JPH04356306A - Cold rolling method for stainless steel strip - Google Patents

Abstract

PURPOSE:To restrain the chattering that is generated on a stainless steel strip by respectively using the rolls with the mean surface roughness not larger than a specified mum that is shown by the formula for at least one of 1st upper and lower intermediate rolls and upper and lower working rolls which are brought into contact with the 1st upper and lower intermediate rolls of a 20 stages Sendzimir mill. CONSTITUTION:When the stainless steel strip is cold rolled with the 20 stages Sendzimir mill, the rolls with the mean surface roughness of <=0.1mum that is shown by the formula are used for at least one of the 1st upper intermediate rolls and 1st lower intermediate rolls and at least one of the upper and lower working rolls which are brought into contact with the aforementioned 1st upper intermediate rolls and 1st lower intermediate rolls. In the formula, Ra: mean surface roughness, Ra1: surface roughness Ra of 1st intermediate rolls, RaN<2>: surface roughness Ra of working rolls.

Description

[Detailed description of the invention]

0001

[Industrial Application Field] The present invention is a method for cooling stainless steel strips that can suppress so-called chatter, which is a waving phenomenon that occurs in stainless steel strips during cold rolling of stainless steel strips using a 20-high Sendzimir rolling mill. The present invention relates to an inter-rolling method.

0002

[Prior Art] In general, as a waving phenomenon that occurs on the surface of a steel strip during cold rolling, there is a phenomenon called chattering that occurs during tandem rolling of ordinary steel using emulsion rolling oil, as well as a phenomenon called chattering that occurs during tandem rolling of ordinary steel using emulsion rolling oil. A phenomenon called chatter that occurs when a stainless steel strip is cold rolled by a machine is known.

As shown in FIG. 4, this chatter is a minute undulation that appears on the steel strip S in a direction approximately perpendicular to the rolling direction of the stainless steel strip S, and the pitch thereof is 10 to 30 m.
m, and the wave height is approximately 5 μm. Chatter distorts the image reflected on the surface of the stainless steel plate and worsens the sharpness of the image.
It was desired to prevent the occurrence of chatter.

[0004] However, the cause of the chatter phenomenon has not been clarified until now, so no fundamental measures have been taken to prevent the occurrence of chatter during rolling. The measures taken in the past were to treat steel strips with chatter.
The method was limited to correcting the chatter that had occurred. That is, conventional measures have been to subject the rolled stainless steel strip to skin pass rolling under high tension, or to cut the stainless steel strip into sheets and stretch the sheet steel with a stretcher.

[0005] Also, the present applicant has published Japanese Patent Application Laid-Open No. 58-11010.
In Publication No. 4, when cold rolling a stainless steel strip using a Sendzimir rolling mill at a total reduction rate of 40% or more, the process of annealing and pickling the stainless steel strip and then rolling it at a reduction rate of 40% or less is repeated to form a target plate. This paper proposes a method for preventing chatter in cold rolling of stainless steel strip, which is characterized by preventing chatter on the surface of the steel strip by rolling it to a thickness. This is a method in which the stainless steel strip is annealed and softened during rolling to a target thickness, and rolling is repeated with a limited rolling reduction.

[0006]

[Problems to be Solved by the Invention] However, the method of applying skin pass rolling under high tension to the stainless steel strip after rolling, or the method of stretching the stainless steel strip with a stretcher after cutting it into sheets, does not involve rolling the stainless steel strip with a 20-high Sendzimir rolling mill. This method does not fundamentally eliminate or reduce the chatter that occurs in stainless steel strips, but rather corrects the chatter that has occurred. There have been problems in that it increases costs and deteriorates surface quality due to tension.

In particular, in the former method, since the diameter of the work roll in skin pass rolling is large, it is difficult to eliminate minute waviness of about 5 μm due to chatter. Furthermore, the latter method has the notable drawbacks of low yield and productivity, high cost, and poor appearance of the finished surface, reducing commercial value. In addition, the method disclosed in JP-A-58-110104, in which rolling to the product thickness is divided into two or more steps and an annealing and pickling process is sandwiched in between, increases the number of steps, reduces efficiency, increases costs, and extends the manufacturing period. There were other problems.

