TH699B - Electrodes - Google Patents

Abstract

Combination electrodes consist of Conductive base with inert electrolyte An electric catalyst conductor coated by thermal spraying. The layer is a powder of the matrix material. which is selected from a group consisting of oxides, nitrides, phosphides, silicides, borides and carbides of the selected metals from the platinum metal group. and ferrous metals and their oxides and having a particle size smaller than at least one power of the matrix particle and the electrolyte cell with such electrodes and the electrolysis process using such electrodes.

Claims (2)

Disclaimer (all), which will not appear on the advertisement page: (clause 1 printed) 2. Electrode as in claim 1, where the conductor base Select from graphite groups, metals and their alloys. 3. Electrodes, as in claim 1 or 2, where the meth particles Rix selects from a group consisting of oxides and carbides of the valve metal and electric catalyst particles there is 1 to 5% by the weight of the class 4. Electrodes as in claim 3 where the valve metal Is titanium 5. Electrode as in claim 3, where the matrix particle is substochiometric oxide. And platinum metal particles are 1 to 3 percent by weight of the layer. 6. Electrodes as in claim 5, where the matrix particles have The size of the platinum group is 20 to 50 times. 7. Electrode as in claim 1 or 2, where the matrix particle is iron oxide particle. And the electric catalyst particles are platinum metal particles 8. Electrode as in claim 7 where the matrix particle is magnetite particle 9. Electrode as in claim 1, where The said substance has The mechanical resistance particle is 5 to 50 percent by weight of 1.0. Electrodes, as in claim 9, where active particles To act as an electric catalyst on the scattered matrix particles. In class In which the amount of electric catalyst increases Going up from the inside of the layer to the outside of it 1 1. In the electrolyte cells That consists of a chassis with anode and cathode, creating a gap between the two. Which may choose to have a membrane Or the diaphragm is in that gap Improvement consists of at least anode or cathode. Either terminal is the electrode of claim 1 1 2. Cell as in claim 11, where the conductor base is selected. From the group consisting of graphides, metals and their alloys 1 3. Cell as in claim 11, where the matrix particles select From the group containing oxides And carbides of the valve metal and electric catalyst particles are 1 to 5 per cent by weight of the class 1 4. Cell as in claim 11, where the valve metal is titanium 1 5. The cell, as in claim 11, where the matrix particle is substoediometric titanium oxide. And platinum metal particles are 1 to 3 percent by weight of class 1. 6. Cell as in claim 11, where the matrix particle has 20 to 50 times larger than the platinum group particles 1 7. Cell as in claim 11, where the matrix particle is Iron oxide particles and electrical catalyst particles are platinum metal particles 1 8. Cell as in claim 11, where matrix particles are magnetite particles 1 9. Cell as in claim 11. Where the above stage has The anti-mechanical particle layer is 5 to 50 percent by weight of 2.0. The cell, as in claim 11, where the active particles in As an electric catalyst, the matrix particles spread in such a way that the amount of the electric catalyst increases. From the inside of the layer to the outside of the second layer 1. In the process of separating the electrolyte solution with chloride ions. Or sulfate ions By passing electricity for separation with Power to the anode Or cathode with an electrode between them, the enhancement consists of at least one positive or negative electrode as the electrode of Claim 1 2 2. Method as in Claim 21, where Conductor base Select from graphite groups, metals and their alloys 2 3. Method as in claim 21, where matrix particles Choose from the group containing oxides. The carbide of valve metal and electric catalyst particles is 1 to 5 percent by weight of class 2. 4. Method as in claim 21, where valve metal is titanium 2. 5. Method as in Proposition 21, in which the matrix particle is Substoichiometric titanium oxide And platinum particles are 1 to 3 percent by weight of class 2. 6. Method as in claim 21, where the matrix particle has 20 to 50 times larger than the platinum group particles. 2. 7. Method as in claim 21, where the matrix particle is Iron oxide particles and electric catalyst particles are platinum metal particles 2. 8. Method as in claim 21, where matrix particles are magnetite particles 2. 9. Method as in clause. Rights 21 where that floor has The mechanical resistance particle layer is 5 to 50 percent by weight 3. The method, as in claim 21, where the active particles in The way is an electric catalyst in the particle matrix scattered in Inner layer in which the amount of electric catalyst increases From the inside of the floor to the outside of the third floor 1. The electrode is clear claim 1, where the matrix particle Choose from a group containing metal oxides and carbates, iron groups, and electric catalyst particles. Is metal particles Platinum group And the base is made of ferrous metal or alloy 3 2.Electrodes as in claim 31, where the matrix particles Choose from a group that includes Nickle Oxide Nickel Carbide Cobalt Oxide And cobalt carbide and base made of pure steel (32 claims, 4 faces, 1 figure).