Patent ID: 11897034
Assignee: nan
Field: Materials, metallurgy (Chemistry)
Classification: CPC B  C  H | IPC B  C  H

Claim 0:
1. A method for manufacturing a rare earth sintered magnet, the method comprising the steps of:
preparing a rare earth alloy comprising xwt % RE-ywt % B-zwt % TM-bal.wt % Fe wherein RE is a rare earth element, TM is a 3d transition element, x=28˜35, y=0.5˜1.5 and z=0˜15;
coarsely pulverizing the prepared rare earth alloy;
finely pulverizing a powder of the pulverized rare earth alloy which has been coarsely pulverized, repetitively 2˜10 times, using a jet mill method;
aligning and compacting the finely pulverized rare earth alloy powder in a magnetic field, to be magnetized;
performing a hydrogenation-disproportionation-desorption-recombination (HDDR) process to a compact which has been magnetized;
sintering the HDDR processed compact; and
loading a sintered alloy into a heating furnace to be heat-treated under a vacuum or in an inert gas atmosphere, thereby forming the rare earth sintered magnet,
wherein the finely pulverizing step comprises a first pulverizing process and a second pulverizing process,
wherein, in the finely pulverizing step, classification of the finely pulverized powder of rare earth is carried out at a rotational speed of 2,000˜8,000 rpm in each classifying section and nitrogen gas is supplied to the classifying section at an atmospheric pressure 6˜10 atm,
wherein, in the first pulverizing process, classification is carried out at a rotational speed of 2,000˜8,000 rpm, such that an average particle size of the rare earth powder discharged at an outlet in the classifying section is 3˜15 μm,
wherein, after repeating the first pulverizing process 2 to 4 times, classification is carried out at a rotational speed of 8,000 rpm, such that the average particle size of the rare earth powder discharged at the outlet in the classifying section is 1˜4 μm,
wherein, in the finely pulverizing step, an ultra-fine powder resulting from the pulverizing process is removed through the rotational speed in the classifying section during each pulverizing process whenever jet milling is performed, and
wherein, in the HDDR process performing step, the magnetized compact is loaded into a vacuum furnace for vacuum-exhaust to be heated at 700˜900° C. and maintained for 1˜3 hours by changing the vacuum furnace atmosphere to a hydrogen atmosphere of 0.2˜0.5 atm, and subsequently to be heated at the same temperature for 10 minutes to 1 hour by changing the hydrogen atmosphere of 0.2˜0.5 atm to a vacuum atmosphere.