TH81366A - Rare earth permanent magnets with stratified action - Google Patents

Abstract

DC60 (25/04/49) A stratified hard-earth permanent magnet that exhibits reduced eddy current loss in the form of a mixed magnetic resonator. RaEbTcAdFeOfMg It is prepared by causing E and fluorine atoms to be adsorbed in a magnet, removes R-Fe-B from its surface, F is dispersed. In such a way that its concentration increases on average from the center to the surface of the magnet, the concentration of E / (R + E) available in the grain boundary surrounding the primary phase of the tetragonal system ( R, E) 2T14A, on average, is higher than the concentration of E / (R + E) available in the grand phase primary oxyfluoride of (R, E) is at the grain boundary in the grain region. That extends from the magnetic surface to At least 20 microns in depth, oxyfluoride particles with a circular diameter equivalent to at least 1 micron are dispersed in the grain boundary with a population of at least 2,000 particles / mm2. There is at least 1% of such oxyfluoride in the area. The magnet has a higher electrical resistance surface layer inside the magnet. In this permanent magnet Generation of eddy current in a magnetic circuit is limited. Rare earth permanent magnets with stratified action in which the reduced eddy current loss in the form of a mixed magnetic resonator. RaEbTcAdFeOfMg It is prepared by causing E and fluorine atoms to be adsorbed in a magnet, removes R-Fe-B from its surface, F is dispersed. In such a way that its concentration increases on average from the center to the surface of the magnet, the concentration of E / (R + E) available in the grain boundary surrounding the primary phase of the tetragonal system ( R, E) 2T14A, on average, is higher than the concentration of E / (R + E) available in the grand phase primary oxyfluoride of (R, E) is at the grain boundary in the grain region. That extends from the magnetic surface to At a depth of at least 20 microns, oxyfluoride particles with a circular diameter equivalent to at least 1 micron are dispersed in the grain boundary with a population of at least 2,000 particles / mm2 present. The cefluoride occupies at least 1% of the area. The magnet has a higher electrical resistance surface layer inside the magnet. In this permanent magnet Generation of eddy current in the magnetic circuit was eliminated.

Claims (4)

Disclaimer (all) which will not appear on the advertisement page. : ------ 15/05/2018 ------ (OCR) Page 1 of number 2 Page Disclaimer 1. (Symbol) a (Symbol) 15 and 0.0055 (Symbol) b (Symbol) 2 , 3 (symbol) d (symbol) 15, 0.01 (symbol) g (symbol) 4, 0.04 (symbol) f (symbol) 4, 0.01 (symbol) g (symbol) 11, the remainder is c. A center point and a surface that are formed by the E atoms and fluorine atoms are adsorbed in a magnet, the R-Fe-B resonator from its surface, where such a magnetite can produce Can be achieved by heating a magnet that It is compacted with a powder containing E atoms and fluorine to absorb. And penetrates the E and fluorine atoms into the magnet and the element F is the element Is distributed in such a way that its concentration Increase on average from the center to the surface of the magnet, the grain boundary surrounding the primary phase grain. The landscape of the tetragonal system (R, E) 2T14A within the satellites magnet, the concentrations of E / (R + E) available in the average grain region are higher than the E / (R + E) concentrations. In the primary phase grain, oxyfluoride of (R, E) is present at the grain boundary, in the grain region extending from the magnetic surface to a depth of at least 20 microns, Such fluoride with a circular diameter of at least 1 micron was dispersed in the said grain boundary where a population of at least 2,000 particles / m2, such oxyfluoride was present. In the area of at least 1% and such a magnet Including the surface layer with higher electrical resistance within the magnet. 2. Rare earth permanent magnet of claim 1 where R is at least 10% Nd and / or Pr by atoms. 3. Rare permanent magnet. Earth of claim 1 where T contains at least 60% iron by atom 4. Rare earth permanent magnet of claim 1 where A contains at least 80% boron by atom P 2 of number. 2 pages 1..005 (symbol) a + b (symbol) 17, 3 (symbol) d (symbol) 15, 0.01 (symbol) e (symbol) 4, 0.04 (symbol) f (symbol) 4, 0.01 (symbol) ) g (symbol) 11, the remainder is C such magnet, where there is a center and a surface formed by the adsorption of the E atoms and the fluorine atoms in the body of the R-Fe satellites. -B from its surface, such a resonant magnet can be generated by heating the It is compacted with a powder containing E atoms and fluorine to absorb. And penetrates the E and Phosphorine atoms in the magnet, and the element F is the element Is distributed in such a way that its concentration Increase on average from the center to the surface of the magnet, the grain boundary surrounding the primary phase grain. The landscape of the tetragonal system (R, E) 2T14A within the satellites, element E is abundant in Regions adjacent to the grain boundary, oxyfluoride of (R, E) is present at the grain boundary in the region. The grain boundary extending from the magnetic surface to a depth of at least 20 microns, Oxy particles Such fluoride with a circular diameter of at least 1 micron was dispersed in The grain boundary where a population of at least 2,000 particles / mm2, such oxyfluoride exists At least 1% of the area, and the magnet includes a surface with a higher electrical resistance. Inside the magnet 6. Rare-earth permanent magnet of claim 5 where R is at least 10% Nd and / or Pr by atom 7. Rare-earth permanent magnet of claim 5 where T contains at least 60% iron by atom 8. Rare earth permanent magnet of claim 5 where A contains at least 80% boron by atom ------------ 1. Less than or equal to a is less than or equal to 15 and 0.005 less than or equal to b less than or equal to 2 in the case of formula (1) or 10.005 less than or equal to a + b less than or equal to 17 in case of formula ( 2), 3 is less than or equal to d less than or equal to 15, 0.01 less than or equal to e less than or equal to 4, 0.04 less than or equal to f less than or equal to 4,0.01 less than or equal to g less than or equal to 11 , The rest is c. That magnet has one center. And one surface It was prepared by making the E and fluorine atoms adsorbed in the R-Fe-B magnet from its surface, with the element F being dispersed in such a way that its concentration increased on average. From the center to the surface of the magnet The grain boundary that surrounds the primary phase of the tetragonal (R, E) 2T14A system in the satellites magnet. The E / (R + E) concentrations in the average grain boundary are Higher than the concentrations of E / (R + E) with primary phase grains. Oxifluoride of (R, E) is located at the grand region in the grand region extending from the magnetic surface to a depth of at least 20 microns. Equivalent to a circle of at least 1 micron is dispersed in the grain boundary with a population of at least 2,000 particles / mm2, with at least 1% of such oxyfluoride in the region. There will be The surface layer with higher electrical resistance than inside the magnet. 2. Rare earth permanent magnet according to claim 1, where R contains at least 10% Nd and / or Pr atoms. 3. Rare earth permanent magnet according to claim 1 or 2 where T contains at least 60% iron atoms. 4. Rare earth permanent magnets according to any one of claims 1 through 3 where A contains at least 80% boron atoms.