KR101428311B1 - Descaling Method and Apparatus for Hot Rolled Steel Strip using Induction Heating - Google Patents

Abstract

A method of scaling a hot-rolled steel strip using induction heating to effectively remove the surface scale of hot-rolled steel strips such as high-strength carbon steel and high-carbon steel containing alloying elements such as hot rolled low carbon steel, ultra low carbon steel, manganese, Device is provided.
The scale removing method comprising: a brushing step of removing a surface uneven scale layer of a hot rolled steel strip on which scales are formed; an induction heating step of raising a scale of the hot rolled steel strip through the brushing step to a predetermined temperature range; And a scale removing step of removing a scale by spraying a polishing slurry on the surface of the hot-rolled steel strip which is induction-heated after the polishing brushing.
According to the present invention, it is possible to replace the pickling process of the hot-rolled steel strip based on the conventional hydrochloric acid treatment, and the surface of the hot rolled steel strip It is possible to obtain an improved effect that effectively removes the scale.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a scaling method and apparatus for scaling a hot rolled steel strip,

The present invention relates to a hot rolled steel strip scale using induction heating which can effectively remove the surface scale of hot rolled steel strips such as hot rolled low carbon steel, ultra low carbon steel, high strength carbon steel containing alloying elements such as manganese and silicon, The present invention relates to a method and apparatus for removing hot-rolled steel from a hot rolled steel strip, and more particularly, to a hot- And more particularly, to a method and apparatus for removing scale on a hot-rolled steel strip using induction heating.

Hot rolled steel strips (steel sheets, such as carbon steel, high strength steel, silicon-added steel or stainless steel for electric motors, etc.) hot-rolled at high temperature produce scale layers of about 5 to 15 μm thickness on the surface.

FIG. 1 shows an apparatus for removing scales generated on the surface of a steel sheet as described above. The steel sheet is chemically removed from the surface of the steel sheet by using a strong acid such as hydrochloric acid or sulfuric acid. .

That is, as shown in FIG. 1, a pickling facility for removing a commonly known conventional scale is a scale picking apparatus that generates cracks (cracks) on a scale using a scale breaker 230, The scale was removed by gradually passing the cake 250.

The pickling bath 240 is generally composed of four unit pickling vessels 242, 244, 246 and 248, and in the pickling vessel, a high-temperature strong acid such as hydrochloric acid or sulfuric acid is mainly used to chemically remove the scale of the hot-

1, reference numeral 210 denotes a payoff reel, 220 denotes a welding machine, and 260 denotes a tension reel. The water bath 250 may be divided into a brush and a rinse cleaning step although not shown in detail.

That is, the conventional scale treatment method of FIG. 1 is effective in increasing the length of equipment due to the use of a large number of pickling tanks and water tanks, inhibiting the working environment due to the generation of acid vapors, causing environmental hazard due to waste acid treatment, There have been various problems such as an increase in the number of auxiliary facilities, a scale removal capability depending on the type of steel, poor quality of the steel plate stuck in the acid solution tank and the water tank at the time of line stoppage.

In addition, although schematically shown in FIG. 1, since the length of the actual pickling bath 240 and the water bath 250 are about 100 m in the scale removal method using the conventional pickling process, when the line is stopped, The hot-rolled steel sheet in the water bath was poor in surface quality due to excessive acid treatment.

Therefore, in order to replace the chemical scaling method using such an acid solution, a metal shot ball or a grit, or a slurry prepared by mixing a metal short ball or a grits with water is sprayed on the surface of a steel sheet to form a physical A technique of removing the surface scale of a steel sheet is disclosed in, for example, JP Publication Nos. 2002-532633, JP Patent Publication 2002-275666 and JP Patent Publication 2002-371314.

However, the pretreatment process for increasing the pickling efficiency is used in combination with the pickling process, and it is difficult to completely remove the pickling process. In addition, there is known a method of spraying other high-pressure water or spraying ice particles. However, It is unclear.

In addition, a scale removal method using high-pressure water spray is disclosed in JP-A-2004-74178, and a scale removal method using ice particle spraying is proposed in US 6,328,631. However, it is also unclear whether the scale removal performance and practical use are applicable.

