Rare earth permanent magnetic alloy sheet and double alloy NdFeB permanent magnet and manufacturing method thereof

A manufacturing method and technology of rare earth permanent magnet, applied in the direction of inductor/transformer/magnet manufacturing, permanent magnet, magnetic objects, etc. Refinement of grains and other problems, to achieve the effect of saving heavy rare earth resources, fine grain boundary phase, and low product cost

Active Publication Date: 2016-10-05
SHENYANG GENERAL MAGNETIC
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  • Abstract
  • Description
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Problems solved by technology

[0003] U.S. Patent No. 7,585, the manufacture method of the disclosed neodymium-iron-boron rare earth permanent magnet vacuum quick-setting alloy of 378, this method is as figure 1 As shown, the NdFeB raw material is melted in the crucible 1 and cast into the tundish 2, and the alloy liquid overflowing from the tundish is cooled and quickly solidified by the cooling roller 3 to form an alloy sheet 4, and the alloy sheet is thrown to the rotating cylinder 5 with a heater, The temperature of the alloy sheet in the rotating cylinder is kept at 700-900°C; then the alloy sheet is cooled; the feature of this invention is that the alloy is rapidly cooled to 700-900°C, and then the alloy sheet is kept at 700-900°C, and the holding time is from 15 Seconds to less than 600 seconds; Compared with the previous single-roller quick-setting technology and double-roller quick-setting technology, this invention diffuses the heavy rare earth element Dy into the main phase through heat preservation, which improves the coercive force of the magnet. When the temperature is higher than 700°C, the grain boundary phase is a liquid phase. The change of the grain boundary phase will cause abnormal growth of grains, and it is difficult to form uniform grains. From the contact roll surface to the free surface grains are formed by From small to large, uncontrollable consistency
[0004] Chinese patent CN97,217,372.2 discloses the vacuum quick-setting equipment of twin-stick cooling, as figure 2 As shown, the alloy liquid of the equipment is cast into the gap between the cooling roll 7 and the cooling roll 8 through the funnel 6 to form an alloy sheet 9; The temperature of the alloy sheet after roll rolling is higher than 800°C. Although the double-roll rolling solves the problem of double-sided cooling, it cannot meet the requirements of refining grains, improving grain consistency, and thus increasing coercive force; In order to improve the shortcomings of the aforementioned patents, Chinese patent CN01,241,237.6 discloses the technology of adding a cooling roll under the twin-rollers on the basis of twin-roll rolling. Although this invention improves the performance of the aforementioned patents, the production of alloy sheets The thickness is increased, but it is still double-rolled, which cannot solve the problem that the temperature of the alloy sheet leaving the cooling roll is lower than 700 ° C, and cannot achieve the purpose of reducing the amount of heavy rare earth

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  • Rare earth permanent magnetic alloy sheet and double alloy NdFeB permanent magnet and manufacturing method thereof
  • Rare earth permanent magnetic alloy sheet and double alloy NdFeB permanent magnet and manufacturing method thereof
  • Rare earth permanent magnetic alloy sheet and double alloy NdFeB permanent magnet and manufacturing method thereof

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Embodiment 1

[0043] The raw materials containing Pr are batched according to the serial numbers 1-9, and then the raw materials are loaded into vacuum melting and quick-setting equipment to prepare vacuum quick-setting alloy flakes as the first alloy; the average grain size of the alloy flakes of the first alloy is greater than 1.6 μm, less than 3.9 μm; then the raw materials containing the Dy component are batched according to the serial numbers 1-9, and then the raw materials are loaded into the vacuum quick-setting alloy flakes prepared by the vacuum melting and quick-setting equipment as the second alloy; the average grain size of the alloy flakes of the second alloy Greater than 1.1 μm, less than 2.9 μm; the first and second alloy smelting are all carried out in a vacuum Mn removal process, the Mn removal process controls the heating temperature range of 400-1500 ° C, and controls the vacuum degree of 5 × 10 3 Pa to 5×10 -2 Pa range, holding time 10-240 minutes; then continue to heat...

Embodiment 2

[0049] Raw materials containing Pr components are batched according to serial numbers 1-9, and then the raw materials are loaded into a double-roller cooled vacuum smelting quick-setting equipment to prepare double-sided cooled quick-setting alloy flakes as the first alloy; the average grain size of the alloy flakes of the first alloy is The particle size is greater than 2.6 μm and less than 3.0 μm; then the raw materials containing the Dy component are batched according to the serial numbers 1-9, and then the raw materials are loaded into the double-roll cooling vacuum melting quick-setting equipment to prepare double-sided cooling quick-setting alloy flakes as the second Two alloys; the average grain size of the alloy flakes of the second alloy is greater than 2.5 μm and less than 2.9 μm; both the first and second alloys are smelted in a vacuum de-Mn process, and the de-Mn process controls the heating temperature range of 400-1450 ° C, Control the vacuum degree 5×10 3 Pa to...

Embodiment 3

[0053] Raw materials containing Pr components are batched according to serial numbers 1-9, and then the raw materials are loaded into a double-roller cooled vacuum smelting quick-setting equipment to prepare double-sided cooled quick-setting alloy flakes as the first alloy; the average grain size of the alloy flakes of the first alloy is The particle size is greater than 2.6 μm and less than 3.0 μm; then the raw materials containing the Dy component are batched according to the serial numbers 1-9, and then the raw materials are loaded into the double-roll cooling vacuum melting quick-setting equipment to prepare double-sided cooling quick-setting alloy flakes as the second Two alloys; the average grain size of the alloy flakes of the second alloy is greater than 1.1 μm and less than 1.5 μm; both the first and second alloys are smelted in a vacuum demanganese process, and the demanganese process controls the heating temperature range of 500-1400 ° C, Control the vacuum degree 5×...

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Abstract

The invention discloses a double-roller cooled rare earth permanent magnet alloy sheet, the alloy sheet is an alloy sheet cooled on both sides, the average thickness of the alloy sheet is 0.1-0.6mm, the average grain size is 1.2-3.9μm, and contains Co , Cu, Al, Ga elements, the manufacturing method of the alloy flakes includes casting the molten alloy solution through the tundish to the outer edge of the first rotating roller cooled with water to form alloy flakes, and the first rotating roller of the alloy rotates , then leave the rotating roller and drop to the outer edge of the second rotating roller with water cooling and then rotate with the second rotating roller, then leave the rotating roller and fall to form the second process of the double-sided cooled alloy sheet; the invention also discloses The NdFeB permanent magnet manufactured by adopting the alloy sheet of the present invention and the method for manufacturing the permanent magnet are disclosed.

Description

technical field [0001] The invention belongs to the field of rare-earth permanent magnets, and in particular relates to a double-roller cooled rare-earth permanent magnet alloy sheet, a double-roller cooled double-alloy NdFeB permanent magnet and a manufacturing method. Background technique [0002] NdFeB rare earth permanent magnet materials, with their excellent magnetic properties, have been used more and more, and are widely used in medical nuclear magnetic resonance imaging, computer hard drives, audio, mobile phones, etc.; with the requirements of energy saving and low-carbon economy , NdFeB rare earth permanent magnet materials have begun to be used in auto parts, household appliances, energy saving and control motors, hybrid vehicles, wind power generation and other fields. [0003] U.S. Patent No. 7,585, the manufacture method of the disclosed neodymium-iron-boron rare earth permanent magnet vacuum quick-setting alloy of 378, this method is as figure 1 As shown, th...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01F1/053H01F7/02H01F41/02B22D11/06
Inventor 孙宝玉洪光伟王健杨永泽段永利
Owner SHENYANG GENERAL MAGNETIC
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