JP2002178005A - Method for manufacturing hot-rolled steel strip - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for manufacturing a hot-rolled steel strip having homogenous material at high yield by keeping constant the temperature of the hot- rolled steel strip on the inlet side of a finishing mill, finish rolling conditions and cooling rate on a run out table constant over the length direction of the hot-rolled steel strip. SOLUTION: In the rolling method of the hot-rolled steel strip by which, after a slab heated to a specified temperature is rough rolled with a roughing mill and, next, the finish rolling of the rough bar 2 is performed with a continuous hot finishing mill 5, the hot-rolled steel strip having a prescribed thickness is manufactured by cooling it on a cooling stand 8, the rough bar 2 which is rough rolled is heated so as to be uniform temperature in the length direction with an induction heating device 3 provided on the inlet side of the finishing mill 5 and the finish rolling is performed by passing the rough bar 2 which is heated uniformly like this through the finishing mill 5 at a constant speed. Next, the hot-rolled steel strip is passed through the cooling stand 8 at a constant speed and the average cooling rate during the hot-rolled steel strip is advanced from the position of a thermometer 6 on the outlet side of the finishing mill to the position of a thermometer 9 for coiling is maintained at the uniform cooling rate.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a high-quality hot rolled steel strip having a uniform temperature distribution in the longitudinal direction of a hot-rolled steel strip rolled in a continuous hot rolling mill and having little variation in the material in the longitudinal direction. The present invention relates to a method for rolling a hot-rolled steel strip for producing a high-yield steel strip.

[0002]

2. Description of the Related Art Generally, in a hot-rolled steel strip, a slab is heated to a predetermined temperature in a heating furnace, and the heated slab is rolled to a predetermined thickness by a rough rolling mill to form a coarse bar. By finishing rolling in a continuous finishing rolling mill consisting of a plurality of stands to form a hot-rolled steel strip having a predetermined thickness, the hot-rolled steel strip is cooled in a cooling stand on a run-out table, and then wound up by a coiler. Manufactured.

In the process of producing such a hot-rolled steel strip,
An uneven temperature distribution occurs in the length direction of the hot-rolled steel strip. That is, the temperature of the coarse bar rolled by the rough rolling mill on the entrance side of the finish rolling mill is not uniform in the length direction of the rough bar, but becomes lower toward the rear. The reason is that the time required for the coarse bar rolled by the rough rolling mill to leave the rough rolling mill and to enter the finishing rolling mill is longer toward the rear of the rough bar.

As means for compensating for the temperature difference in the length direction of the rough bar entering the finishing mill, conventionally, the rolling speed of the rough bar rolled by the finishing mill is not fixed, and the roughing bar is roughened. After the tip of the bar enters, a method called "zooming" is used to increase the rolling speed.

[0005] By performing the finish rolling of the rough bar by the finishing mill by the above-mentioned "zooming", the time required for the finish rolling of the rough bar is shorter at the rear portion than at the front portion of the rough bar. As a result, the temperature drop due to heat release and radiation of the rough bar that is finish-rolled by the finish rolling machine due to contact with the rolling roll becomes smaller toward the rear of the rough bar, and the processing heat generated by the reduction of the rolling roll is reduced. Larger at the rear of the coarse bar. Therefore, the temperature distribution of the hot-rolled steel strip that has been finish-rolled by the finish rolling mill on the exit side of the rolling mill is lower at the leading end of the steel strip and becomes higher toward the trailing end.

[0006] The hot-rolled steel strip that has been finish-rolled by the finish-rolling mill is cooled by a cooling stand on a run-out table and then wound by a coiler. The cooling rate of the steel strip is controlled to be constant by turning on and off the cooling water and adjusting the flow rate of the cooling water.

[0007]

However, it is not possible to make the rolling finish temperature of the hot-rolled steel strip uniform in the length direction of the steel strip only by the above-mentioned temperature compensation by "zooming".
In addition, since the moving speed of the steel strip changes due to “zooming”, just adjusting the flow rate of cooling water at the cooling stand,
It is difficult to keep the cooling rate constant.

Further, in order to raise the finishing temperature of the rolling by "zooming", a large power is required for the driving motor of the finishing mill, and the rolling load is also increased, which may cause fluctuation of the sheet crown and roughening of the roll surface. Occurs.