JP-A-2003-064461 and US Pat. No. 6,088,895 propose a facility and a treatment method in which a physical scale removal process and a rolling or plating process are continuously connected to each other. However, JP Publication No. 2003-064461 discloses a tension leveler Shot blasting method is used but it is used as an auxiliary means while keeping the existing pickling.

In US 6,088,895, the scale is removed by two-stage brushing after tensile leveling and short-bracing, and the surface roughness is adjusted to a certain range to finely adjust the average roughness of the surface to 0.3 micron or less by the subsequent cold rolling And the object is limited to a stainless steel cold-rolled steel sheet requiring a beautiful surface roughness.

However, in the case of stainless steel hot-rolled steel sheets, it is difficult to remove the scale by only the method of the patent, and it is practically applied in combination with the pickling process.

On the other hand, the scale layer generated on the surface of the hot-rolled steel, for example, carbon steel will be described in detail with reference to FIG. 4A.

That is, if the air-cooling treatment in the winding process there is the layers are separated by transformation process of the scale layer of a hot-rolled steel strip, when, from approximately 500 ~ 600 ℃ cooling continues scale layer is Fe and magnetite in the layer wustite (FeO) (Fe ₃ O ₄ ) are coexisted. After further cooling, a thin hematite (Fe ₂ O ₃ ) layer of 1 μm or less is formed on the surface layer.

However, such a wustite (FeO) layer has a weak mechanical strength but is excellent in acidity and hardly exists in the scale layer, so it is difficult to mechanically remove the scale layer by treatment and the pickling property is excellent at the time of pickling, Causing problems.

Accordingly, in the art, after the treatment of hematite (Fe ₂ O ₃ ) through the pretreatment of the primary polishing brush, the scale layer of the hot-rolled steel band is changed to the wustite (FeO) layer through the secondary induction heating, And the scale of the hot-rolled steel strip can be efficiently removed by spraying the polishing slurry in a post-process, whereby the scale of the hot-rolled steel strip using the induction heating for eliminating the environment- Removal methods and apparatuses have been demanded.

According to an aspect of the present invention, there is provided a method of manufacturing a hot-rolled steel strip, the method comprising: brining a surface scale layer of a hot-rolled steel sheet having a scale formed thereon; An induction heating step of raising the temperature; And a scale removing step of spraying a polishing slurry on the surface of the hot-rolled steel strip which is induction-heated after the brushing step to remove the scale,
In the brushing step, a method of removing a surface layer hematite (Fe ₂ O ₃ ) of a hot-rolled steel strip through a brush roll is provided.

According to another aspect of the present invention, there is provided a method of manufacturing a hot-rolled steel strip, comprising the steps of: brining a surface scale layer of a hot-rolled steel strip having a scale formed thereon; heating the scale layer of the hot- And a scale removing step of spraying a polishing slurry on the surface of the hot-rolled steel strip which is induction-heated after the brushing step to remove the scale,
In the heating step, a scale layer is induced and heated in an inert gas atmosphere in a temperature range of 650 to 850 ° C to transform the scale layer into a uniform wustite (FeO) layer.

delete

delete

delete

According to another aspect of the present invention, there is provided an apparatus for scaling off a hot-rolled steel strip, comprising: a brush unit provided to remove a surface layer uneven scale layer of a hot-rolled steel strip;

An induction heating unit provided so as to raise the scale layer to 650 to 850 占 폚 so as to transform the scale layer of the hot-rolled steel band into a uniform wustite (FeO) layer; And

An abrasive slurry spraying unit provided so as to spray a high-pressure water mixed therein and a polishing slurry of an abrasive material onto the hot-rolled steel strip;

And a scaling unit for scaling the hot-rolled steel strip.

According to the present invention, it is possible to effectively remove scale of high-strength carbon steel and high-carbon steel containing alloying elements such as hot-rolled low carbon steel, ultra low carbon steel, manganese and silicon, It is possible to replace the pickling process and remove the scale by using physical means without using an acid.

Particularly, in the present invention, the scale layer of the hot-rolled steel strip is changed to a wustite (FeO) layer through the secondary rapid induction heating after the pre-treatment of the primary polishing brush to weaken the mechanical strength of the scale, (Mixed slurry) of water and an abrasive is sprayed at a high pressure to rapidly and efficiently remove the scale of the hot-rolled steel strip.

