Rare-earth ferroalloy and preparation process thereof

A ferroalloy and rare earth technology, applied in the field of rare earth pyrometallurgy, can solve the problems of low current efficiency and rare earth metal yield, unsuitable for large-scale industrial production, increased cost of fluorine-containing harmful gases, etc., and achieves current efficiency and rare earth metal yield. High metal yield, improve metal yield, current efficiency and product quality, and reduce anode current density

Active Publication Date: 2009-10-21
LESHAN YOUYAN RARE EARTH NEW MATERIAL CO LTD
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

This method has the following disadvantages: (1) do anode with graphite tank, graphite tank consumption is faster, can not be produced continuously, in addition, graphite tank is replaced frequently, causes current efficiency and rare earth metal yield to be low, and product quality fluctuates greatly , especially the high carbon content in the product; (2) the crucible used in this method is suspended in the molten salt, which is difficult to realize, and the patent does not provide a realization method; (3) this method is not suitable for large-scale industrialization Production
This method has the following disadvantages: (1) The raw material for electrolysis is rare earth fluoride, and rare earth fluoride must be obtained by fluorination of other compounds such as rare earth oxides, which will obviously increase the cost compared with direct electrolysis of oxides. (2) Electrolysis of rare earth Fluoride will produce a large amount of harmful gas containing fluorine, causing environmental pollution

Method used

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  • Rare-earth ferroalloy and preparation process thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0046] Φ600mm circular graphite electrolytic cell is used, the anode is composed of 4 graphite plates, and NdF in the electrolyte 3 The content is 65wt%, LiF is 35wt%, the iron cathode is Φ55mm pure iron rod, the average current intensity is 2400A, and the anode current density is 0.5~0.8A / cm 2 , the cathode current density is 5~6A / cm 2 , The electrolysis temperature is maintained at 900-980°C. Each furnace was electrolyzed for 1 hour, adding 3.3kg of neodymium oxide, continuous electrolysis for 130 hours, 425kg of neodymium oxide and 46kg of neodymium fluoride were consumed, and 421kg of NdFe alloy was obtained. The ratio is 95.3%. The alloy analysis results are shown in Table 1-1.

[0047] The alloy prepared in this example is added to the main component of NdFeB, and the sintered NdFeB magnets are prepared by melting belt→hydrogen crushing and jet milling→magnetic field forming→vacuum sintering process, and the standard deviation is used to represent the uniformity of the...

Embodiment 2

[0056] Φ600mm circular graphite electrolytic cell is used, the anode is composed of 4 graphite plates, and NdF in the electrolyte 3 The content is 75wt%, LiF is 25wt%, the iron cathode is Φ55mm pure iron rod, the average current intensity is 2600A, and the anode current density is 0.6~0.9A / cm 2 , the cathode current density is 5~8A / cm 2 , The electrolysis temperature is maintained at 940-1020°C. Each furnace is electrolyzed for about 1 hour, adding about 3.6kg of neodymium oxide, continuous electrolysis for 160 hours, 622kg of neodymium oxide and 55kg of neodymium fluoride are consumed, and 641kg of NdFe alloy is obtained, with an average neodymium content of 79.6% and a current efficiency of 76%. The yield of neodymium was 95.8%. The alloy analysis results are shown in Table 2-1.

[0057] The alloy prepared in this example is added to the main component of NdFeB, and the sintered NdFeB magnets are prepared by melting belt→hydrogen crushing and jet milling→magnetic field for...

Embodiment 3

[0065] Φ600mm circular graphite electrolytic cell is used, the anode is composed of 4 graphite plates, and NdF in the electrolyte 3 The content is 85wt%, LiF is 15wt%, the iron cathode is Φ50mm pure iron rod, the average current intensity is 2800A, and the anode current density is 0.8~1.2A / cm 2 , the cathode current density is 7~11A / cm 2 , The electrolysis temperature is maintained at 980-1060°C. Each furnace was electrolyzed for about 1 hour, adding about 3.9kg of neodymium oxide, continuous electrolysis for 150 hours, 584kg of neodymium oxide and 53kg of neodymium fluoride were consumed, and 726kg of NdFe alloy was obtained, with an average neodymium content of 71.2% and a current efficiency of 76.2%. The yield of neodymium was 95.7%. The alloy analysis results are shown in Table 3-1.

[0066] The alloy prepared in this example is added to the main component of NdFeB, and the sintered NdFeB magnets are prepared by melting belt→hydrogen crushing and jet milling→magnetic fie...

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Abstract

The invention relates to a rare-earth ferroalloy for producing a rare-earth permanent magnetism material with high performance and a preparation process thereof. The ferroalloy comprises the contents according to the weight percentage: 30-90 of neodymium or didymium rare earth, and the balance ferrum and less than 1 of unavoidable impurities, wherein the O content is less than or equal to 0.1, the C content is less than or equal to 0.1 and the N content is less than or equal to 0.05. The alloy is prepared by an electrolytic method of fluoride molten salt system oxide, and an electrolyte of the alloy comprises rare-earth fluoride and lithium fluoride.

Description

technical field [0001] The invention relates to the field of metal materials and belongs to rare earth pyrometallurgy. Background technique [0002] Rare earths are widely used in the manufacture of various new functional materials due to their unique magnetic, optical, electrical and other superior properties, and are the basic raw materials for the preparation of rare earth functional materials. For example: NdFeB permanent magnet material occupies a very important position in the rare earth permanent magnet material. During the preparation process, rare earth metals such as Nd and Pr need to be added to obtain higher magnet coercive force and good temperature characteristics. In the preparation process of traditional NdFeB magnets, the above-mentioned single rare earth metal is directly added. Therefore, a high melting temperature is required, resulting in a large burning loss of the rare earth metal and an increase in production cost. In addition, due to the high melting...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22C38/00C22C28/00C25C3/34C22C1/02
Inventor 李红卫颜世宏庞思明李宗安李振海杨启山赵斌胡权霞王志强王育民周林陈博雨
Owner LESHAN YOUYAN RARE EARTH NEW MATERIAL CO LTD
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