[0008] An object of the present invention is to provide a method for cold rolling a stainless steel strip that solves the above-mentioned problems.

[0009]

[Means for Solving the Problems] When cold rolling a stainless steel strip in a 20-high Sendzimir rolling mill, the present invention provides at least one of an upper first intermediate roll and a lower first intermediate roll; By using a roll with an average surface roughness of 0.1 μm or less as shown in the formula below as at least one of the upper and lower work rolls in contact with the first intermediate roll and/or the lower first intermediate roll, stainless steel strip This is a method for cold rolling stainless steel strip, which is characterized by suppressing chatter that occurs.

0010

[Math 2]

[0011]

[Operation] The present inventors have elucidated the mechanism of chatter generation through experiments. According to studies by the present inventors, the mechanism of chatter occurrence is as follows. FIG. 1 is a layout diagram of a 20-high Sendzimir rolling mill 1, in which stainless steel strip S
From this side, upper and lower work rolls 2 and 2', upper first intermediate rolls 3a and 3b, and lower first intermediate rolls 3a' and 3b' are arranged, followed by upper second intermediate drive rolls 4a and 4b, and lower second intermediate rolls. 2
Intermediate drive rolls 4a', 4b' and upper and lower second intermediate idle rolls 5, 5' are arranged, and on the outside thereof upper backup bearings 6a, 6b, 6c, 6d and lower backup bearings 6a', 6b', 6c', 6d. ' is placed.

[0012] The stainless steel strip S has upper and lower work rolls 2, 2
The sheet is rolled to a predetermined thickness by ', but at this time, if there is a difference in circumferential speed between the upper and lower work rolls 2 and 2', the material flow on the upper and lower surfaces of the rolled material will be different and the sheet will warp. Here, if there is a diameter difference due to wear etc. between the upper second intermediate drive rolls 4a, 4b, which are the drive rolls, and the lower second intermediate drive rolls 4a', 4b', or if there is mechanical play in the drive system, the upper Second intermediate drive rolls 4a, 4b and lower second intermediate drive rolls 4a', 4b
A slight fluctuation in the circumferential speed difference occurs between '. This variation in circumferential speed difference is transmitted between the upper and lower work rolls 2, 2' via the upper first intermediate rolls 3a, 3b and the lower first intermediate rolls 3a', 3b', and as a result, the upper and lower work rolls 2, 2' A slight fluctuation in the circumferential speed difference occurs during this time. Due to this slight variation in the circumferential speed difference between the upper and lower work rolls 2 and 2', there is a slight variation in the amount of warp on the plate.
In other words, minute waviness occurs, and this is chatter.

The above is the mechanism of chatter occurrence discovered by the present inventors, and the present invention was completed based on this knowledge. According to the mechanism of chatter occurrence that has been elucidated by the present inventors, in order to prevent the occurrence of chatter, it is necessary to Although it would be possible to keep the circumferential speed the same among the four rolls at all times, this measure is difficult in practice because there are differences in the degree of progress of roll wear and there is mechanical play in the drive system.

In the present invention, when cold rolling a stainless steel strip in a 20-high Sendzimir rolling mill, at least one of the upper first intermediate roll and the lower first intermediate roll and the upper first intermediate roll and/or Alternatively, as at least one of the upper and lower work rolls in contact with the lower first intermediate roll, a roll having an average surface roughness of 0.1 μm or less as shown in the formula below is used.

[0015]

[Math 3]

[0016] As a result, a slight slip is generated between the upper first intermediate roll and the upper work roll and/or between the lower first intermediate roll and the lower work roll, and the upper second intermediate drive roll 4a, which is the drive roll, , 4b and the lower second intermediate drive roll 4
The upper second intermediate drive rolls 4a and 4b and the lower second
It is possible to reduce transmission of minute fluctuations in circumferential speed difference between the intermediate drive rolls 4a' and 4b' between the upper and lower work rolls, and to reduce chatter.

