Rare earth iron intermediate alloy and application thereof

An intermediate alloy and rare earth metal technology, applied in the field of metallurgical materials, can solve the problems of unstable rare earth composition control, unsatisfactory effect, high production cost of rare earth steel, etc., to improve the yield of rare earth, improve plasticity, and good product quality Effect

Inactive Publication Date: 2014-05-28
BAOTOU RES INST OF RARE EARTHS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

my country began to study rare earth steel as early as the early 1980s, and studied various methods of adding rare earth to steel, but the effect was not very satisfactory. Rare earth steel additives include single rare earth metals and mixed rare earth metals, and their shapes are block, ingot Shape, wire, powder, rod or cored wire filled with rare earth powder and other forms
However, since rare earth metals are active and their specific gravity is lower than that of steel, it is difficult to add them in

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0013] The rare earth metal cerium and pure iron are used as raw materials, according to the mass percentage of 50:50, and then added to the magnesium oxide crucible, placed in a vacuum furnace, evacuated to 20pa, then filled with argon protection, and heated to 1300℃ for smelting , The holding time is 15 minutes, electromagnetic stirring casting, and rapid cooling to obtain a cerium-iron alloy with a cerium content of 49.7%. When the cerium-iron master alloy is applied to the production of BT700E steel, the rare earth recovery rate reaches 40-50%, which is nearly 3 times higher than other methods.

Embodiment 2

[0015] Rare earth metal lanthanum and pure iron are used as raw materials, according to the mass percentage of 30:70, and then added to the magnesium oxide crucible, placed in a vacuum furnace, vacuumed to 20pa, then filled with argon protection, and heated to 1400°C for smelting , The holding time is 15 minutes, electromagnetic stirring casting, and rapid cooling to obtain a lanthanum-iron alloy with a lanthanum content of 29.6%. When the lanthanum-iron master alloy is applied to the production of BT700E steel, the recovery rate of rare earth reaches 30-40%, which is nearly twice that of other methods.

Embodiment 3

[0017] The rare earth metal neodymium and pure iron are used as raw materials, according to the mass percentage of 40:60, and then added to the magnesium oxide crucible, placed in a vacuum furnace, evacuated to 20pa, then filled with argon protection, and heated to 1350℃ for smelting , The holding time is 15 minutes, electromagnetic stirring casting, rapid cooling, a neodymium-iron alloy with 39.4% neodymium content is obtained.

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PUM

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Abstract

The invention relates to a rare earth iron intermediate alloy and application thereof. The rare earth iron intermediate alloy takes pure iron or qualitative steel and rare earth metals as raw materials; a vacuum smelting furnace adopts an alkaline-earth metal oxide crucible sintered at constant pressure and high temperature; the proportioned rare earth metals and the pure iron or the qualitative steel are put in the crucible in the vacuum smelting furnace; the furnace is vacuumized; the inactive gas is introduced for shielding; after the process of high temperature melting-refining and electromagnetically stirring alloying, the mixed materials are casted into an ingot mould to obtain the rare earth iron intermediate alloy, wherein the rare earth content of the obtained rare earth iron intermediate alloy is 1-50% mass. The rare earth iron intermediate alloy is applicable in the rare earth steel production. The rare earth iron intermediate alloy has the advantages that the rare earth element in the alloy exists in a form of combined state; as the rare earth iron intermediate alloy is added in the rare earth steel production, the problem of effective adding of the rare earth element in the steel can be completely solved; the yield of rare earth element is greatly improved; the rare earth content in the steel can be accurately controlled; the cost of the additional rare earth is reduced; the plasticity, low temperature impact toughness, thickness directional property and decay resistance of the steel material are improved.

Description

Technical field [0001] The invention relates to a rare earth-iron master alloy and its use, and belongs to the field of metallurgical materials. Background technique [0002] In the early 1970s, the main purpose of the US research on the application of rare earth steel was to reduce harmful impurities in steel and improve the purity of steel. It was only in the mid-1970s that the international level began to study the mechanism and role of rare earth in steel. my country began to study rare earth steels in the early 1980s and studied various methods of adding rare earths to steel, but the effect was not very satisfactory. Rare earth steel additives include single rare earth metals and mixed rare earth metals, and their shapes are lumps and ingots. In various forms, such as fine, filament, powder, rod or cored wire filled with rare earth powder. However, because rare earth metals are active and have a lower specific gravity than steel, it is difficult to add them to molten steel a...

Claims

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Application Information

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IPC IPC(8): C22C35/00C22C33/04C22C1/02
Inventor 于雅樵张志宏吕卫东高日增陈国华刘玉宝杨雄
Owner BAOTOU RES INST OF RARE EARTHS
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