KR101149294B1 - Method and device for reducing centerline segregation of continuously cast slab segments - Google Patents

Abstract

The present invention relates to a method and apparatus for preventing segregation of a continuous casting facility to impart ultrasonic vibration to a slag solidified during continuous casting to suppress dendrites.

The structure consists of a mold consisting of a mold for cooling the molten steel received from the tundish through the deposition nozzle in the continuous casting equipment to solidify the surface portion, and a plurality of rollers disposed under the mold to be brought into contact with the slab exiting through the mold. And a cooling water injection unit for injecting cooling water to solidify the slab between the rollers of the strand, and ultrasonic equipment disposed on the strand and transmitting ultrasonic vibration to the slab side with the cooling water as a medium.

According to the present invention, by placing ultrasonic equipment in some sections of the strands and transmitting ultrasonic vibrations to flow inside the slab, it is possible to reduce segregation by suppressing dendrite generation, thereby facilitating tissue control, as well as steel grade and cooling patterns. According to this can be selectively controlled the driving of the ultrasonic equipment has a useful effect of preventing non-uniform coagulation.

Description

Segregation preventing method and apparatus thereof for continuous casting facility {Method and device for reducing centerline segregation of continuously cast slab segments}

The present invention relates to a method and a device for preventing segregation of a continuous casting plant, and in particular, by placing a plurality of ultrasonic equipment between the lower part of the mold and the solidification completion point to impart ultrasonic vibrations according to the cooling pattern, to suppress segregation during solidification. A method for preventing segregation of a continuous casting plant and a device therefor.

In general, continuous casting equipment is for manufacturing molten steel into semi-finished products such as slabs, and is composed of a tundish, a mold, and a plurality of rolls of the machine, and after the molten steel passes through the mold to form a solidified layer, It has a manufacturing process for cooling the surface of the cast piece by spraying the cooling water as it passes between the rolls of players arranged on both sides of the dog.

If the casting is produced by the conventional continuous casting method, the surface temperature management of the casting is very important.

The cast steel produced through the existing continuous casting equipment is unevenly solidified at the surface and the inner center part due to the surface and the internal temperature deviation during cooling through the strands, which causes the central segregation. .

On the other hand, in order to overcome the quality problem that defects are likely to occur on the surface and the center of cast iron by small-speed high-speed casting during continuous casting, electro-stirring (EMS) is usually installed and operated in the mold. By investigating the interrelationship between the operating conditions of the equipment and the cast quality, we derive the optimum operating conditions for the best cast quality and produce casts such as billets.

That is, when a magnetic field generated by flowing an electric current through an induction coil of the electromagnetic stirrer is formed in the unsolidified molten steel in the mold, the eddy current and the magnetic field interact with each other to generate a force to force the unsolidified molten steel to flow. When this forced flow of uncoagulated molten steel crosses the coagulation interface, it destroys the dendrite arm that has grown on the interface, and the broken pieces of dendrites (also called "resin tops") act as coagulation nuclei. By re-dissolving, it accelerates and promotes the creation of equiaxed crystals by lowering overheating and temperature gradients, thereby widening the equiaxed limbs of the cast steel.

In other words, high-quality billet slabs can be produced by increasing equiaxed crystals by breaking of forced flow dendritic stems of unsolidified molten steel, dendrite fragment coagulation nuclei, or remelting.

However, in the case of using the conventional electronic stirrer, the dendrite stem may have a directionality according to the direction of generation of the magnetic field, and thus there is a disadvantage in that tissue control is difficult.

In addition, as the continuous cooling and strong cooling pattern of each strand is applied during continuous casting, there is a problem that the control is difficult to coagulate unevenly for each part.

The present invention has been proposed to solve the above problems in view of the above, the object is to suppress the dendrite formation by disposing the equipment for applying ultrasonic vibration between the solidification start section and the solidification start section during continuous casting The present invention provides a method and apparatus for preventing segregation of a continuous casting facility to reduce central segregation.

The present invention for achieving the above object is the step of solidifying the cast by spraying the cooling water in the cooling water injection unit disposed on the strand of the continuous casting equipment,

In the step of solidifying the slab characterized in that it comprises the step of applying ultrasonic vibration to the slab using a plurality of ultrasonic equipment disposed in some of the sections of the strand.

