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Smelting method of low-carbon low-nitrogen high-chrome steel

A smelting method and technology for high-chromium steel, applied in the field of metallurgy, can solve problems such as production accidents, control difficulties, sticking of inserted pipes, etc., and achieve the effects of ensuring stable production, avoiding immaturity, and ensuring reliability

Active Publication Date: 2016-08-31
TANGSHAN GANGLU IRON & STEEL
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The characteristic of high chromium steel is that molten steel and chromium-containing steel slag are relatively sticky, which will cause adhesion to the insertion tube of RH, and in severe cases, production accidents will occur
And low nitrogen needs to ensure the nitrogen increase in the whole process of molten steel treatment, so in general, the control is more difficult

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0024] The smelting method of low-carbon, low-nitrogen and high-chromium steel is tested on a 260t converter and a ladle. The specific steps are as follows:

[0025] 1) Desulfurization treatment is carried out in the molten iron pretreatment. After the treatment, the temperature of the molten iron is 1293 ° C. The desulfurization treatment makes the S content 0.0033%, and the slag is removed after desulfurization;

[0026] 2) Converter boiling tapping, tapping C: 0.041%, P: 0.009%, S: 0.0098%, tapping temperature 1712°C, oxygen activity of molten steel in the tank is 680ppm;

[0027] 3) The ladle is transported to the RH station. After entering the RH, the temperature is measured at 1635°C, and then the vacuum operation is carried out to carry out the carbon deoxidation reaction. The amount of ferrochromium to be added is 2.8t, and aluminum particles are 170kg. Afterwards, the RH is moved out. Before moving out, molten steel [Als]: 0.04%, Cr: 0.72%.

[0028] 4) After the RH i...

Embodiment 2

[0032] The smelting method of low-carbon, low-nitrogen and high-chromium steel is tested on a 260t converter and a ladle. The specific steps are as follows:

[0033] 1) Desulfurization treatment is carried out in the molten iron pretreatment. After the treatment, the temperature of the molten iron is 1286° C., and the S content is 0.0038%. After the desulfurization, the slag is removed;

[0034] 2) Converter boiling tapping, tapping C: 0.037%, P: 0.0088%, S: 0.009%, tapping temperature 1715°C, oxygen activity of molten steel in the tank is 696ppm;

[0035] 3) After entering the RH, the temperature is measured at 1638°C, and then the vacuum operation is carried out to carry out the carbon deoxidation reaction. The vacuum degree reaches 19 minutes at 0.2kPa, and then aluminum and low-carbon ferrochrome are added. The amount of low-carbon ferrochrome added is 3.2t, Aluminum pellets 175kg. After that, RH is moved out, and molten steel [Als]: 0.044%, Cr: 0.79% before moving out. ...

Embodiment 3

[0041] The smelting method of low-carbon, low-nitrogen and high-chromium steel is tested on a 260t converter and a ladle. The specific steps are as follows:

[0042] 1) Desulfurization treatment is carried out in the molten iron pretreatment, adding lime and purified metal magnesium powder. After the treatment, the temperature of the molten iron is 1277 ° C, and the S content is 0.0045%. After desulfurization, the slag is removed;

[0043] 2) Converter boiling tapping, tapping C: 0.035%, P: 0.0092%, S: 0.0085%, tapping temperature 1718°C, oxygen activity of molten steel in the tank is 722ppm, feeding aluminum wire behind the furnace to make molten steel oxygen active The degree is 695ppm;

[0044] 3) After entering the RH, the temperature is measured at 1634°C, and then the vacuum operation is carried out to carry out the carbon deoxidation reaction. The vacuum degree reaches 21 minutes at 0.2kPa, and then aluminum and low-carbon ferrochrome are added. The amount of low-carbon...

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Abstract

The invention relates to a smelting method of low-carbon low-nitrogen high-chrome steel. The low-carbon low-nitrogen high-chrome steel comprises the following components in mass percent: less than 0.03% of C, equal to or less than 0.10% of Si, equal to or less than 0.20% of Mn, 3.0-3.55% of Cr, less than 0.05% of N, equal to or less than 0.020% of P, equal to or less than 0.020% of S, and the balance of Fe and unavoidable impurities. The smelting method of low-carbon low-nitrogen high-chrome steel comprises the following steps: molten iron is pretreated; the pretreated molten iron is boiled in a converter and steel tapping is carried out, during the steel tapping, C is controlled to be between 0.03-0.05%, the temperature is higher than 1710 DEG C, and the oxygen activity in steel in a tank is ensured to be between 500-700 ppm; if the oxygen activity in steel is greater than 700 ppm, the oxygen activity of molten steel in the tank is controlled to be between 500-700 ppm; steel ladles are carried back to the converter after being carried out of an RH furnace, after the large tank is moved to a steel tapping position, argon blowing is carried out, low-carbon chromium iron is fed in the tank through a stock bin at the same time, and argon blowing is carried out for 5 minutes and then stopped; temperature is measured after the steel ladles are fed in an LF furnace, if the temperature is higher than 1575 DEG C, the steel ladles are fed in a machine for pouring, and if the temperature is lower than 1575 DEG C, the steel ladles are moved out after the temperature is raised to 1575 DEG C. The smelting method of low-carbon low-nitrogen high-chrome steel has the advantages of realizing the purpose that low-carbon low-nitrogen high-chrome steel is produced in a plain carbon steel factory and ensuring the reliability of RH production.

Description

technical field [0001] The invention belongs to the technical field of metallurgy, in particular to a method for smelting low-carbon, low-nitrogen, high-chromium steel. Background technique [0002] At present, the production of low-carbon, low-nitrogen and high-chromium steel is a difficult problem for the process of producing steel by converter. This is due to the high chromium content and the large amount of alloy, which makes it difficult to control the temperature throughout the process. The carbon content is low, which means that the molten steel must undergo RH deep decarburization. The characteristic of high-chromium steel is that molten steel and chromium-containing steel slag are relatively sticky, which will cause adhesion to the RH insertion tube, and in severe cases, production accidents will occur. And low nitrogen needs to ensure the nitrogen increase in the whole process of molten steel treatment, so in general, the control is more difficult. Low-carbon hi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22C33/04C21C5/28C21C7/10C21C7/068
CPCC21C5/28C21C7/0006C21C7/068C21C7/10C22C33/04
Inventor 沈明钢朱晓雷韩楚菲孙钰沣李中原闫心怡肖志禹刘拓季坤峰王爽
Owner TANGSHAN GANGLU IRON & STEEL
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