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A method for treating molten steel in a converter

A molten steel and converter technology, applied in the manufacture of converters, etc., can solve the problems of furnace lining erosion, high labor intensity, high waste cost, etc., and achieve the effects of controlling process splashing, avoiding difficult rhythm, and short processing time

Active Publication Date: 2019-02-12
SHANDONG IRON & STEEL CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] One is to mix it with molten iron and then blend it into the converter for smelting. Most steel mills require that the amount of molten steel blended into the furnace should not exceed 1 / 3 of the total charge. This method of operation has the following disadvantages: Serious splashing accidents; ②The heat balance and oxygen balance are difficult to grasp, the operator cannot control the amount of cold material added, the end point temperature and the end point carbon hit rate are almost zero, and the blowing time is difficult to grasp, which can easily cause molten steel to peroxidize; ③Improper operation can easily cause Severe corrosion of furnace lining, ④ When molten iron and molten steel are mixed in the ladle, splashing is easy to occur
This method is time-consuming and labor-intensive, and the waste cost is high

Method used

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  • A method for treating molten steel in a converter
  • A method for treating molten steel in a converter
  • A method for treating molten steel in a converter

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] A method for processing molten steel back into the converter, comprising the following steps:

[0027] 1. Prepare slag-making materials, calculated by the amount of molten steel per ton: active lime, dolomite and sinter;

[0028] The active lime addition 16kg / t;

[0029] The dolomite addition is 6kg / t;

[0030] The addition amount of the sintered ore (with carbon content≤0.20%, sulfur content and phosphorus content≤0.030%) is 5kg / t.

[0031] 2. Prepare a package of 130t molten steel and 10t molten iron.

[0032] 3. Process according to the method for the molten steel treatment of the converter back to the furnace, and the specific steps are as follows:

[0033] a. After deoxidizing the returned molten steel, blend the whole package of 130t returned molten steel into the converter, and then add 10t molten iron.

[0034] b. The blowing gun position adopts the gun position: 1520mm (the gun position refers to the distance between the nozzle of the oxygen gun and the liq...

Embodiment 2

[0040] According to the method for treating molten steel in a converter furnace described in Example 1, the difference is that in step a, 135t of molten steel is blended into the furnace, and 5t of molten iron is blended in; Control at 0.30Mpa. After the gun position is constant at 1550mm, raise the oxygen pressure to 0.83Mpa at a speed of 0.015-0.020Mpa per second and then keep it constant. When the oxygen pressure reaches 0.55Mpa, add lime 15kg / t and dolomite 5kg / t , sintered ore 3kg / t; the measured temperature in step d is 1620°C and the carbon content is 0.070%; blow oxygen 300m in step f 3 Raise the gun.

Embodiment 3

[0042] 1. Prepare slag-making materials, calculated by the amount of molten steel per ton: active lime, dolomite and sinter;

[0043] The active lime addition 18kg / t;

[0044] The dolomite addition 5kg / t;

[0045] The addition amount of the sintered ore (with carbon content≤0.20%, sulfur content and phosphorus content≤0.030%) is 13kg / t.

[0046] 2. Prepare a package of 136 tons of molten steel for returning to the furnace.

[0047] 3. Process according to the method for the molten steel treatment of the converter back to the furnace, and the specific steps are as follows:

[0048] a. After deoxidizing the returned molten steel, blend the whole package of 136t returned molten steel into the converter.

[0049] b. The blowing gun position adopts the gun position: 1650mm (the gun position refers to the distance between the nozzle of the oxygen gun and the liquid surface of the molten pool), and the initial oxygen pressure of the blowing is controlled at 0.35Mpa. The speed of ...

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Abstract

The invention discloses a converter return molten steel processing method. The converter return molten steel processing method comprises the following steps that (1) return molten steel is deoxidized and then smelted through a converter, a whole ladle of molten steel is completely added into the converter to be processed, if the charging amount of the molten steel is not enough, molten iron is added into the steel ladle till reaching the preset amount, and then the molten steel and the molten iron are added into the converter; (2) a blow gun is started at 1500-1650 mm, the initial oxygen pressure while blowing is started is controlled to be 0.30-0.35 Mpa, after the gun position is constant at 1500-1650 mm, the oxygen pressure is increased to 0.80-0.85 Mpa at the speed of 0.015-0.020 Mpa / s, and in the pressure increasing process, after the oxygen pressure is increased to 0.5 Mpa, 15-20 kg / t of lime, 5-8 kg / t of dolomite and 0-13 kg / t of sintered ore are added; (3) after blowing is conducted for 1-2 min, the oxygen gun position is declined to 1300-1400 mm; (4) TSC is measured through a sublance after blowing is conducted for 3-4 min, and the oxygen blowing amount and the adding amount of the sintered ore are dynamically controlled according to TSC measuring data; and (5) after a target component of the molten steel is obtained through blowing, the gun is lifted, and tapping is conducted. The converter return molten steel processing method is short in processing cycle and high in efficiency.

Description

technical field [0001] The invention relates to the technical field of converter steelmaking in the iron and steel metallurgy industry, in particular to a method for processing molten steel returned from a converter. Background technique [0002] In the production process of the steelmaking plant, due to continuous casting machine failure and other reasons, the molten steel cannot be poured, or the chemical composition of the molten steel is found to exceed the standard before pouring, and continuous pouring will cause huge economic losses. Therefore, these molten steels have to be returned to the furnace for re-smelting. Molten steel is also called molten steel. There are two traditional methods for the treatment of molten steel in the furnace: [0003] One is to mix it with molten iron and then blend it into the converter for smelting. Most steel mills require that the amount of molten steel blended into the furnace should not exceed 1 / 3 of the total charge. This method o...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C21C5/30C21C5/36
CPCC21C5/30C21C5/36
Inventor 刘忠建段朋朋高志滨朱天奇王新朋李洋洋
Owner SHANDONG IRON & STEEL CO LTD
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