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Induction furnace dephosphorizing method by top and bottom blowing

A top-bottom blowing and induction furnace technology, applied in the field of induction furnace dephosphorization

Inactive Publication Date: 2013-02-20
武汉钢铁有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the disadvantage of this scheme is that it is difficult to dephosphorize high carbon in the early stage of smelting, the load of slag is large, and the slag is easy to rephosphorize and overoxidize in the later stage, which affects the cleanliness and yield of steel. Simply increasing the flow rate of bottom blowing gas also shortens the bottom blowing Component life issues

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0033] Example 1 (low phosphorus and low oxygen steel)

[0034] The smelting steps:

[0035] 1) The charge is melted;

[0036] 2) Perform top-blowing oxygen smelting: oxygen supply intensity is 3.3 Nm per ton of steel 3 / min, the amount of lime added is 44Kg per ton of steel, plus

[0037] The amount of dolomite input is 12 Kg; when the oxygen blowing reaches 34% of the full oxygen supply time, stop the top blowing oxygen;

[0038] 3) Carry out slag discharge, the slag discharge volume is 50% of the total slag volume;

[0039] 4) Continue top blowing oxygen after slag discharge, the oxygen supply intensity is 3.3 Nm per ton of steel 3 / min;

[0040] 5) When the oxygen blowing reaches 75% of the full oxygen supply time, start blowing argon from the bottom, and the bottom blowing strength is 0.06 Nm per ton of steel 3

[0041] / min; and add argon and oxygen at the top to mix and blow in, the top blowing strength of argon is 0.22 Nm per ton of steel 3 / min;

[0042] 6) When the molten metal is...

Embodiment 2

[0047] Example 2 (for low-phosphorus and low-oxygen steel)

[0048] The smelting steps:

[0049] 1) The charge is melted;

[0050] 2) Perform top-blowing oxygen smelting: the oxygen supply intensity is 3.5 Nm per ton of steel 3 / min, the amount of lime added is 48Kg per ton of steel, plus

[0051] The amount of dolomite input is 14 Kg; when the oxygen blowing reaches 36% of the full oxygen supply time, stop the top blowing oxygen;

[0052] 3) Carry out slag discharge, the slag discharge volume is 70% of the total slag volume;

[0053] 4) Continue top blowing oxygen after slag discharge, the oxygen supply intensity is 3.5 Nm per ton of steel 3 / min;

[0054] 5) When oxygen blowing reaches 78% of the full oxygen supply time, start blowing argon gas from the bottom, and the bottom blowing strength is 0.10 Nm per ton of steel 3 /

[0055] min; and add argon and oxygen at the top to mix and blow in. The top blowing strength of argon is 0.25 Nm per ton of steel 3 / min;

[0056] 6) When the molten...

Embodiment 3

[0061] The smelting steps of Example 3 (low-phosphorus and low-oxygen steel):

[0062] 1) The charge is melted;

[0063] 2) Perform top-blowing oxygen smelting: oxygen supply intensity is 3.4 Nm per ton of steel 3 / min, the amount of lime added is 46 Kg per ton of steel, add

[0064] The amount of dolomite is 13 Kg; when the oxygen blowing reaches 35% of the full oxygen supply time, stop the top blowing oxygen;

[0065] 3) Carry out slag discharge: the slag discharge volume is 60% of the total slag volume;

[0066] 4) Continue top blowing oxygen after slag discharge, the oxygen supply intensity is 3.4 Nm per ton of steel 3 / min;

[0067] 5) When oxygen blowing reaches 76% of the full oxygen supply time, start blowing argon from the bottom, and the bottom blowing strength is 0.075 Nm per ton of steel 3

[0068] / min; and add nitrogen and oxygen at the top to mix and blow in, the top blowing strength of nitrogen is 0.22 Nm per ton of steel 3 / min;

[0069] 6) When the molten metal is smelted...

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PUM

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Abstract

The invention discloses an induction furnace dephosphorizing method by top and bottom blowing. The method includes the steps that loading and melting are performed; top blowing oxygen smelting is performed, and when the oxygen blowing is performed for 34-36% of whole oxygen supply time, the top blowing oxygen is stopped; slagging is performed; the top blowing oxygen is continuously performed; when the oxygen blowing is performed for 75% of the whole oxygen supply time, argon or nitrogen is started to be blown into the furnace from the bottom; when the smelting is performed to reach to liquid steel target carbon content range, the top blowing is finished; the bottom blowing intensity is enhanced; and conventional slag removal and deoxidation are performed, and tapping is performed to form billets. By means of the method, the dephosphorization and peroxidation contradictions caused by carbon-phosphorus reaction competition oxidation can be overcome, dephosphorizing load is reduced through slag removal at the low temperatrure, the molten bath peroxidation is restrained through inert gas top and bottom blowing, thereby the end liquid steel phosphorus content is reduced to 0.0050-0.0080wt. %, the dissolved oxygen content is lower than 0.060wt. %, the nitrogen content is lower than 0.0020wt. %, the steel clean degree is substantially improved, non-fluorite slagging is utilized in the smelting process to eliminate pollution of fluoride-containing slag to environment.

Description

technical field [0001] The invention relates to the control of impurities in metal smelting, in particular to an induction furnace dephosphorization method using top-bottom blowing. Background technique [0002] Oxide inclusions and phosphorus content in steel are very harmful to the quality and performance of steel. To overcome these defects, it is first necessary to reduce the oxygen content and phosphorus content in steel to the level required by users through steelmaking methods, and to suppress the molten pool synchronized with dephosphorization. peroxidation, reduce production cost. [0003] However, there is a competitive oxidation of carbon-phosphorus reaction in the steelmaking process, which makes the high-carbon area in the low-oxygen position unsuitable for deep dephosphorization; the target temperature of blowing low-carbon steel is not good for dephosphorization, and there is also molten pool overoxidation in the dephosphorization process , the high oxygen lev...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C21C5/52C21C7/064C21C7/072
Inventor 区铁朱万军杨成威曹同友齐江华
Owner 武汉钢铁有限公司
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