Method of ultra-low-carbon steel dephosphorization outside furnace

An extra-furnace dephosphorization and ultra-low carbon steel technology, which is applied in the field of steelmaking technology, can solve the problems affecting the qualified rate of steel quality and economic benefits, the difficulty of converter smelting control, and the impact on product delivery rate, so as to reduce the accident of steel modification and economic loss, improving thermodynamic and kinetic conditions, and achieving effective control

Inactive Publication Date: 2012-04-04
ANGANG STEEL CO LTD
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  • Claims
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AI Technical Summary

Problems solved by technology

According to the thermodynamic conditions of dephosphorization, the high-temperature tapping of the converter is not good for dephosphorization. On the other hand, most of the finished phosphorus of ultra-low carbon steel is required to be controlled below 0.012%, which brings certain difficulties to the smelting control of the converter.
If the control is not good, the phosphorus content of ultra-low carbon steel will exceed the standard. The direct consequence is to change the steel treatment, which will not only affect the qualified rate of steel quality and economic benefits, but also affect the delivery rate of products.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0014] 260t converter, 260t ladle and 260tLF furnace are used to produce ultra-low carbon steel, and the process flow is executed in sequence of converter, LF furnace and RH furnace. The specific measures and methods are:

[0015] 1. Lower the tapping target temperature of the converter, and control the tapping target temperature at 1680°C.

[0016] 2. During the tapping process of the converter, add 800kg of small grains of lime into the ladle.

[0017] 3. When the molten steel enters the refining process of the LF furnace, 700kg of lime and 150kg of refining slag are added to heat up the slag; the temperature compensation is controlled according to the target temperature of 1630°C.

[0018] 4. After the temperature rise is completed and the slag has been fully melted, the argon gas flow rate is 40Nm 3 / h, carry out argon blowing and stirring, and the stirring time is 5min. Dephosphorization is carried out with high alkalinity, good fluidity and good stirring dynamics.

Embodiment 2

[0020] 260t converter, 260t ladle and 260tLF furnace are used to produce ultra-low carbon steel, and the process flow is executed in sequence of converter, LF furnace and RH furnace. The specific measures and methods are:

[0021] 1. Reduce the tapping target temperature of the converter, and control the tapping target temperature at 1670°C.

[0022] 2. During the tapping process of the converter, add 600kg of small grains of lime into the ladle.

[0023] 3. When the molten steel enters the refining process of the LF furnace, 800kg of lime and 200kg of refining slag are added to heat up the slag; the temperature compensation is controlled according to the target temperature of 1630°C.

[0024] 4. After the temperature rise is completed and the slag has been fully melted, the flow rate of argon gas is 75Nm 3 / h, carry out argon blowing and stirring, and the stirring time is 3min. Dephosphorization is carried out with high alkalinity, good fluidity and good stirring dynamics....

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Abstract

The invention provides a method of ultra-low-carbon steel dephosphorization outside a furnace. According to the invention, a converter tapping target temperature is reduced, and small-particle lime is added to a ladle according to a proportion that 2.3-3.1kg of the small-particle lime is added to every ton of steel; during an LF refining process, appropriate amounts of lime and refining slag are respectively added, increased-temperature slagging is carried out, and temperature compensation is controlled; when the temperature increasing process is finished, and the slag is completely melted, an argon stirring dephosphorization process is carried out. According to the invention, temperature controlling is carried out, appropriate amounts of lime and refining slag are respectively added to the ladle and the LF furnace, and dephosphorization is carried out with the argon stirring measure, such that thermo-dynamical and dynamical conditions of dephosphorization are improved, and the controlling level of phosphorus in ultra-low-carbon steel is improved. With the method, an average dephosphorization rate after tapping is above 35%, steel judgment accidents and economic loss caused by standard-exceeding phosphorus content are reduced, and qualification rate of ultra-low-carbon steel quality is improved.

Description

technical field [0001] The invention belongs to the technical field of steelmaking technology, and in particular relates to a method for dephosphorizing ultra-low carbon steel outside a converter furnace. Background technique [0002] At present, the production process of domestic ultra-low carbon steel is generally carried out in the order of converter and vacuum circulation degassing furnace (referred to as RH furnace), and generally does not pass through the ladle refining furnace (referred to as LF furnace). Since the RH furnace is required to heat up as little as possible or not to heat up during the refining production process, so as not to pollute the molten steel, it is required that the tapping temperature of the converter should be high when producing ultra-low carbon steel. According to the thermodynamic conditions of dephosphorization, high-temperature tapping of converter is not good for dephosphorization. On the other hand, most of the finished product phosphor...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C21C7/064
Inventor 张越温铁光王鹏张志文毛志勇梅雪辉刘磊赵军成葛宏亮李健琪
Owner ANGANG STEEL CO LTD
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