Rare earth permanent magnet and preparation method thereof

A rare-earth permanent magnet and magnet technology, which is applied in the manufacture of magnetic objects, permanent magnets, inductors/transformers/magnets, etc., can solve the problems of poor solubility of powder in water or organic solvents, influence of magnet corrosion resistance, and poor bonding strength. Achieve the effects of reducing residue, increasing coercive force, and improving uniformity

Active Publication Date: 2012-07-25
BEIJING ZHONG KE SAN HUAN HI TECH +1
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0004] However, in this method, rare earth fluorides, oxides, and oxyfluorides will have uneven residues after thermal diffusion on the surface of the magnet. Although the surface is removed by acid/alkali treatment or sandblasting or processing in the later stage, due to the diffusion The depth is limited (according to the diffusion depth disclosed in Chinese Patent Application Publication No. CN1838342, the diffusion depth is about 20 μm or more), if too much skin is removed, the coercive force will increase little or not; if less skin is removed, the surface or near surface will be uneven The residue of fluorine, especially the residue of fluorine, has a great influence on the corrosion resistance of the magnet. Generally, the surface of the magnet is protected by plating or coating, but the magnet plating or coating o

Method used

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  • Rare earth permanent magnet and preparation method thereof
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  • Rare earth permanent magnet and preparation method thereof

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Experimental program
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Effect test

Embodiment 1-2

[0037] Smelt the alloy to get (Nd, Pr) a Dy b Fe (1-a-b-c) B c (a = 14.5, b = 0.6, c = 5.8, a, b, and c are atomic percentages), the ingot alloy is coarsely crushed and hydrogen crushed according to the conventional method, jet milled into fine powder, and then mixed Uniform, then oriented by a 2.0T magnetic field and pressed into shape, subjected to 180MPa isostatic pressing, and the green body was sintered at 1070°C for 3 hours to obtain a rough magnet, and the sintered rough magnet was cut into small square pieces of 12mm×12mm×2mm for processing magnet. Divided into A (original sample), B (comparative example), C (example 1), D (example 2) four groups of 100 pieces each. The two groups of samples A and B are comparative samples, in which the samples of group A are not treated, and the samples of group B are pickled with a mass ratio of 3% nitric acid aqueous solution, and then DyF is arranged on the surface of the samples. 3 , Dy 2 o 3 and DyOF powder (the mass perce...

Embodiment 3

[0048] Smelting the alloy by strip technology to obtain (Nd, Pr, Sc) a Dy b co d Fe (1-a-b-c-d) B c (a=15, b=0.6, c=5.8, d=1.0, a, b, c, and d are atomic percentages), the flakes are subjected to hydrogen crushing and air-jet milling in a conventional manner to make fine powder , and then mixed evenly, and then oriented by a 2.0T magnetic field and pressed into shape, subjected to 180MPa isostatic pressing, and the green body was sintered at 1060°C for 3 hours to obtain a rough magnet, and the sintered rough magnet was cut into small square pieces of 12mm×12mm×2mm As a belt handle magnet. The magnet to be treated carries out routine pickling through the nitric acid aqueous solution of 4% mass ratio, then arranges the fluoride powder of R2 on its surface, the nitrate powder of R3 and the phosphate powder of R4, R2 is Dy and Y (Dy, Y mass ratio 3: 1), R3 is Tb, R4 is Tb, three powder mass percentages are respectively 73%, 12%, 15%, and the average particle size is respectiv...

Embodiment 4

[0050] The alloy is smelted by strip strip technology to obtain Nd a Dy b Fe (1-a-b-c-d) Al d B c (a=15, b=0.3, c=6.0, d=0.3, a, b, c, d are atomic percentages) of flakes, the flakes are subjected to hydrogen crushing and jet milling in a conventional manner to make fine powder , and then mixed evenly, and then oriented by a 2.0T magnetic field and pressed into shape. After 180MPa isostatic pressing, the green body was sintered at 1060°C for 3.5h, and then aged at 450°C for 3.5h to obtain a rough magnet. The aged blank was cut into A small square piece of 12mm×12mm×3mm is used as the magnet to be processed. The magnet to be treated carries out conventional alkali washing through 2% mass ratio of sodium silicate aqueous solution, then arranges the fluoride powder of R2 on its surface, the nitrate powder of R3 and the phosphate powder of R4, R2 is Tb and Sc (Tb and Sc The mass ratio is 4:1), R3 is Dy and Ho (the mass ratio of Dy and Ho is 4:1), R4 is Dy and Er (the mass rat...

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Abstract

Disclosed are a rare earth permanent magnet and a preparation method. The preparation method of the rare earth permanent magnet is capable of improving coercivity of the magnet while keeping binding strength of a base body and a plated layer or coated layer after plating or coating on the basis without reducing remanence and magnetic energy product of the magnet and includes: firstly dissolving powder of fluoride containing R2, nitrate containing R3 and phosphate containing R4 into water or alcohol to prepare solution; uniformly applying the solution on the surface of a magnet to be treated; then dewatering or performing alcohol treatment on the magnet to be treated; finally, enabling the magnet to be treated to be subjected to diffusion heat treatment to obtain the treated magnet. By the aid of the preparation method, uniformity of the powder on the surface of the magnet can be improved, powder residues on the surface of the magnet after heat diffusion are reduced, the coercivity of the magnet is improved, and the binding strength of the magnet of the base body and the plated layer or coated layer after plating or coating is kept constant.

Description

technical field [0001] The invention relates to a rare earth permanent magnet and a method for preparing the magnet. In particular, it relates to a rare earth permanent magnet that improves the bonding strength of the plating layer or coating and the substrate on the basis of increasing the coercive force of the magnet and the method for preparing the magnet. Background technique [0002] Rare earth permanent magnets have excellent magnetic properties. In recent years, they have been widely used in the fields of air-conditioning motors, hybrid vehicles and wind power generation. The use of magnets in these fields has to face high temperature and humid environments. in salty humidity. Therefore, not only magnets are required to have high magnetic properties, but also high corrosion resistance is required. [0003] The industry has done a lot of work to improve the magnetic properties of magnets. In recent years, in-depth research has been done on how to improve the coercive...

Claims

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Application Information

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IPC IPC(8): H01F7/02H01F1/053H01F41/02C23C22/68C23C22/03C23C22/82C22F1/02
Inventor 钮萼李正陈超王进东韦立立王惠新饶晓雷胡伯平
Owner BEIJING ZHONG KE SAN HUAN HI TECH
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