Analyzing the measurement information of the center segregation of the manufactured cast steel and the data signal according to the input information of the cast steel after the ultrasonic vibration is applied, and feeding back to the controller a set value;

The method further comprises the step of selectively controlling the operation of the ultrasonic equipment based on the comparison with the input signal of the other slab entering the strand and the setting value of the controller.

Another characteristic element of the present invention, the segregation preventing device for the continuous casting equipment is a cast steel solidified from the mold consisting of a plurality of rollers are disposed and rotated under the mold to solidify the molten steel received from the tundish of the continuous casting equipment Strands to convey,

Cooling water injection unit for cooling the cast steel by spraying the cooling water to the surface of the cast between the rollers of the strand,

Is disposed in a portion of the strand is characterized in that it comprises an ultrasonic equipment for transmitting the ultrasonic vibration to the slab side with the cooling water as a medium.

The present invention is to impart the ultrasonic vibration to the slab solidified during the continuous casting to suppress the dendrites, according to the present invention is to place the ultrasonic equipment in a portion of the strand and to transmit the ultrasonic vibration to flow the inside of the cast In this way, segregation can be reduced by suppressing dendrite generation, thereby facilitating tissue control and selectively controlling driving of ultrasonic equipment according to steel grade and cooling pattern, thereby having a useful effect of preventing non-uniform coagulation. .

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

When the segregation preventing device of the continuous casting plant according to the present invention will be described with reference to Figs. 1 and 2, the configuration is to cool the molten steel received through the deposition nozzle 15 from the tundish of the continuous casting plant to the surface portion The mold 20 to solidify, the strand 30 is composed of a plurality of rollers to be transported in contact with the slab 10 which is disposed under the mold 20 and exits through the mold 20, and the roller of the strand 30 Cooling water injection unit 50, which is disposed between the 32 to inject the cooling water to solidify the slab 10, and the ultrasonic wave is applied to the slab 10 side by the ultrasonic vibration is applied to the current applied from the outside to the strand Consists of ultrasonic equipment 100 to deliver.

In more detail, the ultrasonic equipment 100 has a structure in which a plurality of strands 30 are disposed in a plurality of sections of the section in which the strands 30 are disposed and arranged on both sides of the cast piece 10, respectively.

That is, the ultrasonic equipment 100 is disposed in the section of the strand corresponding to the solidification completion point from the solidification start point of the cast steel 10.

This is a point where solidification of the cast steel 10 discharged through the mold 20 starts to quench the surface portion, and the dendrites D are generated in a direction parallel to the thickness direction of the cast steel 10 inside the surface. Because.

The ultrasonic equipment 100 will be divided into first, second, and third ultrasonic equipment 110, 120, and 130 in an order close to the mold 20 side.

The controller 200 may further include an operation of comparing the input signal inputted according to the steel grade and the cooling pattern with a preset data signal, and selectively controlling the operations of the first, second, and third ultrasonic equipment 110, 120, and 130 based on this. do.

That is, the center segregation of the slab 10 manufactured based on the input information (steel grades according to the alloying elements, cooling patterns according to the cooling water injection, etc.) is measured, and the patterns formed with the segregation are analyzed and fed back as optimized data signals. A control unit 200 for setting the set value, and controlling the operation of the first, second, and third ultrasonic equipment 110, 120, 130 by comparing the set value with the input information of the cast steel 10 newly entering the trend 30. Is further provided.

The operation of the present invention having such a configuration will now be described.

In the method using the segregation preventing device of the continuous casting facility according to the present invention, as shown in Figure 3, when the molten steel in the tundish is received into the mold 20 through the immersion nozzle, it is in contact with the inner peripheral surface of the mold 20 The surface of the molten steel is quenched to form a quench portion.

Subsequently, when the slab 10 is solidified from the mold 20 while passing through the strand 30 and an external current is applied to the ultrasonic equipment 100 disposed in the section where the slab 10 is solidifying, the ultrasonic vibration is a cooling water. Ultrasonic vibration is transmitted to the slab 10 through the coolant sprayed from the injection unit 50 to the surface side of the slab 10.

The ultrasonic equipment 100 performs the function of flowing the molten steel that is not solidified by applying ultrasonic vibration directly to the internal molten steel of the cast steel 10 using the cooling water as a medium.

At this time, the ultrasonic equipment 100 prevents the formation of the center segregation by suppressing the generation of the dendrite (D) formed in the cast steel 10 while the molten steel is solidified.