[0009] The rolling conditions and the cooling rate on the run-out table affect the material of the hot-rolled steel strip. In particular, in the case of carbon steel, the type and particle size of the transformation products change depending on the cooling rate near the ferrite transformation start temperature (Ar ₃ temperature), which greatly affects the quality of the final product.

In the above-mentioned conventional manufacturing method, the rolling finish temperature has an uneven temperature distribution in the longitudinal direction of the hot-rolled steel strip, and the hot-rolled steel strip on the run-out table is formed by "zooming". Because the moving speed changes,
It is extremely difficult to obtain a constant cooling rate over the entire length of the hot-rolled steel strip only by controlling the flow rate of the cooling water.Therefore, there is a problem that the material of the hot-rolled steel strip varies and the product yield decreases. Occurs.

[0011] Accordingly, an object of the present invention is to solve the above-mentioned problems and to reduce the temperature of the hot-rolled steel strip on the side of the finishing mill, the finish rolling conditions, and the cooling rate on the run-out table by changing the length of the hot-rolled steel strip. It is an object of the present invention to provide a method capable of producing a hot-rolled steel strip of a uniform material at a high yield while keeping the same constant in the direction.

[0012]

From the above-mentioned viewpoints, the present inventors set the finishing-side mill entrance temperature, the finish-rolling conditions, and the cooling rate on the run-out table for the entire length direction of the hot-rolled steel strip. We worked diligently to develop a method to keep it constant. As a result, the coarse bar is heated on the entrance side of the finishing mill so that the temperature of the rough bar rolled by the finishing mill becomes uniform in its length direction, and the rolling speed and run-out of the rough bar in the finishing mill. It has been found that if the cooling rate on the table is kept constant, a hot-rolled steel strip having a uniform material can be produced with a high yield.

The present invention has been made based on the above findings, and has the following features.

According to a first aspect of the present invention, a slab heated to a predetermined temperature is roughly rolled by a rough rolling mill, and then the roughly rolled rough bar is finish-rolled by a continuous hot finishing rolling mill, and then cooled. A hot-rolled steel strip having a predetermined thickness is produced by cooling according to the method for rolling a hot-rolled steel strip, wherein the rough-rolled rough bar is heated by an induction heating device provided on the entry side of the finishing mill. Heated to a uniform temperature in the longitudinal direction, the coarse bar thus uniformly heated is passed through the finishing mill at a constant speed to perform finish rolling, and then at a constant speed, It is characterized in that an average cooling rate is maintained at a uniform cooling rate during the progress of the hot-rolled steel strip from the position of the finish thermometer to the position of the winding thermometer through a cooling stand.

According to a second aspect of the present invention, a slab heated to a predetermined temperature is roughly rolled by a rough rolling mill, and then the roughly rolled rough bar is finish-rolled by a continuous hot finishing mill, and then cooled by a cooling stand. A hot-rolled steel strip having a predetermined thickness is produced by cooling according to the method for rolling a hot-rolled steel strip, wherein the rough-rolled rough bar is heated by an induction heating device provided on the entry side of the finishing mill. Heated to a uniform temperature in the longitudinal direction, the coarse bar thus uniformly heated is passed through the finishing mill at a constant speed to perform finish rolling, and then at a constant speed, Cooling is performed with a constant water amount without passing through the cooling stand and controlling the cooling water amount in the cooling stand, and the temperature of the hot-rolled steel strip is measured by a finish-rolling mill outlet thermometer and a winding thermometer. And then Those having features to verify that cooled in Do cooling rate.

According to a third aspect of the present invention, a slab heated to a predetermined temperature is roughly rolled by a rough rolling mill, and then the roughly rolled rough bar is finish-rolled by a continuous hot finishing rolling mill, and then cooled by a cooling stand. A hot-rolled steel strip having a predetermined thickness is produced by cooling according to the method for rolling a hot-rolled steel strip, wherein the rough-rolled rough bar is heated by a heating device provided on the entry side of the finishing mill. Heat uniformly so that the temperature variation in the longitudinal direction becomes a temperature within about 10 ° C., and pass the coarse bar heated to such a uniform temperature through the finishing mill and the cooling stand at a constant speed. , Finish rolling and cooling.