Therefore, the present invention can eliminate environmentally harmful factors such as generation of acid vapors, acid recovery, waste acid treatment, and complicated processes occurring in the conventional pickling process, thereby enabling environmentally friendly scale removal.

That is, the present invention can basically omit the acid steam generation, acid recovery and waste acid treatment processes, which are problems of the conventional pickling process, and shorten the length of equipment, reduce manufacturing cost, increase scale removal efficiency, Improve surface quality, and reduce product defects due to line stops.

1 is a process diagram showing a conventional continuous pickling process of a hot-
Fig. 2 is an overall configuration diagram showing a surface treatment process using a descaling apparatus for a hot-rolled steel strip according to the present invention
3 is a schematic view showing a polishing slurry spraying unit of the present invention
Figs. 4A and 4B are schematic diagrams showing the scale-removed state of the conventional hot-rolled steel strip and the scale-removed state of the hot-rolled steel strip of the present invention on the basis of the cross-
5 is a graph showing the change in the residual scale on the hot-rolled steel sheet according to the temperature change during induction heating of the hot-rolled steel strip according to the present invention
6A to 6E are graphs showing an image (surface FE-SEM image) showing the residual scale of the hot-rolled strip according to the temperature change upon induction heating of the hot-

DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will now be described (with reference to the accompanying drawings). However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. Further, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art. (The shape and size of elements in the drawings may be exaggerated for clarity.)

3, a scale removing apparatus 1 according to the present invention and a scale removing step S1-S5 based thereon are shown in FIG. 3, and FIG. 4 shows a configuration of a polishing slurry spraying unit 100 of the present invention apparatus Respectively.

However, in the following description of this embodiment, the scale removing step of the hot-rolled steel strip S of the present invention will be described, and then the present invention apparatus will be described based on Fig. 3 and Fig.

In the present embodiment, the brush unit and the induction heating unit of the present invention are denoted by 10 units, the injection unit is denoted by 100 unit, and the units (units) related to the known pickling process are denoted by 200 units .

Therefore, as shown in FIG. 3, the scaling method of the hot-rolled strip S of the present invention basically includes a brushing step S1 for removing a surface uneven scale layer of the hot-rolled strip S having a scale formed thereon, (S2) for raising the scale of the hot-rolled steel strip passing through the hot-rolled steel strip to a predetermined temperature range, and a scale removing step (S3) for removing the scale by spraying the polishing slurry on the surface of the hot- Can be.

At this time, in the brushing step S1, the brush rolls 12 in the range of # 150-800 are used based on the mesh number. Such brush rolls 12 are preferably rotated at a speed of 600 to 1200 rpm, (Fe ₂ O ₃ ) which is a non-uniform scale layer of the surface layer of the steel is removed.

Next, in the induction heating step (S2) of the present invention, the scale is heated in an inert gas, for example, a gas atmosphere such as nitrogen or argon at a predetermined temperature, that is, 650 to 850 DEG C, (FeO) layer.

Next, the surface scale of the hot-rolled steel strip subjected to the first and second brushing and induction heating steps is removed through the above-described polishing slurry spraying of the present invention. For example, the polishing slurry 3, the abrasive 100a of 100c uses a glass or ceramic ball having a specific gravity smaller than that of the metal and having a diameter of 10-400 占 퐉.

3, after removing the scale through the polishing slurry 100c at the time of removing the scale of the hot-rolled steel strip of the present invention, the hot-rolled steel strip is washed through the cleaning bath 250 and the drying bath 255 ) And a drying step (S5), and finally wound by a winder (260).

Therefore, in the case of scaling down the hot-rolled steel strip of the present invention, the scale breaker 230 of the related art described with reference to FIG. 1 and the pickling tank 240, which generates an environmental problem due to the chemical acid treatment, (10) and the induction heating unit (30), it is possible to provide the above-mentioned various advantages.