Then, the controller 200 controls the operation of the first, second, third ultrasonic equipment (110, 120, 130) so as to be suitable compared to the set value according to the cold or weak cooling pattern of the steel grade and the coolant injection unit 50 of the cast steel to the strand side. do.

For example, when the cast steel of the same steel grade is cooled in a cold cooling pattern, since the solidification time is fast, by operating the first ultrasonic equipment 110 close to the mold, or by operating the first and second second sound equipment (110, 120) Suppresses the production of dendrites (D).

In contrast, when the cast steel of the same steel grade is cooled in a weak cooling pattern, the solidification time is relatively slow, it is more efficient to operate the third ultrasonic equipment 130, or to operate the second, third ultrasonic equipment (120, 130). .

In addition, since the properties of the cast steel varies depending on the alloying elements, various steel grades will not be given here. However, based on the solidification time of the cast steel to control the operation of some or all of the plurality of ultrasonic equipment to suppress the dendrites.

The correlation between the dendrite (D) and the central segregation is because the segregation elements are segregated between the dendrites (D) and the dendrites (D) to form the segregation zone (S), as shown in FIG. It can be seen that the inhibition of production can mitigate the increase in central segregation.

5 and 6 is a view showing a comparison of the state before and after applying the ultrasonic vibration to the dendrites (D) generated during the solidification process of the cast steel.

This indicates that as the ultrasonic vibration is transmitted, the dendrites stem is broken to have fine dendrite crystals.

Therefore, the segregation prevention device and method using the ultrasonic apparatus of the present invention can reduce the center segregation by destroying the dendrite stem without giving the directionality compared to the conventional electronic stirrer, as well as a simple structure without interference with the existing equipment It has the advantage of being made.

1 is a configuration diagram schematically showing the configuration of the segregation preventing device of the continuous casting facility according to the present invention.

Figure 2 is a schematic diagram showing the installation state of the present invention ultrasonic equipment arrangements

Figure 3 is a flow chart sequentially showing a segregation prevention method of the continuous casting plant according to the present invention.

4 shows the correlation between dendrites and segregation

5 is a view showing the slab structure showing a state in which ultrasonic vibration is applied to the slab before the ultrasonic vibration of the present invention,

6 is a view schematically showing a state in which the dendrites stem is broken by applying ultrasonic vibration to the cast steel.

Explanation of symbols on the main parts of the drawings

10: cast 20: mold

30: strand 50: cooling water injection unit

100: Ultrasonic Equipment

110,120,130: 1,2,3 ultrasonic equipment

200: control unit D: dendrites

Claims (5)

Solidifying the slab by spraying the coolant from the coolant spray unit 50 disposed on the strand 30 in the continuous casting facility; In the step of solidifying the slab comprises the step of applying ultrasonic vibration to the slab using a plurality of ultrasonic equipment 100 disposed in a section of the section where the strand 30 is disposed, Analyzing the data signal according to the measurement information measuring the center segregation of the cast steel 10 manufactured after the ultrasonic vibration is applied and the input information of the cast steel, and feeding back to the controller 200 a set value; Comprising the step of selectively controlling the operation of the ultrasonic equipment 100 on the basis of this compared with the input signal of the other slab entering the strand 30 and the set value of the control unit 200 Segregation prevention method of continuous casting equipment. delete A strand 30 composed of a plurality of rollers disposed and rotated under the mold 20 for solidifying molten steel received from the tundish in a continuous casting facility, and for conveying the solidified slab from the mold 20; A coolant spray unit 50 disposed between the rollers of the strands 30 to cool the cast steel by spraying the coolant onto the surface of the cast steel; Is disposed in a portion of the section in which the strand 30 is disposed is provided with an ultrasonic equipment 100 for transmitting the ultrasonic vibration to the slab side with the cooling water as a medium, Continuous casting characterized in that it further comprises a control unit 200 for selectively controlling the operation of the ultrasonic equipment 100 based on this by comparing the input signal input according to the steel grade and cooling pattern with a predetermined set value Prevent segregation of equipment. The method of claim 3, The ultrasonic equipment 100 is a segregation preventing device of the continuous casting facility, characterized in that disposed in the section corresponding to the solidification start point and the solidification completion point of the slab 10 of the strand 30. delete

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