[0017]

FIG. 1 is a schematic explanatory view of a continuous hot rolling line showing a method of the present invention. As shown in FIG. 1, a rough rolling mill 1, a continuous hot finishing rolling mill 5 including a plurality of stands, a cooling stand 8, and a coiler 10 are arranged in this order. 7 is a run-out table. A heating device 3 for heating the rough bar 2 roughly rolled by the rough rolling machine 1 is provided on the entry side of the finishing mill 5. Reference numeral 4 denotes a thermometer on the entrance side of the finishing mill, 6 denotes a thermometer on the exit side of the finishing mill, and 9 denotes a winding thermometer.

The rough bar 2 rolled by the rough rolling mill 1 is heated by a heating device 3 installed on the entrance side of the finishing rolling mill 5 over the entire width thereof as shown in a partial schematic plan view in FIG. Is done. At that time, the temperature of the coarse bar 2 measured by the finishing mill input side thermometer 4 is fed back to the heating device 3, and the temperature of the coarse bar 2 is controlled by the heating device 3 so as to be heated to a uniform temperature in the longitudinal direction of the coarse bar 2. The heating temperature of the coarse bar 2 is controlled. If an induction heating device is used as such a heating device 3, control responsiveness is good, and the temperature of the rough bar 2 on the entry side of the finishing mill 5 can be heated to a constant temperature over its entire length in the longitudinal direction. it can.

As described above, the temperature of the rough bar 2 on the entry side of the finishing mill 5 is kept constant in the length direction, and as a result, the rough bar 2 is finished and rolled by the finishing mill 5 as in the prior art. It is not necessary to perform "zooming" in which the rolling speed of the bar 2 is increased after the leading end of the coarse bar 2 is inserted.

Therefore, the finish rolling of the rough bar 2 can be performed at a constant speed in the length direction thereof, and the time required for the finish rolling becomes uniform in the length direction of the rough bar 2, and Heat removal due to contact with the roll and temperature decrease due to radiation, and processing heat generated due to reduction of the rolling roll are also uniform. Therefore, the rolling finish temperature measured by the finishing thermometer 6 on the exit side thermometer 6 becomes constant, and the austenite structure of the hot-rolled steel strip after finish rolling can be made uniform in its length direction.

Further, since the moving speed of the hot-rolled steel strip continuously cooled by the cooling stand 8 on the run-out table 7 after leaving the finishing mill 5 becomes constant, the amount of cooling water in the cooling stand 8 is controlled. There is no necessity, and cooling is performed with a fixed amount of water, and it is possible to keep the cooling rate and the winding temperature in the longitudinal direction of the hot-rolled steel strip uniform.

[0022]

Next, the method of the present invention will be further described with reference to examples. In a heating furnace, a slab made of carbon steel having dimensions of 226 mm in thickness, 1050 mm in width and 9200 mm in length heated to a temperature of 1260 ° C.
The rough bar is roughly rolled at a rolling reduction of 87%, and the temperature of the rough bar obtained by the rough rolling is measured by the thermometer 4 on the entrance side of the finishing rolling machine in the length direction of the rough bar. In the induction heating device 3 as described above.

Next, the coarse bar heated to a uniform temperature by the induction heating device 3 is passed at a constant speed through a continuous hot finishing rolling mill 5 composed of seven stands, and finish-rolled at a draft of 95% to finish. Rolled hot rolled steel strip cooling stand 8
In the finish rolling mill, from the position of the thermometer 6 on the exit side to the position of the winding thermometer 9, the average cooling rate during the progress of the hot-rolled steel strip is 17 ° C./sec, which is uniform in the length direction of the hot-rolled steel strip. After cooling at a cooling rate, the film was wound up by the coiler 10. Thus, a hot-rolled steel strip having a thickness of 1.6 mm and a width of 1050 mm was prepared.

FIG. 3 shows the temperature distribution in the length direction of the coarse bar measured by the finishing thermometer 4 on the entry side thermometer 4 by black circles. For comparison, according to the conventional method, the rough bar roughly rolled in the rough rolling mill 1 was not heated in the induction heating device 3 and immediately passed through the continuous hot finishing rolling mill 5 when the finishing mill was entered. The temperature distribution in the length direction of the coarse bar measured by the total 4 is indicated by white circles.

