TH72351B - Method for the preparation of permanent magnets with rare earth. - Google Patents

Abstract

The rare earth permanent magnet DC60 was prepared by preparing a sintered magnetic object. The seal contains 12-17% Rare Earth atom, B 3-15% atom, 0.01-11% metal atom, 0.1-4% O atom, C 0.05-3% atom, N 0.01-1% atom. And balance with Fe, a powder placement which Oxides Other rare-earth fluoride and / or oxyfluoride on the surface of the magnetic object and the magnetic object heat treatment that has been covered with powder at a lower temperature. Sintering temperature in vacuum or inert gas To cause other rare-earths to be absorbed in magnetic objects, permanent magnetism with rare earth has been prepared. By providing a sintered magnetic object The seal contains 12-17% Rare Earth atom, B 3-15% atom, 0.01-11% metal atom, 0.1-4% O atom, C 0.05-3% atom, N 0.01-1% atom. And balance with Fe, a powder placement which Oxides Other rare-earth fluoride and / or oxyfluoride on the surface of the magnetic object and the magnetic object heat treatment that has been covered with powder at a lower temperature. Sintering temperature in vacuum or inert gas To cause other rare earth to be absorbed in magnetic objects

Claims (4)

Disclaimer (all) which will not appear on the advertisement page: Amendment 01/11/2019 No disclaimers ................................................... Amendment 07/09/2018 Disclaimer 1. A method for preparing a permanent magnet with a rare earth, which consists of a procedure of The placement of the powder on the surface of the sintered magnetic object containing the R1aTbBcMdOeCfNg, where R1 is at least one element selected from the rare earth, combining Sc and Y with T as at least one element selected from Fe and Co M as elements. At least one element is chosen from among which includes Al, Cu, Zn, In, Si, P, S, Ti, V, Cr, Mn, Ni, Ga, Ge, Zr, Nb, Mo, Pd, Ag, Cd, Sn, Sb, Hf, Ta, and W and "a" to "g" indicate the atomic percentage based on the alloy in the range as 12 (formula) a (formula) 17, 3 (formula) cs (formula) 15, 0.01 (formula) ds (formula) 11, 0.1 (formula) es (formula) 4, 0.05 (formula) fs (formula) 3, 0.01 (formula) g (formula) 1 and a balance of b and a (formula) 12.5+ (e + f + g) x 0.67-cx 0.11, such a powder containing at least one compound selected in Between the oxides of R2, the fluoride of R3, and the oxyfluoride of R4, where R2, R3 and R4 are at least one element selected from the rare earth element, which Sc and Y are combined, and magnetic object heat treatment with powder that has been placed on its own surface at temperature Is equal to or lower than the sintering temperature of the magnetic object in vacuum or in an inert gas for 1 minute to 100 hours to cause at least one group of R2, R3, and R4 in the powder to be absorbed in Magnetic matter ---------- 1. A method for the preparation of rare-earth permanent magnets consisting of a procedure of The placement of the powder on the surface of the sintered magnetic object containing the R1aTbBcMdOeCfNg, where R1 is at least one element selected from the rare earth, combining Sc and Y with T as at least one element selected from Fe and Co M as elements. At least one element is selected from among which includes Al, Cu, Zn, In, Si, P, S, Ti, V, Cr, Mn, Ni, Ga, Zr, Nb, Mo, Pd, Ag, Cd, Sn, Sb, Hf, Ta, and W and "a" to "g", which indicates the atomic percentage based on the alloy in the range 12 (formula) a (formula) 17, 3 (formula) c ( Formula) 15, 0.01 (formula) d (formula) 11, 0.1 (formula) e (formula) 4, 0.05 (formula) f (formula) 3, 0.01 (formula) g (formula) 1, and the balance of b and a ( Formula) 12.5 + (e + f + g) x 0.67- cx 0.11, such a powder consisting of at least one compound that has been selected between R2 oxide, R3 fluoride and oxyve. R4's fluoride, where R2, R3 and R4 are at least one of the elements selected from the rare-earth elements, including Sc and Y, and magnetic powder-containing heat treatment. That has been placed on its own surface at temperature Is equal to or lower than the sintering temperature of the magnetic object in vacuum or in an inert gas for 1 minute to 100 hours to cause at least one group of R2, R3, and R4 in the powder to be absorbed in Magnetic matter 2. Method of claim 1, whereby thermal therapy of magnetic material has been repeated at least two times 3. The method of claim 1 or 2 also consists of: Causing the therapeutic effect 4. Methods of any one of Claims 1 to 3, where R1 contains at least 10% Nd and / or Pr atoms 5. Method 6. The method of any of the clauses 1 to 5, where T contains at least 50% Fe atoms. Average particles up to 100 μm, 7. Method of any one of claim 1 to 6, where R2, R3 and R4 each group has at least 10% Dy and / or Tb atoms. Of any of Clause 1 to 7, where the powder contains R3 fluoride and / or R4 oxyfluoride and heat treatment Fluorine is absorbed in magnetic bodies in conjunction with R3 and / or R4; 9. Method of claim 8, in which powders contain the fluoride of R3 and / or oxyfluoride. R4, R3, and / or R4 have at least 10% Dy and / or Tb atoms and have total concentrations of Nd and Pr below all concentrations of Nd and Pr in R1 1 0. Method of claim Clause 8 or 9, where in the powders which contain the fluoride of R3 and / or oxyfluoride of R4, there is fluoride of R3 and oxyfluoride of R4. At least 10% by combined weight and balance of at least one compound selected. From a group consisting of carbides, nitrides, borides, silicides, oxides, hydroxides and hydrides of R5, and a complex containing at least one of the above, where R5 is At least one element selected from a rare earth element including Sc and Y by 1. 1. Methods of any one of Claims 1 to 10, where the placement process includes: Feeding the slurry of such powder that has been dispersed in aqueous or solvent solvent. Organic to the surface of the magnetic object 1 2. Methods of any of the Claims 1 through 11, in addition to the clearing Magnetic objects with at least one actuator that was selected from alkali, acid and organic solvents before the powder was placed on the magnetic object 1. 3. Methods of any one of claims 1 to 11, which also consists of blasting and polishing of a magnetic object for the removal of the surface layer before the powder is placed on the magnetic object 1. 4. Methods of any one of Claims 1 to 13, where additionally, which includes: Passing of a magnetic object to etching, plating, or painting After heat therapy