The apparatus of the present invention for scaling off the hot-rolled strip according to the present invention includes a brush unit 10 basically provided for removing a non-uniform scale layer of a surface layer of a hot-rolled strip, and a brush unit 10 for scaling the hot- An induction heating unit (30) provided so that the scale layer is heated to 650 to 850 DEG C so as to be transformed into a FeO layer; And an abrasive slurry spraying unit 100 provided so as to spray a high-pressure water and an abrasive slurry of an abrasive mixed therein, into the hot-rolled steel strip.

3, the brush unit 10 includes a plurality of brush rolls 12 rotated at a speed of 600 to 1200 rpm in the range of # 150-800 on the basis of the mesh number, as described above, .

The induction heating unit 30 of the present invention is, as shown in Fig. One or more induction coils 34 are arranged on the upper and lower sides of the hot-rolled steel strip in the chamber 32 to realize induction heating when a current is applied and in particular to maintain the atmosphere of the incondensible gas (nitrogen or argon) in the chamber 32 And a non-combustible gas supply unit 36 connected to the chamber.

At this time, as indicated by R in the drawing, transport rolls for transporting hot-rolled steel strips are disposed between the chambers or chambers, and these transport rolls serve as seal rolls for suppressing gas leakage at the inlet and the outlet of the chamber You can expect.

Hereinafter, the method for removing scale of the hot-rolled strip according to the present invention will be described in more detail.

For example, a key feature of the present invention is that the conventional scale breaker 230 of FIG. 1 is removed by a first pretreatment method for hot rolled steel strip S such as low carbon steel, ultra low carbon steel, high strength carbon steel, high carbon steel, thin Hema of thermodynamically stable surface by introducing a step (S1) tight (Fe ₂ O ₃₎ layer to the primary and to remove the the so as to reduce the scale layer transformation time in the subsequent second induction heating step (S2) Of course, the uniformity of the surface layer is ensured and the removal efficiency is improved.

Particularly, in the induction heating step, in the step of rapid heating and cooling through induction heating in an atmosphere of inert gas such as nitrogen or argon, the scale layer has a uniform wustite (FeO) layer having weak mechanical strength and excellent acidity It is transforming.

For example, as shown in FIGS. 4A and 4B, a thin layer of hematite (Fe ₂ O ₃ ) present in the upper layer of the existing scale layer is removed through an abrasive brushing step, (FeO) layer. ≪ tb >< TABLE >

Such a witeite (FeO) scale layer has a very weak mechanical strength as compared with magnetite (Fe ₃ O ₄ ) or hematite (Fe ₂ O ₃ ). For example, in the case of tensile strength, FeO is 0.04 kg / Fe ₃ O ₄ shows a tensile strength value of 4.0 kg / mm ₂ , and Fe ₂ O ₃ shows a tensile strength value of 1.0 kg / mm ₂ .

Therefore, in the case of the present invention, the hematite (Fe ₂ O ₃ ) layer having a high tensile strength is removed in the brushing step, and then is transformed through induction heating with a wustite (FeO) layer having the lowest tensile strength, Spraying the slurry to effectively remove all of the scale layer.

This enables stable removal of the scale layer even if the speed of the hot strip is increased, resulting in increased productivity.

On the other hand, as described above, when the pickling treatment is carried out by building three or four pickling tanks and water tanks as shown in FIG. 1, the length of the pickling tanks and the water tanks is about 100 m, In the case of the present invention, the primary brush unit 10, the induction heating unit 30, and the polishing slurry injection unit 100 ), The quality problem at the time of stopping the line is not generated, and the scale removal efficiency can be stably maintained.

At this time, in the brushing step which is the first pre-processing step of the present invention, the brush rolls 12 in the chamber 14 are primarily rotated in the direction opposite to the advancing direction of the hot-rolled strip or in the forward direction, In case of forward rotation, it is possible to control the surface roughness.

In this case, the roughness of the brush roll 12 is divided into mesh numbers (number of abrasives per inch). In the case of the present invention, the range of # 150-800 is suitable for the brush roll 12 based on the mesh number.

That is, if the mesh number is less than # 150, the scale removing ability is increased because the particle size of the brush is large. However, defects such as scratches and scratches can be caused on the surface of the hot-rolled steel strip. Conversely, .