As is clear from FIG. 3, the temperature of the coarse bar in the conventional method is about 1080 ° C. at the front end and about 9 ° C. at the rear end.
The temperature distribution of the coarse bar in the case of the method of the present invention was almost uniform at about 1070 to 1080 ° C. from the front end to the rear end, while the temperature difference was 50 ° C. and a large difference occurred. Was.

FIG. 4 shows a sample obtained by taking a sample from 10 places in the length direction of the hot-rolled steel strip that has been finish-rolled and then cooled, excluding the foremost rear end, and performing a tensile test. 5 is a graph showing the maximum value and the minimum value of the tensile strength in comparison with the case of the method of the present invention and the case of the conventional method.

As apparent from FIG. 4, the variation in the tensile strength in the case of the conventional method is as large as about 5 kg / mm ² , whereas the variation in the tensile strength in the method of the present invention is as follows.
A hot rolled steel strip of approximately 25 kg / mm ^2, which is extremely small and uniform in its length, could be produced.

[0028]

As described above, according to the method of the present invention, the temperature of the hot-rolled steel strip on the side of the finishing mill, the finish-rolling conditions, and the cooling rate on the run-out table are controlled by the length of the hot-rolled steel strip. An industrially useful effect can be obtained in which a hot-rolled steel strip of a uniform material can be produced at a high yield while being kept constant in the vertical direction.

[Brief description of the drawings]

FIG. 1 is a schematic explanatory view of a continuous hot rolling line showing a method of the present invention.

FIG. 2 is a schematic plan view of a heating device portion.

FIG. 3 is a graph showing the temperature distribution in the length direction of a coarse bar on the entrance side of a finishing mill in the case of the method of the present invention and in the case of the conventional method.

FIG. 4 is a graph showing the variation in tensile strength of a hot-rolled steel strip in comparison with the case of the method of the present invention and the case of the conventional method.

[Explanation of symbols]

 1: Rough rolling mill 2: Rough bar 3: Heating device 4: Finishing rolling mill inlet thermometer 5: Continuous hot finishing rolling mill 6: Finishing rolling mill outlet thermometer 7: Run-out table 8: Cooling stand 9: Winding Thermometer 10: coiler

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[Procedure amendment]

[Submission date] February 14, 2002 (2002.2.1
4)

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Name of invention

[Correction method] Change

[Correction contents]

[Title of the Invention] Manufacturing method of hot-rolled steel strip

[Procedure amendment 2]

[Document name to be amended] Statement

[Correction target item name] Claims

[Correction method] Change

[Correction contents]

[Claims]

[Procedure amendment 3]

[Document name to be amended] Statement

[Correction target item name] 0001

[Correction method] Change

[Correction contents]

[0001] The present invention provides a hot-rolled steel strip which has a uniform temperature distribution in the longitudinal direction of a hot-rolled steel strip rolled in a continuous hot rolling mill and has excellent quality with little variation in the material in the longitudinal direction. The present invention relates to a method of manufacturing a hot-rolled steel strip for manufacturing at a high yield.

[Procedure amendment 4]

[Document name to be amended] Statement

[Correction target item name] 0014

[Correction method] Change

[Correction contents]

According to the first aspect of the present invention, the slab is roughly rolled by a rough rolling machine to form a rough bar, and then the rough rolled rough bar is finish-rolled by a hot finishing mill to form a hot-rolled steel strip. Then, the hot rolled steel strip is cooled by a cooling stand .
In the manufacturing method, the coarsely-rolled coarse bar, by an induction heating device provided on the entrance side of the hot finishing mill,
It is heated so as to have a uniform temperature in its length direction, and the coarse bar thus uniformly heated is subjected to finish rolling by passing through the hot finishing mill at a constant speed, and then at a constant speed. It is characterized in that it is cooled through the cooling stand.

[Procedure amendment 5]

[Document name to be amended] Statement

[Correction target item name] 0015

[Correction method] Change

[Correction contents]

According to a second aspect of the present invention, there is provided a hot finish rolling mill.
A side thermometer and a winding thermometer were installed, and finish rolling was performed.
After that, it is passed through the cooling stand at a constant speed,
From the position of the roll thermometer to the position of the winding thermometer
The average cooling rate during the progress of the hot-rolled steel strip
It is characterized by being rejected .

