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Preparation method of rare earth iron alloy

A ferroalloy and rare earth technology, applied in the field of rare earth ferroalloy production, can solve the problems of inability to achieve precise control of rare earth elements, high oxygen content of rare earth ferroalloys, high local concentration of rare earth metals, etc., to improve product quality and comprehensive performance, and reduce impurity content , The effect of increasing the yield of rare earth

Active Publication Date: 2022-04-29
BAOTOU RES INST OF RARE EARTHS +1
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Problems solved by technology

This method is the method commonly used at present, and its process technology is simple, can make multi-element master alloy or application alloy, but also has deficiency: 1) rare earth metal easily local concentration is too high in molten iron, produces segregation; 2) this method The raw materials used are rare earth metals, especially for medium and heavy rare earth metals, the preparation process is complicated and the cost is high; 3) The melting temperature is relatively high. Since rare earth metals and pure iron are used as raw materials, the melting temperature requirements are high
This method has low production cost and simple process, but it also has the following defects: the distribution of rare earth and iron in the alloy fluctuates greatly, it is difficult to control, and the distribution error is as high as 3%-5%, which affects product consistency
[0009] However, the oxygen content in the rare earth iron alloy prepared by the miscibility method and molten salt electrolysis method is relatively high. After being added to the ladle, the generated inclusions are likely to cause nozzle blockage, which affects normal tapping.
Precise control of rare earth elements cannot be achieved when preparing rare earth ferroalloys by miscible method and molten salt electrolysis
The currently used crucible will still bring in impurities when smelting rare earth metals and their alloys

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  • Preparation method of rare earth iron alloy
  • Preparation method of rare earth iron alloy
  • Preparation method of rare earth iron alloy

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preparation example Construction

[0046] The preparation method of the rare earth iron alloy adopts the dual method of non-consumable cathodic electrolysis and intermediate frequency furnace component regulation, and the specific steps include:

[0047] Step 1: Preparation of rare earth-iron master alloy by non-consumable cathode electrolysis; electrolyte is filled in the electrolytic cell, graphite carbon plate 5 is used as anode, tungsten or molybdenum material is used as cathode 6, and rare earth-containing oxyfluoride coating under cathode 6 The alkaline earth metal oxide crucible, alkali metal oxide crucible or tungsten molybdenum crucible is used as the receiver 3; in the electrolyte system of rare earth fluoride and lithium fluoride molten salt, rare earth oxide and iron are used as raw materials, and direct current electrolysis is applied, and the receiving The device 3 receives the rare earth iron master alloy 4;

[0048] The rare earth iron master alloy is enriched on the cathode 6 and melted and fal...

Embodiment 1

[0073] The electrolytic cell 8 adopts a circular graphite electrolytic cell of Φ650mm, and the graphite carbon anode plate 5 is composed of four graphite plates; the lanthanum fluoride in the electrolyte is 80wt%, and the lithium fluoride is 20wt%; the material of the cathode 6 is tungsten, with a diameter of 70mm , average current intensity 3500A, anode current density 0.7-1.0A / cm 2 , cathode current density 7-9A / cm 2 , the electrolysis temperature is maintained at 1000-1050°C, continuous electrolysis for 150 hours consumes 923kg of lanthanum oxide, and produces 857kg of lanthanum-iron master alloy with an average lanthanum content of 90%, a current efficiency of 85%, and a lanthanum yield of 98%. Table 1.

[0074] Table 1 lanthanum-iron master alloy composition analysis results / wt%

[0075] La Fe C O P S Si mn 90.0 9.85 0.0085 0.0094 <0.01 <0.005 0.012 <0.005

[0076] Take the prepared lanthanum-iron master alloy as raw material, take 3....

Embodiment 2

[0080] The electrolytic cell 8 adopts a circular graphite electrolytic cell of Φ600mm, and the graphite carbon anode plate 5 is composed of four graphite plates; the cerium fluoride in the electrolyte is 90wt%, and the lithium fluoride is 10wt%; the material of the cathode 6 is tungsten, and the diameter is 75mm , average current intensity 4000A, anode current density 0.8-1.2A / cm 2 , cathode current density 6-8A / cm 2 , the electrolysis temperature is maintained at 1000-1050°C, continuous electrolysis for 720 hours, 4051kg of cerium oxide is consumed, and 3764kg of cerium-iron master alloy is obtained, the average cerium content is 85%, the current efficiency is 85%, and the cerium yield is 97%. The results of the alloy composition are shown in table 3.

[0081] Table 3 Analysis results of cerium-iron master alloy composition / wt%

[0082] Ce Fe C O P S Si mn 84.91 14.93 0.0097 0.0074 <0.01 <0.005 0.013 <0.005

[0083] The prepared cerium-ir...

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Abstract

The invention discloses a preparation method of a rare earth iron alloy, comprising: preparing a rare earth iron master alloy by electrolysis of a non-consumable cathode; loading an electrolyte in an electrolytic cell, using a graphite carbon plate as an anode, tungsten or molybdenum material as a cathode, and tungsten molybdenum The crucible under the cathode is used as a receiver; in the rare earth fluoride and lithium fluoride molten salt electrolyte system, rare earth oxide and iron are used as raw materials, and direct current electrolysis is applied, and a rare earth iron master alloy is collected in the receiver; The alloy and iron are put into the crucible as raw materials, and the rare earth iron master alloy is further smelted by the fusion method in the intermediate frequency induction furnace to obtain the rare earth iron alloy. The composition of the rare earth iron alloy obtained by the invention is uniform and stable, the content of impurity elements is low, the density and melting point are close to those of steel, and it is easy to add to steel; the rare earth iron alloy can fundamentally solve the problem of effective addition of rare earth in steel, and can accurately control the rare earth content.

Description

technical field [0001] The invention relates to a production technology of a rare earth iron alloy, in particular to a preparation method of a rare earth iron alloy using a dual method of non-consumable cathode electrolysis and intermediate frequency furnace component regulation. Background technique [0002] At present, steel is the largest metal structural material and is widely used in construction, energy, transportation, aerospace and other fields. The application and research of rare earths in steel have also developed rapidly. The addition of rare earths to molten steel can desulfurize, deoxidize, change the shape of inclusions, etc., and can improve the plasticity, stamping performance, wear resistance and welding performance of steel. Various rare earth steels such as rare earth steel plates for automobiles, die steels, rails, etc. have been widely used. [0003] The addition method of rare earth in the production process of rare earth steel has always been the foc...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C25C3/36C22C1/03C22C28/00
CPCC25C3/36C22C1/03C22C28/00
Inventor 刘玉宝高日增吕卫东杨鹏飞李园侯复生申孟林孙牧
Owner BAOTOU RES INST OF RARE EARTHS
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