RU2010137367A - METHOD FOR PRODUCING FOIL FROM PURE FERROMAGNETIC METAL AND DEVICE FOR ITS IMPLEMENTATION (OPTIONS) - Google Patents

Abstract

 1. A method of manufacturing a pure ferromagnetic metal foil, including halogen, or carbonyl, or electrolytic refining, which produces a sublimable or vaporized or soluble ferromagnetic metal compound with a solvent type inherent in this compound, pressure and temperature, decomposable at the temperature inherent in this compound titanium drum or voltage of the titanium drum cathode, characterized in that it additionally carry out simultaneous refining constant a magnetic field that biases the decomposition and synthesis reactions of ferromagnetic metal compounds and impurities simultaneously occurring on the surface of a titanium drum or titanium drum cathode, for a ferromagnetic metal, the decomposition of the compound and the deposition of metal on the surface of a titanium drum or titanium drum cathode predominate, and for impurities, the presence of which in the deposited ferromagnetic metal is undesirable, in the direction of the predominance of synthesis reactions of compounds of impurities remaining in the gas figurative state or in the electrolyte in the form of a solution or melt. ! 2. A device for manufacturing a pure ferromagnetic metal foil, comprising an active chemical supply unit and series-connected metal feed loading unit, a sublimated halide or vaporized carbonyl synthesis unit, a pure ferromagnetic metal deposition unit in which a titanium drum is rotatably mounted, and a unit winding a ferromagnetic foil, the second and third inputs of a sublimation halo synthesis unit

Claims (9)

1. A method of manufacturing a pure ferromagnetic metal foil, including halogen, or carbonyl, or electrolytic refining, which produces a sublimable or vaporized or soluble ferromagnetic metal compound with a solvent type inherent in this compound, pressure and temperature, decomposable at the temperature inherent in this compound titanium drum or voltage of the titanium drum cathode, characterized in that it additionally carry out simultaneous refining constant a magnetic field that biases the decomposition and synthesis reactions of ferromagnetic metal compounds and impurities simultaneously occurring on the surface of a titanium drum or titanium drum cathode, for a ferromagnetic metal, the decomposition of the compound and the deposition of metal on the surface of a titanium drum or titanium drum cathode predominate, and for impurities, the presence of which in the deposited ferromagnetic metal is undesirable, in the direction of the predominance of the synthesis reactions of compounds of impurities remaining in the gas figurative state or in the electrolyte in the form of a solution or melt. 2. A device for manufacturing a pure ferromagnetic metal foil, comprising an active chemical supply unit and series-connected metal feed loading unit, a sublimated halide or vaporized carbonyl synthesis unit, a pure ferromagnetic metal deposition unit in which a titanium drum is rotatably mounted, and a unit winding a ferromagnetic foil, the second and third inputs of a unit for the synthesis of sublimated halide or evaporated carbonyl connected respectively to the output an active chemical supply unit and with a second output of a pure ferromagnetic metal deposition unit to remove the released active substance, wherein a titanium drum containing a titanium cylinder coated with a thin layer of titanium oxide is mounted on the shaft using disk flanges and isolated from the rest of the deposition unit pure ferromagnetic metal seals, characterized in that the titanium drum is additionally equipped with a heater and a magnetic system installed inside the titanium drum, containing permanent magnets connected in a magnetic circuit, ferromagnetic pipes and ferromagnetic disks, moreover, the constant magnetic field of the magnetic system is closed on the surface of titanium oxide titanium drum. 3. The device according to claim 2, characterized in that an additional magnetic shunt with a gap is additionally installed inside the titanium cylinder. 4. A device for manufacturing a pure ferromagnetic metal foil, comprising an active chemical supply unit and series-connected metal feed loading unit, a sublimated halide or vaporized carbonyl synthesis unit, a frequent ferromagnetic metal deposition unit in which the titanium drum is rotatably mounted, and a unit winding a ferromagnetic foil, the second and third inputs of a unit for the synthesis of sublimated halide or evaporated carbonyl connected respectively to the output an active chemical supply unit and with a second output of a pure ferromagnetic metal deposition unit to remove the released active substance, wherein a titanium drum containing a titanium cylinder coated with a thin layer of titanium oxide is mounted on the shaft using disk flanges and isolated from the rest of the deposition unit pure ferromagnetic metal seals, characterized in that the titanium drum is additionally equipped with a heater and a magnetic system installed inside the titanium drum, containing a ferromagnetic pipe and ferromagnetic disks connected in series to the magnetic circuit, while the ferromagnetic pipe is covered by excitation windings of a constant magnetic field with high-temperature electrical insulation, and the constant magnetic field of the magnetic system is closed on the surface of titanium oxide titanium drum. 5. The device according to claim 4, characterized in that the magnetic shunt with a gap is additionally installed inside the titanium cylinder. 6. A device for manufacturing a foil of pure ferromagnetic metal, containing a loading block of metal-containing raw materials, the output of which is connected to the first inlet of the bath of dissolving the metal-containing raw materials and filtering the electrolyte, the output of which is connected to the input of the electrolytic bath with an insoluble anode in which the titanium drum is mounted for rotation a cathode, the output for the foil of an electrolytic bath with an insoluble anode connected to the washing and winding unit of the ferromagnetic foil, and the output of acidic electrolyte of this bath - with the second inlet of the bath of dissolving metal-containing raw materials and filtering the electrolyte, while a titanium drum cathode containing a cylinder of titanium coated with a thin layer of titanium oxide is mounted on an electrically conductive shaft using electrically conductive disk flanges and is isolated from leakage of electrolyte by seals, characterized in that the titanium drum cathode is further provided with a magnetic system installed inside the titanium drum cathode, comprising in series permanent magnets, ferromagnetic pipes and ferromagnetic disks inserted into the magnetic circuit, and the constant magnetic field of the magnetic system is closed on the surface of titanium oxide titanium drum cathode. 7. The device according to claim 6, characterized in that an additional magnetic shunt with a gap is additionally installed inside the titanium cylinder. 8. A device for manufacturing a foil of pure ferromagnetic metal, containing a loading block of metal-containing raw materials, the output of which is connected to the first inlet of the bath of dissolving the metal-containing raw materials and filtering the electrolyte, the output of which is connected to the input of the electrolytic bath with an insoluble anode in which the titanium drum is mounted for rotation a cathode, the output for the foil of an electrolytic bath with an insoluble anode connected to the washing and winding unit of the ferromagnetic foil, and the output of acidic electrolyte of this bath - with the second inlet of the bath of dissolving metal-containing raw materials and filtering the electrolyte, while a titanium drum cathode containing a cylinder of titanium coated with a thin layer of titanium oxide is mounted on an electrically conductive shaft using electrically conductive disk flanges and is isolated from leakage of electrolyte by seals, characterized in that the titanium drum cathode is further provided with a magnetic system installed inside the titanium drum cathode, comprising in series a ferromagnetic tube and ferromagnetic disks inserted into the magnetic circuit, while the ferromagnetic tube is covered by the excitation windings of a constant magnetic field, and the magnetic field of the magnetic system is closed on the surface of titanium oxide of a titanium drum cathode. 9. The device according to claim 8, characterized in that an additional magnetic shunt with a gap is additionally installed inside the titanium cylinder.