[0017]

[Embodiment] An embodiment of the present invention will be explained based on the drawings. FIG. 2 is an explanatory diagram of rolling equipment using the 20-high Sendzimir rolling mill 1. As shown in FIG. The stainless steel strip S is rewound by a payoff reel 7 and passed to the upper and lower work rolls 2 of a 20-high Sendzimir rolling mill 1.
, 2', and then wound up on a tension reel 8. 9 is a deflector roll.

A stainless steel strip was rolled by changing the average surface roughness of the above formula for the upper and lower first intermediate rolls 3a, 3a' and the upper and lower work rolls 2, 2', and the degree of chatter that occurred in the stainless steel strip was evaluated. It was measured. The results are shown in FIG. The rolling process was performed by rolling a stainless steel strip made of SUS 304 and having a thickness of 4 mm to a thickness of 0.7 mm by rolling 8 passes.

Also, at this time, the upper and lower first intermediate drive rolls 3
The surface roughness Ra of b and 3b' are both 0.5 μm. In FIG. 3, A to E are visual appearance judgment results, with A being good and B, C, D, and E becoming worse. From FIG. 3, it can be seen that when the average surface roughness of the roll is 0.1 μm or less, chatter disappears or becomes extremely slight, resulting in a good appearance.

Although the above embodiment shows an example in which the average surface roughness of the upper and lower first intermediate rolls 3a, 3a' and the work rolls 2, 2' is reduced, the present invention is not limited to this. At least one of the upper first intermediate roll and the lower first intermediate roll, and at least one of the upper and lower work rolls in contact with the upper first intermediate roll and/or the lower first intermediate roll, as shown in the above formula. Average surface roughness is 0.1μ
A similar effect can be obtained by using rolls of m or less.

[0021]

[Effects of the Invention] As explained above, the present invention provides two
Chatter that occurs in a stainless steel strip during cold rolling by a zero-stage Sendzimir rolling mill can be suppressed during rolling. This has resulted in problems such as increased costs and extended manufacturing periods due to an increase in the number of steps in conventional technology.
Problems such as deterioration in the appearance of the finished surface can be solved.

[Brief explanation of drawings]

FIG. 1 is a roll layout diagram of a 20-high Sendzimir rolling mill.

FIG. 2 is an explanatory diagram of a 20-high Sendzimir rolling equipment according to an embodiment of the present invention.

FIG. 3 is a graph showing the relationship between average surface roughness and degree of chatter.

FIG. 4 is a cross-sectional view schematically showing the chatter phenomenon.

[Explanation of symbols]

1 20-high Sendzimir rolling mill 2
Upper work roll 2' Lower work roll 3a Upper first intermediate roll 3b Upper first intermediate roll 3a' Lower first intermediate roll 3b' Lower first intermediate roll 4a Upper second intermediate drive roll 4b Upper second intermediate drive roll 4a' Lower second intermediate drive roll 4b' Lower second intermediate drive roll 5 Upper second intermediate idle roll 5'
Lower second intermediate idle roll 6a Upper backup bearing 6b Upper backup bearing 6c
Upper backup bearing 6d Upper backup bearing 6a' Lower backup bearing 6b' Lower backup bearing 6c' Lower backup bearing 6d' Lower backup bearing 7 Payoff reel 8 Tension reel 9 Deflect roll S Stainless steel band

Claims (1)

[Claims] 1. When cold rolling a stainless steel strip in a 20-high Sendzimir rolling mill, at least one of the upper first intermediate roll and the lower first intermediate roll, and the upper first intermediate roll and/or the lower By using a roll with an average surface roughness of 0.1 μm or less as shown in the formula below as at least one of the upper and lower work rolls in contact with the first intermediate roll, it is possible to suppress chatter that occurs in the stainless steel strip. Characteristic cold rolling method for stainless steel strips. [Math 1]