[Procedure amendment 6]

[Document name to be amended] Statement

[Correction target item name] 0016

[Correction method] Change

[Correction contents]

According to a third aspect of the present invention, there is provided a finish-rolling mill outlet temperature.
After setting up a degree meter and a winding thermometer and performing finish rolling,
Pass through the cooling stand at a constant speed, and
Without controlling the amount of cooling water in the stand,
After cooling, the finish rolling mill exit side thermometer and the winding
Temperature with a thermometer and cool at a uniform cooling rate.
It is characterized by confirming that Claim
Item 4. The invention according to Item 4, wherein the coarsely-rolled coarse bar is subjected to the induction heating.
The variation in temperature in the longitudinal direction is about 1 depending on the heating device.
Characterized by heating to a uniform temperature within 0 ° C
It has. The invention according to claim 5 is characterized in that:
The variation in tensile strength in the length direction of the steel strip is about 5% or less.
It is characterized by having Claim 6
Has a variation in tensile strength in the longitudinal direction of the hot-rolled steel strip of about
It is characterized by being ² kg / mm ² or less .

[Procedure amendment 7]

[Document name to be amended] Statement

[Correction target item name] 0027

[Correction method] Change

[Correction contents]

As apparent from FIG. 4, the variation in the tensile strength in the case of the conventional method is as large as about 5 kg / mm ² , whereas the variation in the tensile strength in the method of the present invention is as follows.
A very small hot rolled steel strip of about 2 kg / mm ² and a uniform material in the length direction was produced.

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Yoshimichi Hino, Inventor 1-2-1, Marunouchi, Chiyoda-ku, Tokyo, Japan Inside Nihon Kokan Co., Ltd. (72) Shozo Higashi 1-2-1, Marunouchi, Chiyoda-ku, Tokyo, Japan (72) Inventor Sadaka Masuda 1-2-2 Marunouchi, Chiyoda-ku, Tokyo F-term (reference) 4E002 AD04 BC07 BD03 BD07 BD08 CB01

Claims (3)

[Claims] 1. A slab heated to a predetermined temperature is roughly rolled by a rough rolling machine, and then the rough-rolled rough bar is finish-rolled by a continuous hot finishing rolling mill and then cooled by a cooling stand. In the method of rolling a hot-rolled steel strip to produce a hot-rolled steel strip having a thickness, the rough-rolled rough bar is moved in its length direction by an induction heating device provided on the entrance side of the finishing mill. Heated to a uniform temperature, the thus uniformly heated coarse bar is passed through the finishing mill at a constant speed for finish rolling, and then passed through the cooling stand at a constant speed to finish A method for rolling a hot-rolled steel strip, comprising maintaining an average cooling rate at a uniform cooling rate during the progress of the hot-rolled steel strip from a position of a rolling mill outlet thermometer to a position of a winding thermometer. 2. A slab heated to a predetermined temperature is roughly rolled by a rough rolling mill, and then the rough-rolled rough bar is finish-rolled by a continuous hot finishing rolling mill and then cooled by a cooling stand. In the method of rolling a hot-rolled steel strip to produce a hot-rolled steel strip having a thickness, the rough-rolled rough bar is moved in its length direction by an induction heating device provided on the entrance side of the finishing mill. Heated to a uniform temperature, the thus uniformly heated coarse bar is subjected to finish rolling by passing the finishing mill at a constant speed, and then passed through the cooling stand at a constant speed, and Without controlling the amount of cooling water in the cooling stand, cooling is performed with a constant amount of water, and the temperature of the hot-rolled steel strip is measured by a finish-rolling mill output-side thermometer and a winding thermometer to provide uniform cooling. Cool at speed Characterized in that to ensure that the rolling process of hot rolled strip. 3. A slab heated to a predetermined temperature is roughly rolled by a rough rolling mill, and then the rough-rolled rough bar is finish-rolled by a continuous hot finishing rolling mill, and then cooled by a cooling stand. In a method for producing a hot-rolled steel strip having a thickness, a method for rolling a hot-rolled steel strip, wherein the coarsely-rolled coarse bar is heated by a heating device provided on an entrance side of the finishing mill, and a temperature variation in a length direction thereof. Is uniformly heated to a temperature of about 10 ° C. or less, and the coarse bar heated to such a uniform temperature is passed through the finishing mill and the cooling stand at a constant speed to finish rolling and cooling. A method for rolling a hot-rolled steel strip, comprising: