High-resistivity sintered samarium-cobalt magnet and preparation method thereof

1 . A method for preparing a high-resistivity sintered samarium-cobalt magnet, comprising the following steps: (1) weighing fluoride, mixing the fluoride with alcohol and a surfactant, and then performing high-energy ball milling to obtain fine fluoride powder, with an average particle size of 10-200 nm; (2) rinsing and drying the fine fluoride powder prepared in step (1) in an oxygen-free glove box to obtain fluoride powder; (3) weighing metal raw materials according to compositions of Sm 2 (CoFeCuZr) 17 alloy, and then smelting the raw materials uniformly to obtain alloy ingots; (4) crushing the alloy ingots, and obtaining magnetic powder by powder processing, with an average particle size of 2.5-5.2 μm; (5) mixing the fluoride powder prepared in step (2) with alcohol, and preparing a suspension by ultrasonic treatment; (6) spreading the magnetic powder prepared in step (4) evenly on a platinum sheet A at a bottom of a container, and pouring the suspension prepared in step (5) into the container; after pouring, placing a platinum sheet B on a surface of the liquid in a suspended manner, completely immersing the platinum sheet B in the suspension, then performing deposition treatment under an electric field, and applying a voltage to the platinum sheets A and B, with the platinum sheet B serving as a positive electrode and the platinum sheet A serving as a negative electrode, to obtain deposited magnetic powder; (7) performing magnetic field orientation molding and cold isostatic pressing on the deposited powder prepared in step (6) to obtain compacts; and (8) sintering, solution-treating and annealing the compacts prepared in step (7) to obtain a high-resistivity sintered samarium-cobalt magnet. 2 . The method for preparing a high-resistivity sintered samarium-cobalt magnet of claim 1 , wherein the fluoride in step (1) is one or more of calcium fluoride, magnesium fluoride, terbium fluoride, samarium fluoride, copper fluoride, zirconium fluoride, cobalt fluoride and iron fluoride, and the fluoride is 1-3% (by weight) of the magnetic powder in step (4). 3 . The method for preparing a high-resistivity sintered samarium-cobalt magnet of claim 1 , wherein the surfactant in step (1) is one or more of oleic acid, n-heptane, ethylene glycol, cyclohexane, acetic acid and aminocyclic acid. 4 . The method for preparing a high-resistivity sintered samarium-cobalt magnet of claim 1 , wherein in step (1), an addition amount of the surfactant is 2%-6% (by weight) of the fluoride. 5 . The method for preparing a high-resistivity sintered samarium-cobalt magnet of claim 1 , wherein in step (1), a ball-to-material ratio of the high-energy ball milling process is 10-25 based on a percentage by weight. 6 . The method for preparing a high-resistivity sintered samarium-cobalt magnet of claim 1 , wherein the Sm 2 (CoFeCuZr) 17 alloy in step (3) includes the following compositions based on a percentage by weight: 24≤Sm≤31, 5≤Fe≤30, 4≤Cu≤9, 2≤Zr≤4, and the remaining amount of Co. 7 . The method for preparing a high-resistivity sintered samarium-cobalt magnet of claim 1 , wherein the ultrasonic treatment time in step (5) is 0.5-4 h. 8 . The method for preparing a high-resistivity sintered samarium-cobalt magnet of claim 1 , wherein the voltage in step (6) is 3-10 V, and the time is 10-60 min. 9 . The method for preparing a high-resistivity sintered samarium-cobalt magnet of claim 1 , wherein in step (7), the magnetic field orientation forming process is performed at a magnetic field strength of 2 T and a pressure of 30-100 MPa. 10 . A high-resistivity sintered samarium-cobalt magnet, comprising the following compositions based on a percentage by weight: 23.5≤Sm≤30.2, 4.8≤Fe≤29.7, 3.9>Cu≤8.9, 2≤Zr≤3.8, 0.02≤F≤0.08, 0.04≤TM≤0.2, and the remaining amount of Co, wherein TM is one or more of calcium, magnesium, terbium, copper, zirconium, cobalt and iron.