A lanthanum cerium rare earth alloy mold steel smelting process

A technology of alloy die steel and lanthanum cerium rare earth is applied in the field of alloying smelting process design of compound rare earth to achieve the effects of improving impact toughness, decreasing particle size and refining structure

Active Publication Date: 2022-05-03
HENAN ZHONGYUAN SPECIAL STEEL EQUIP MFG CO LTD
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  • Application Information

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Problems solved by technology

At present, a variety of rare earth alloys have been developed and applied in different steel types. However, in order to continue to improve the quality and performance of materials, the original technology has been difficult to continue to make breakthroughs. Therefore, it is very important to further study rare earth to improve the performance of steel. Beneficial, among them, on the basis of the original process technology of H13 die steel, research on the types of rare earths suitable for application, adding conditions of use and post-manufacturing technology can achieve obvious results, so it is urgent to design a set of rare earths that can improve impact energy and apply them to H13 die steel technical solutions in

Method used

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Experimental program
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Effect test

Embodiment 1

[0014] Embodiment 1: Taking the smelting of H13 steel in a 60-ton electric arc furnace, a 60-ton LF refining furnace, and a 60-ton VD vacuum treatment station as an example, the specific operating process is as follows:

[0015] Step 1), the first is the selection of compound rare earth, the amount of compound rare earth added in the process is selected to be 0.12-0.15kg per ton of steel, and the weight ratio of compound rare earth is lanthanum:cerium=35:65.

[0016] Step 2) In the initial smelting of the electric arc furnace, the ingredients are scrap steel, returned material, pig iron, and recarburizer. The carbon content of the ingredients is greater than or equal to 1.5%. Mainly, reduce the phosphorus content in the steel to less than 0.004% in the shortest time, then decarburize and raise the temperature, take samples before tapping to ensure that the carbon content in the steel is above 0.05%, and the steel can be tapped when the temperature reaches 1640°C, no slag should...

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Abstract

The invention relates to a lanthanum-cerium rare-earth alloy mold steel smelting process. The weight ratio of the composite rare earth is lanthanum:cerium=35:65; The method is to add the molten steel through the intermediate vacuum-sealed silo when the VD vacuum degree is less than or equal to 0.67mbr and keep it until the 18th minute; the condition for adding the compound rare earth is that the carbon weight percentage content of the initial refining steel is not less than 0.05%; according to The composition of refining slag in weight percent is CaO: 0.47‑58%, Al 2 o 3 =25‑32%, SiO 2 =8-10%; Dissolved oxygen before VD is not more than 5ppm, and the optimal control is below 3.5ppm; feed aluminum before VD, do not feed aluminum after VD, control the aluminum content to 0.015-0.025% according to the weight percentage, and can obtain low oxygen content , A more refined and evenly distributed inclusion control level, a finer structure control level, and can improve material properties, so that the impact toughness of ordinary die steel can be increased by 30%, meeting the requirements of high-quality die steel.

Description

technical field [0001] The invention belongs to the technical field of compound rare earth alloying smelting process design of die steel in iron and steel smelting, and specifically relates to a method that can obtain low oxygen content, a more refined and evenly distributed inclusion control level, a refined structure control level, and can Improve the performance of materials, especially the smelting process of lanthanum-cerium rare earth alloy die steel with impact toughness increased by more than 30%. Background technique [0002] Relying on the abundant rare earth resources in China, many metallurgical research institutes and steel plants are continuing to study the application of rare earths in iron and steel metallurgy. According to the current research results, the main role of rare earth in steel is to reduce the oxide content, purify molten steel, refine inclusions and structures, and promote their uniform distribution, thereby ultimately improving the performance ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C22C33/06C21C7/10C21C7/00C21C5/52
CPCC22C33/06C21C7/10C21C7/0006C21C5/52Y02P10/20
Inventor 王怡群高全德王学玺薛正国雷冲宗健郑安雄陈俸军
Owner HENAN ZHONGYUAN SPECIAL STEEL EQUIP MFG CO LTD
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