Then, in the brushing step (S1) of the present invention, relatively high mechanical strength, hematite (Fe ₂ O _3), the so removed, as shown in Figure 3, the phase of the brush roll 12 hot-rolled steel strip, 3-6 on the lower side It is preferable that the brush material of the brush roll 12 contains abrasive particles such as silicon carbide and aluminum oxide in the polymer nylon resin. For example, it is possible to mix the polyurethane and the phenol resin, So that the polishing brushing effect can be increased.

Next, as shown in Fig. 2 and Fig. 4B, it is preferable to heat to a proper temperature in order to transform the scale layer into a wustite (FeO) layer which is easy to mechanically remove (break) through rapid induction heating.

That is, in the second pre-induction heating step S2, heating is performed by induction heating continuously on the upper and lower sides of the hot-rolled steel strip S which is proceeding. At this time, as described above, (FeO) layer by heating at a temperature of 650 DEG C or higher and 850 DEG C or lower which can induce the transformation of the scale layer in an atmosphere of an inert atmosphere such as nitrogen or argon gas so as not to reoxidize the superficial scale layer of the hot- . '

At this time, when the induction heating temperature is 650 ° C or lower, the transformation rate of the scale layer into the wustite (FeO) layer is slow. On the contrary, when the induction heating temperature is 850 ° C or higher, So that the heating temperature in the induction heating step is appropriately from 650 to 850 ° C.

Next, as shown in FIG. 2, in the case of the scale removing step (S3) through the polishing slurry spraying of the present invention, water is sprayed at a high pressure in the inside of the apparatus, Pressure grinding slurry stream to form a high-pressure abrasive slurry stream, which is then sprayed at high pressure onto the surface of the hot-rolled steel strip, thereby removing most of the scale of the surface layer of the hot-rolled steel strip.

At this time, the polishing slurry spraying unit 100 according to the present invention is installed in an appropriate arrangement in the chamber 102 to prevent scattering of the abrasive slurry that has collided with the hot-rolled steel strip and scattered to the periphery, Circulation use is also possible. Preferably, the injection unit 100 is installed in consideration of the line speed of the hot-rolled steel strip S.

4, the abrasive 100b to be mixed with the water 100a of the polishing slurry 100c used in the polishing slurry spraying unit 100 of the present invention may be any one selected from the group consisting of silicon oxide, silicon carbide, aluminum oxide, glass beads and ceramic beads are used, and most preferably glass beads or ceramic beads are used as the abrasive and can be used in the form of a powder or a slurry solution premixed with water.

The size of the abrasive is suitably 10 to 400 탆 in diameter, and when it is less than 10 탆, the scale removal efficiency is small. On the contrary, when the size of the abrasive is 400 탆 or more, .

4, the spraying pressure of the high-pressure water sprayed into the unit is appropriately 100 to 500 bar. At this time, if the spraying pressure of the high-pressure water is 100 bar or less, the scale removal efficiency is insufficient. If the spraying pressure is 500 bar or more, The surface roughness of the substrate increases, and the cost for constructing the power and the equipment for maintaining the surface roughness increases.

Next, the polishing slurry ejecting unit 100 of the present invention shown in FIG. 3 will be described. However, the polishing slurry ejecting unit 100 of the present invention described above is described in detail in the patent application 10-2010-0054438 filed by the applicant of the present invention, and therefore, the present embodiment will be briefly described.

That is, as shown in FIG. 3, the polishing slurry spraying unit 100 of the present invention used for removing scale preferably basically comprises a body unit 110 inclined in the reverse direction of the advancing hot-rolled steel strip S, .

For example, as shown in FIG. 2, water 110a of the tank T is supplied to the upper part of the housing 112 of the body means 110, The line 114 is connected and the high pressure water 110a is injected inside the housing through the lower end nozzle 122 of the high pressure water injection hole 116 assembled inside the housing 112. [

At the same time, an abrasive or abrasive slurry supply line 118 connected to the abrasive supply part 120 of the housing inclined to one side of the housing through a pump P in the tank T is connected to the abrasive supply part 120 of the housing 112 The polishing slurry 110c, which is mixed with the high-pressure water 110b and collides with the surface of the hot-rolled steel strip to remove scale, is injected at a high pressure through the lower nozzle means 124 of the housing.

