyst, the solvent in said emulsion and suspension being removed from the coated electrode substrate by drying thereof, and then thermally treating the coated electrode substrate so as to melt and adhere said particles of fluorine-containing polymer to the surface of said electrode substrate, thereby effecting said hydrophobic treatment, and said coating treatment of said catalyst thereinto.
- 11. A process according to claim 10, wherein said particles of said catalyst comprise carbon black which carries a powdery noble metal on the surface thereof.
- 12. A process according to claim 8, wherein before said joining, said second molded mixture is subjected to solvent extraction to remove said micropore-forming substance therefrom.
Priority Claims (1)
Number |
Date |
Country |
Kind |
59-143301 |
Jul 1984 |
JPX |
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CROSS-REFERENCE TO RELATED APPLICATION
The present application is a continuation-in-part of application, Ser. No. 751,525 filed July 3, 1985, now U.S. Pat. No. 4,675,094.
US Referenced Citations (9)
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Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
751525 |
Jul 1985 |
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