TH32740B - Oxygen depleted niobium oxide - Google Patents

Abstract

DC60 (24/02/52) A method to at least partially reduce niobium oxide is described. The process includes It treats niobium oxide by heating in the presence of the gate material and in the atmosphere, which permits the passage of oxygen atoms from the niobium oxide into the gate material. and for a sufficient period of time and Sufficient temperature to form deoxygenated neobia oxide, niobium oxide and/or suboxide. It is also described as a capacitor with an anode made from niobium oxide and suboxide. Anodes formed from niobium oxide powder using a binder and/or lubricant are described as Method to form the anode A method to at least partially reduce niobium oxide was described. The process includes It treats niobium oxide by heating in the presence of the gate material and in the atmosphere, which permits the passage of oxygen atoms from the niobium. side to gate material and for a sufficient period of time and Sufficient temperature to form deoxygenated neobia oxide, niobium oxide and/or suboxide. It is also described as a capacitor with an anode made from niobium oxide and suboxide. Anode formed from niobium oxide powder using a binder and/or lubricant is described as Method to form the anode

Claims (9)

1. Method of anode formation consisting of the process of extrusion of niobium powder mixture. Oxide with at least one binder or lubricant to form extruded anode. Where niobium Such oxides have a niobium to oxygen atomic ratio of 1: less than 2.5. 2. Method of claim 1, where such niobium oxide is NbO. 3. Method of claim 1, where such niobium oxide is compounded with NbO, NbO0.7, NbO1.1 or a combination of it. 4. The method of claim 1 includes the removal of seizure or the elimination of the lubrication of the substance. Seizure or lubricant 5. Method of claim 4, whereby the elimination, seizure or elimination of the said This is achieved by thermal breakdown, binder or lubricant. 6. Method of claim 4, whereby such removal, seizure or This is achieved by rinsing at least one solvent capable of removing the binder or lubricant. 7. Method of claim 4 is supplemented by anode rake in a vacuum or under Inert atmosphere 8. Method of claim 1 where the binder or lubricant contains an organic binder or lubricant 9. Method of claim 1 where the binder or lubricant contains poly (polypropylene). Carbonate), alkyd resin solution, polyethylene glycol, polyvinyl alcohol, stearic acid or its inclusion 1 0. Extruded anode containing niobium powder. Oxide And at least one binder or lubricant, provided that the niobium oxide powder has an atomic ratio of niobium to oxygen of 1: less than 2.5 1. 1. the compressed anode of claim 10, where the niobium oxide is NbO 1 2. Extruded anode of claim 10, where such niobium oxide contains NbO, NbO0.7, NbO1,1, or a combination of it 1. 3. Extruded anode of claim 10, wherein the binder or lubricant is Binder or substance Organic lubrication 1 4. Extruded anode of claim 10, where such binder or lubricant contains poly (propylene carbonate), alkyd resin solution, polyethylene glycol, polyvinyl abrasives. Gohol, stearic acid or its combination 1 5. Extruded anode of claim 10, provided that such anodes are low carbon residue under the elimination principle. Of fasteners or lubricants And after 1 6. Extruded anode of claim 15, where the niobium oxide is observed at temperatures from 1200 ° C to 1750 ° C 1. 7. Extruded anode of claim 15 where the niobium oxide is observed at temperatures from 1200 ° C to 1450 ° C 1. 8. Extruded anode of claim 10, where the atomic ratio is 1: less than 2.0 1. 9. Extruded anode of claim 10 where the atomic ratio is 1: less than 1.5 2 0. Extruded anode of claim 10 where the atomic ratio is 1: 1.1 2 1. Compressed anode of claim 10 where the ratio The atom is 1: 0.7 2. 2. The extruded anode of claim 10, where the atomic ratio is 1: 0.5 2 3. The extruded anode of claim 10, where the niobium oxide has a porous structure. Claim 10 where niobium oxide has a spongy structure that The pore size is from approximately 0.1 to 10 μm. 2 5. Compressed anode of claim 10 where such niobium oxide is NbO, oxygen-free NbO, niobium metal with NbO or its combination. Holds 10, where such niobium is composed of buttons, thin plates, angles or combinations of them.