At this time, a negative pressure is generated in the lower space of the nozzle 122 to which the high-pressure water is injected. Accordingly, the supplied abrasive material 110b or the polishing slurry 110c smoothly flows into the interior of the housing 112, And is injected through the nozzle means 124 in a mixed manner.

4, it is also possible to mix the abrasive material and water in advance to supply the abrasive slurry 110c instead of the abrasive material, to mix the abrasive slurry 110c in the housing with high-pressure water, However, in any case, the polishing slurry 110c collides with the surface of the hot-rolled steel strip.

At this time, since the nozzle means 124 assembled at the lower end of the housing 112 is concave at the center and has the slit 124a, the polishing slurry 110c is uniformly gathered at the concave portion, So that the scale removal effect can be increased to a predetermined width.

In the space where the high pressure water and the charged abrasive or abrasive slurry collide with the lower portion of the high-pressure water nozzle 122 of the housing, the grating means 126 are arranged orthogonally to each other to improve the mixing property of the abrasive and water .

2, the brush unit 10, the induction heating unit 30, and the polishing slurry spraying unit 100 both include the chambers 14, 32, and 102, and the brush roll 12, The induction coil 34 and the injection unit 100 are arranged.

The inert gas supply unit 36 connected to the chamber 32 of the induction heating unit 30 is connected to a tank T for discharging the processed product to the lower portion of the chamber 14 of the brush unit 10, 3) of the polishing slurry injection unit 100 and the pumps P of the abrasive supply line 118 and the induction coil of the induction heating unit (34) and the blower (B) can be operated in conjunction with the control unit (C).

Hereinafter, the present invention will be described in detail with reference to Examples. The following examples illustrate the invention and are not intended to limit the invention.

(Example 1)

The low-carbon hot-rolled steel strip (thickness 2.3 mm x width 1200 mm) was subjected to the scale treatment step of the present invention shown in Fig. 2, and the line speed was 180 mpm. However, The results are shown in Figs.

division Treatment condition Abrasive brush Four pairs of brush rolls (front and rear end rolls: # 240), number of revolutions 1000 rpm Rapid heating Induction heating temperature change, holding for 30 seconds, nitrogen atmosphere Abrasive slurry Abrasive (glass beads, 150-200 탆), high pressure water injection pressure 300 bar Injection condition The angle of the injection unit is 15 degrees, the distance from the steel plate is 230 mm

For example, FIGS. 5 and 6 show the FE-SEM images of the surface residual scale amount of the hot-rolled strip according to the temperature change during induction heating after the brushing of the hot-rolled steel strip, .

6A) and the case where the induction heating temperature is 650 DEG C or less (FIG. 6B) or 650 DEG C or more in the scale removal step of the present invention (FIG. 6A) The scale layer remained on the surface of about 30 to 50% on the basis of the condition of Example 1 above, but when the temperature was 650 ° C or higher, the residual scale of the surface of the hot- 1% or less.

(Example 2)

A high-strength hot-rolled steel strip (thickness 3.0 mm x width 1200 mm) containing 0.1% carbon, 0.8% silicon and 1.2% manganese was subjected to a scaling process according to the present invention shown in Fig. 2 at a line speed of 180 mpm As a result, the residual scale was less than 1% and the average surface roughness was 1.5 microns, compared with the hot rolled steel of the same steel type subjected to the conventional pickling treatment.

division Treatment condition Abrasive brush Four pairs of brush rolls (front and rear end rolls: # 240), the number of revolutions of 1000 rpm Induction heating Induction heating temperature 700 캜, holding for 30 seconds, argon atmosphere Abrasive slurry Abrasive (alumina, 100 microns), high pressure water injection pressure 250 bar Injection condition The angle of the injection unit is 30 degrees, the distance from the steel plate is 150 mm

(Example 3)

The low-carbon hot-rolled steel strip (thickness 2.5 mm x width 1340 mm) was subjected to the scale treatment step according to the present invention in Fig. 2, and the hot-rolled steel strip was continuously passed through at the line speed of 180 mpm under the conditions shown in Table 3 below. Compared with the hot rolled steel strip, the residual scale was less than 1% and the average surface roughness was 1.5 ㎛.

