Patent ID: 9666361
Date: 2017-05-30
CPC Classifications: B22F,B23K,C22C,H01F

Claim:
1. A method for producing a bonded rare-earth magnet, the method comprising the steps of: providing a rapidly solidified rare-earth magnet alloy powder consisting of particles each having a flat shape, wherein a ratio of a minor axis size of the flat shape to a major axis size of the flat shape is 0.3 or less and wherein a 50 mass % particle size of the rapidly solidified rare-earth magnet alloy powder is within a range of 75 μm to 105 μm; providing a solution in which a resin that is in solid phase at room temperature is dissolved in an organic solvent; mulling the rapidly solidified rare-earth magnet alloy powder and the solution together and vaporizing the organic solvent, thereby making a bonded rare-earth magnet compound in which magnet powder particles that form the rapidly solidified rare-earth magnet alloy powder are coated with the resin, wherein each particle contained in the bonded rare-earth magnet compound has the flat shape, wherein the ratio of the minor axis size of the flat shape to the major axis size of the flat shape is 0.3 or less, and wherein the 50 mass % particle size of the rapidly solidified rare-earth magnet alloy powder coated with the resin is within the range of 75 μm to 105 μm; making a compressed compact by compressing the bonded rare-earth magnet compound under a pressure of 1000 MPa to 2500 MPa; and thermally treating the compressed compact to form a bonded rare-earth magnet having a density of approximately 6.4 to 6.6 g/cm if the rapidly solidified rare-earth magnet alloy powder to be mulled is 100 mass %, the solution includes 0.4 mass % to 1.0 mass % of the resin and 1.2 mass % to 20 mass % of the organic solvent, the resin including a curing agent, in the bonded rare-earth magnet compound, the resin including the curing agent coats the magnet powder particles at a coverage of 90% or more, the resin including the curing agent that coats the magnet powder particles has a thickness of 0.1 μm to 1 μm, and a gap between adjacent ones of the magnet powder particles each having the flat shape is 2 μm or less as measured in a cross section parallel to a compressing direction.