Double-hard magnetic main phase mixed rare-earth permanent magnet and preparation method thereof

A dual-hard magnetic main phase and mixed rare earth technology is applied in the fields of magnetic objects, inductors/transformers/magnets, magnetic materials, etc. It can solve the problems of non-use and cost increase, and achieve environmental protection, wide sources, and short refining process Effect

Active Publication Date: 2016-11-16
CENT IRON & STEEL RES INST
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

In 2015, the patent document CN104637643A continued to apply to report that the low-cost magnet was made of mixed rare earth with Baiyun Obo co-associated raw ore, and its magnetic energy product can be freely adjusted within 20-40MGOe. The thermal deformation process was realized. In the same year, CN104700973A patent application adopted the same powder metallurgy and rapid quenching hot-pressing thermal deformation process, and replaced PrNd with cheap MM. The control range of the magnetic energy product was within 25-45MGOe. In the same year, the alloy composition used in the patent document CN104715876A application was MM x M1 z1 co u1 BB v1 Fe (100-x1-z1-u1-v1) It is mixed with alloys containing Nd as the rare earth raw material, but the mixed rare earth elements are decomposed into individual elements and then formed into R 2 Fe 14 B main phase, so that most of the rare earth elements in the mixed rare earths should be simultaneously formed into R 2 Fe 14 The B main phase, coexisting in the magnet, will bring greater technical difficulty to the later thermal process, b

Method used

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  • Double-hard magnetic main phase mixed rare-earth permanent magnet and preparation method thereof
  • Double-hard magnetic main phase mixed rare-earth permanent magnet and preparation method thereof
  • Double-hard magnetic main phase mixed rare-earth permanent magnet and preparation method thereof

Examples

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preparation example Construction

[0073] A kind of mixed rare earth permanent magnet and the steps of preparation method thereof are as follows:

[0074] Step 1: Ingredients. The preparation process mode is different, the alloy batching mode of application example is different, the chemical formula of alloy and detailed raw material ratio are as follows:

[0075] Table 4 Ingredients and Materials

[0076]

[0077]

[0078] Polish off the oxidized skin of each raw material to reveal the metallic luster, then weigh the raw materials required for each component, and use them immediately after batching.

[0079] Step 2: melting and preparing quick-setting tablets.

[0080] MM 31 Fe bal B 0.97 tm 1.5 The main phase alloy quick-setting sheet is alloy ①;

[0081] (PrNd) 27 Fe bal BB 0.97 tm 0.5 The other main phase alloy quick-setting sheet is alloy ②;

[0082] chemical formula [MM 0.2 (PrNd) 0.8 ] 30 Fe bal BB 0.97 tm 1.3 For alloy ③;

[0083] chemical formula [MM 0.4 (PrNd) 0.6 ] 30 Fe ...

Embodiment 2

[0089] Embodiment 2 is a control group, what used is double alloy method, prepares alloy 3., alloy 4. and alloy 5. with this process;

[0090] The condition of jet milling is that the sorting speed is 4800r / min, and the oxygen content is about 48ppm. The final prepared magnetic powder is measured three times with an average particle size analyzer, and the average value is 3μm.

[0091] Step 5: Shaping. Using vertical molding technology under pulsed magnetic field, with N 2 Oxygen is continuously exhausted from the counter-pressure cavity. When the oxygen content is less than 300ppm, the pulsed magnetic field is oriented at 2T, the pressure is 5-10MPa and the compaction density is 3-3.9g / cm 3 , into a vacuum bag, but it needs to be further compacted by cold isostatic pressing above 280MPa. The green density after compaction is 4~6g / cm 3 .

[0092] Step 6: Sintering and tempering treatment. Put the green body into the vacuum sintered furnace tube quickly, use Ar gas to clea...

Embodiment 1

[0094] Example 1 uses the double hard magnetic main phase method to prepare a magnet. Under the same preparation cost, the magnetic performance is the highest, showing the superiority of this method. Only such cost-effective sintered mixed rare earth permanent magnets can be favored by customers and finally win the market.

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Abstract

The invention relates to a double-hard magnetic main phase mixed rare-earth permanent magnet and a preparation method thereof. The permanent magnet comprises double hard magnetic main phases and a rear-earth-rich phase, wherein the double hard magnetic main phases are MM<2>Fe<14>B and (PrNd)<2>Fe<14>B respectively; the permanent magnet is prepared from the following chemical component in percentage by mass: [MM<x1>(PrNd)<1-x1>]<x>Fe<100-x-y-z>B<y>TM<z>; x is smaller than or equal to 31 and greater than or equal to 27; x1 is smaller than or equal to 1 and greater than or equal to 0; y is smaller than or equal to 1 and greater than or equal to 0.9; z is smaller than or equal to 1.5 and greater than 0; TM is a composition of more of the elements Al, Cu, Co, Nb, Ga, Tb and Zr; and MM is a mixed rare-earth alloy which is directly separated from raw ore and contains La, Ce, Pr and Nd. The anisotropic sintered mixed rare-earth permanent magnet with high cost performance within a range of 10-48MGOe can be prepared by adjusting the content of PrNd. A basic rare-earth raw material used by the permanent magnet is cheap mixed rare earth, so that a separation and purification technology for the rare earth can be reduced, efficient utilization of lanthanum-cerium rare earth is achieved and the double-hard magnetic main phase mixed rare-earth permanent magnet meets the requirements of low carbon economy on green production technology innovation of a rare-earth permanent magnet product.

Description

technical field [0001] The invention belongs to the technical field of mixed rare earth permanent magnet materials, and in particular relates to a sintered mixed rare earth permanent magnet with dual hard magnetic main phases and a preparation method thereof. Background technique [0002] In 2014, China's demand for sintered NdFeB was about 120,000 tons, with an annual growth rate of 19%. The demand for rare earth Nd also increased accordingly, making strategic rare earth resources with low abundance even more scarce. However, most of the sintered NdFeB magnets are currently used in speakers, voice coil motors, generators and electric motors. Most of the products are of low and medium grade performance, resulting in overkill for sintered NdFeB magnets. From the aspects of preparation cost, magnetic performance and comprehensive utilization of resources, the anisotropic sintered permanent magnet, referred to as S-MMFeB, is prepared by using Misch-metal with large reserves and...

Claims

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Application Information

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IPC IPC(8): H01F1/057H01F41/02B22F9/04B22F3/04B22F3/10
CPCB22F3/04B22F3/1007B22F9/04B22F2201/20H01F1/0571H01F1/0575H01F41/0266
Inventor 朱明刚余效强李卫岳明韩瑞姜瑞姣王誉郑蒙刘卫强
Owner CENT IRON & STEEL RES INST
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