division Treatment condition Abrasive brush Four pairs of brush rolls (front and rear end rolls: # 200), the number of revolutions of 1000 rpm Induction heating Induction heating temperature 750 占 폚, holding for 20 seconds, nitrogen atmosphere Abrasive slurry Abrasive (glass bead, 80 microns), high pressure water injection pressure 300 bar, Injection condition The angle of the injection unit is 23 degrees,

Accordingly, in the case of the present invention described so far, in the step of continuously removing the scales of the hot-rolled steel strip, it is possible to omit the acid steam generation, the acid recovery and the waste acid treatment process, which are problems of the conventional pickling process, The manufacturing cost is reduced, and the scale removal efficiency is provided. Therefore, even if the line speed of the hot-rolled steel strip is increased, normal scale-down is possible, and productivity can be improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be obvious to those of ordinary skill in the art.

10 .... Brush unit 30 .... Induction heating unit
34 .... induction coil 36 .... inert gas supply
100 .... Polishing slurry spraying unit 110c .... Polishing slurry
112 .... housing 124 .... nozzle means

Claims (9)

(S1) for treating a surface scale layer of a hot-formed steel strip having a scale formed thereon; an induction heating step (S2) for heating a scale layer of the hot-rolled steel strip through the brushing step; And a scale removing step (S3) of removing the scale by spraying a polishing slurry on the surface of the hot-rolled steel strip which is induced and heated after the brushing step,
Wherein the surface layer hematite (Fe ₂ O ₃ ) of the hot-rolled steel strip is removed through the brush roll in the brushing step.
(S1) for treating a surface scale layer of a hot-formed steel strip having a scale formed thereon; an induction heating step (S2) for heating a scale layer of the hot-rolled steel strip through the brushing step; And a scale removing step (S3) of removing the scale by spraying a polishing slurry on the surface of the hot-rolled steel strip which is induced and heated after the brushing step,
Wherein the scale layer is transformed into a uniform wustite (FeO) layer by inductively heating the scale layer in an inert gas atmosphere in a temperature range of 650 to 850 DEG C in the heating step.
3. The method of claim 2,
And the surface layer hematite (Fe ₂ O ₃ ) of the hot-rolled steel strip is removed through the brush roll in the brushing step.
The method according to claim 1,
And heating the scale layer in an inert gas atmosphere in a temperature range of 650 to 850 DEG C to transform the scale layer into a uniform wustite (FeO) layer.
5. The method according to any one of claims 1 to 4,
The abrasive contained in the polishing slurry is provided as a glass or ceramic bead having a specific gravity smaller than that of the metal and having a diameter of 10-400 탆,
Further comprising a cleaning step (S4) and a drying step (S5) of the hot-rolled steel strip after removing the scale through the polishing slurry.
An apparatus for scaling off a hot-rolled steel strip according to any one of claims 1 to 4,
A brush unit (10) provided to remove a surface layer non-uniform scale layer of a hot-rolled steel strip;
An induction heating unit (30) provided so as to raise the scale layer to 650 to 850 DEG C so as to transform the scale layer of the hot-rolled steel band into a uniform wustite (FeO) layer; And
An abrasive slurry spraying unit (100) provided for spraying high-pressure water and an abrasive slurry of an abrasive material mixed in the hot-rolled steel strip;
And a scaling unit for scaling the hot-rolled steel strip.
The method according to claim 6,
The brush unit 10 includes a plurality of brush rolls 12 in mesh number # 150-800 so as to remove surface layer hematite (Fe ₂ O ₃ ) in the hot-rolled steel strip. .
The method according to claim 6,
The induction heating unit (30) includes an inactive gas supply part (36) including an induction coil (34) provided in a chamber (32) and associated with the chamber;
Further comprising: a scraping device for scraping the hot-rolled steel strip.
The method according to claim 6,
The polishing slurry spraying unit 100 is a spraying unit for spraying a spray of 100-500 bar inside the housing 112,
The spray water 100a and the abrasive 100b are mixed or the abrasive slurry 100c containing the water and the abrasive is mixed,
Wherein the grinding slurry is sprayed onto the surface of the hot-rolled steel strip.

Images