TH52304A - Magnetic powder and isotropic bonded magnetism - Google Patents

Abstract

DC60 (09/03/44) The revelation here is a magnetic powder which can provide the bonded magnet with properties. The magnets are very good and that are very reliable. In particular, thermal stability is very good, magnetic powder containing alloy elements is represented by Rx (Fe1-yCoy) 100-xzwv Bz A1w Vv (when R is at least one rare-earth element x is 7.1 - 9.9 at%. y is 0 - 0.30, z is 4.6-6.9 at%, w is 0.02-15 at% and v is 0.2 - 3.5 at%). Magnetic powder is formed from a composite structure. With a weak magnetic phase and a hard magnetic phase. Where magnetic powder has magnetic properties, in which When a magnetic powder is produced into an isotropic bonded magnet by mixing it with a resin that Anchoring and that time forming it Irreversible tolerance (X irr), which was measured using The points of intersection of the demagnetization curve in the J -H diagram showing the magnetic properties at The room temperature and the linearity which pass the origin in the JH diagram and with the slope (J / H) -3.8x10-6 H / m as the starting point is less than 5.0x10-7 H / m and the negative magnetic force in The body (HCJ) of a magnet that Bonded magnets at room temperature range from 320-720 kA / m. The disclosure here is a magnetic powder, which can provide the bonded magnet. The magnets are very good and that are very reliable. In particular, thermal stability is very good, magnetic powder containing alloy elements is represented by Rx (Fe1-yCoy) 100x-zwv Bz Alw Vv (when R is at least one rare-earth element, x is 7.1 - 9.9 at%. y is 0 - 0.30, z is 4.6-6.9 at%, w is 0.02-15 at% and v is 0.2 - 3.5 at%). Magnetic powder is formed from a composite structure. With a weak magnetic phase and a hard magnetic phase. Where magnetic powder has magnetic properties, in which When a magnetic powder is produced into an isotropic bonded magnet by mixing it with a resin that Anchoring and that time forming it Irreversible tolerance (X irr), which was measured using The points of intersection of the demagnetization curve in the J -H diagram showing the magnetic properties at The room temperature and the linearity which pass the origin in the JH diagram and with the slope (J / H) -3.8x10-6 H / m as the starting point is less than 5.0x10-7 H / m and the negative magnetic force in The body (HCJ) of a magnet that Bonded at room temperature in the range of 320-720 kA / m.

Claims (1)

1. magnetic powder, composed of alloy elements, is represented by Rx (Fe1-yCoy) 100-XZWV BzA1wVv (when R is at least one rare earth element, X is 7.1-9.9at%, y is 0-0.30, Z is 4.6-6.9at%, and w is 0.02-1.5. at% and v are 0.2-3.5at%). Magnetic powder is formed from a composite structure. Sit with a weak magnetic phase and a hard magnetic phase. Where magnetic powder has specific properties Where when the isotropic bonded magnet It is formed by mixing magnetic powder with bonded resin. The irreversible hold condition (Xirr) is equal to or less than 5.0x10-7 H / m; The irreversible tolerance curve was measured using the point at which the demagnetization curve in the JH diagram and the straight line through the origin in the JH diagram intersect.The magnetic demagnetization curve shows the magnetic properties at room temperature and the line. The straight slope (J / H) -3.8x10-6 H / m and the self-magnetic negative force (Hcj) of the magnet at room temperature is in the range of 320-720 kA / m. 2. Magnetic powder as requested. The right to claim 1, where when a bonded magnet forms The p-density isotropic is formed from a mixture of magnetic powder and bonded resins. The residual magnetic flux density Br at room temperature satisfies the relative requirements expressed by the formula Br / p [x10-6Tm3 / g] > _0.125 3. The magnetic powder, as requested, holds the right in the clause. Holds the right to Article 1 where, when a bonded magnet forms Isotropic formed from a mixture of magnetic powder and bonded resins. The absolute value of Irreversible loss of flux (Initial flux loss) is equal to or less than 6.2%. 4. Magnetic powder, as requested in Clause 3, where R is composed of rare-earth elements contained as Mostly Nd and / or Pr 5. Magnetic powder, as is requested, holds the right to Clause 1, where R includes Pr and the ratio of Pr corresponding to the total mass of such R is 5-75. % 6. Magnetic powder, as requested in claim 1, where R includes Dy and the ratio of Dy corresponding to the total mass of such R is equal to or less than 14% 7. Magnetic powder, as requested in claim 1, where magnetic powder is obtained by plating. 8. Magnetic powder as claimed in Clause 1, where magnetic powder is obtained by grinding. Alloy liquid churned ribbon cable It is made on a cold roller. 9. Magnetic powder, as is claimed, in claim 1, where the magnetic powder is passed through to incineration At least once hot During the manufacturing process or after the production of magnetic powder 1 0. Magnetic powder as requested in Clause 9, where the average particle size of magnetic powder ranges from 0.5-150 um 1 1.Magnetic powder, as requested in claim 1, where the hard magnetic phase is most of the phase.