JP2986670B2 - Apparatus and method for producing Cr-containing corrosion-resistant steel strip - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and an apparatus for producing a Cr-containing corrosion-resistant steel strip containing Cr as an alloy component.

[0002]

2. Description of the Related Art A Cr-containing steel strip after cold rolling has been conventionally used.
Continuous annealing and pickling is performed by a continuous annealing and pickling facility. As shown in FIG. 3, the Cr-containing steel strip 10 after the cold rolling includes the pre-tropical zone 12, the heating zone 14, and the cooling zone 16.
Are sequentially cooled, and then water-cooled in a water-cooling zone 18, subjected to descaling treatment and passivation treatment in an pickling tank 20, and passed through a rinsing tank 22 and a dryer 24 to be manufactured. The pickling liquid in the pickling tank 20 is cooled by the pickling liquid cooling device 26.

[0003] As a heating method at the time of annealing, a method of heating by a direct fire method and a method of heating by an indirect method are known.
In addition, the pickling treatment is performed using a combination of neutral salt electrolysis, nitric acid electrolysis, nitric acid, nitric acid, hydrochloric acid and nitric hydrofluoric acid. The descaling and passivation of the Cr-containing steel strip are performed by this pickling treatment. Done. As a method for annealing a Cr-containing steel strip, as disclosed in Japanese Patent Publication No. 2-9090, a dew point of -3 is used.
Anneal in a reducing atmosphere at 0 ° C. to 0 ° C. to reduce the thickness of the oxide film to 1
A method of controlling to 50 to 500 angstroms is known.

Here, as a method for producing a stainless steel sheet, as disclosed in Japanese Patent Application Laid-Open No. Sho 59-182876, after mechanical grinding before cold rolling, the stainless steel sheet is cut in a pickling solution. Then, a cold rolling method is known.
However, this method is a method for preventing surface flaws, in which a hot-rolled steel sheet is descaled and then cold-rolled, and the present invention is intended to improve the corrosion resistance of a Cr-containing steel strip after cold rolling. Is different from

Further, as a descaling method, Japanese Patent Laid-Open No.
As disclosed in Japanese Patent Application Laid-Open No. 8-27698, there is known a method of performing pickling as a pretreatment, performing descaling by mechanical means, and then performing pickling as a post treatment.
This is a method of descaling a hot-rolled steel sheet, which is different from the present invention aiming at improving the contact resistance of a Cr-containing steel strip after cold rolling.

[0006]

In the conventional continuous annealing and pickling treatment of the Cr-containing steel strip after the cold rolling described above, descaling and passivation are performed by utilizing a chemical reaction with an acid. Therefore, there is a problem that the production capacity of the processing line is determined by the pickling capacity. In addition, since the iron content of the steel sheet is dissolved in the pickling liquid and the pickling ability changes, it is extremely troublesome to control the acid concentration. Further, a cooling device for the acid solution is required to prevent the temperature of the solution from rising due to the chemical reaction of the acid solution. In addition, poor pickling may occur due to out-of-control of the acid concentration or iron concentration. In this case, it is necessary to perform the pickling treatment again, which not only increases the manufacturing cost but also hinders the manufacturing process. There are also problems.

Further, in the method disclosed in Japanese Patent Publication No. 2-9090, the dew point is controlled so as to fall within a range of -30 ° C. to 0 ° C. in order to control the thickness of the oxide film. However, this dew point is much higher than the dew point of the annealing atmosphere at the time of continuous annealing of the ordinary steel sheet, from -60C to -40C. Therefore, when switching from the production of ordinary steel strip to the production of Cr-containing steel strip, it is not only necessary to change the atmosphere in the annealing furnace and adjust the dew point, but also because the sprayed coating coated on the surface of the roll that conveys the steel sheet is annealed. Roll exchange cycle is shortened because it is deteriorated by steam in the furnace. As a result, the production cost is increased, and when the production is switched from the production of the Cr-containing steel strip to the production of the ordinary steel strip, roll flaws (deteriorated) on the surface of the general cold-rolled steel strip, which is required to have beautiful surface properties. Since the thermal spray coating transfers to the surface of the steel strip, a flaw caused by the roll is generated, and thus there is a problem that production regulation is required.

In view of the above circumstances, an object of the present invention is to provide an apparatus and a method for manufacturing a Cr-containing corrosion-resistant steel strip capable of efficiently manufacturing a Cr-containing corrosion-resistant steel strip having better corrosion resistance than before.

[0009]

Means for Solving the Problems To achieve the above object, a method for producing a Cr-containing corrosion-resistant steel strip according to the present invention is a method for producing a Cr-containing corrosion-resistant steel strip, comprising: After annealing by adjusting the dew point within the range of -70 to -30 ° C, the oxide film of the annealed Cr-containing corrosion-resistant steel strip is removed by mechanical grinding, and the mechanical grinding is completed.
The r-containing corrosion-resistant steel strip is subjected to a passivation treatment by pickling.

In order to achieve the above object, the present invention relates to an apparatus for producing a Cr-containing corrosion-resistant steel strip, comprising: an annealing apparatus for annealing a Cr-containing corrosion-resistant steel strip after cold rolling. A mechanical grinding device for removing an oxide film of the annealed Cr-containing corrosion-resistant steel strip by mechanical grinding, and a pickling device for passivating the Cr-containing corrosion-resistant steel strip after the mechanical grinding has been completed. It is characterized by the following.

The method and apparatus for producing a Cr-containing corrosion-resistant steel strip of the present invention is preferably applied to a cold-rolled Cr-containing corrosion-resistant steel strip containing 1 to 19 wt% of Cr, for example, SUS410L. (11.00 to 13.50
wt% Cr), SUS430LX (16.0 to 19.
00wt% Cr), SUS436L (16.0-1)
9.00 wt% Cr), SUH409LX (10.50
１１11.75 wt% Cr). If the Cr content is less than 1 wt%, it is not necessary to perform pickling. 19wt%
Is exceeded, the practical upper limit is set to 19%.

It is preferable that the gas atmosphere of the annealing treatment is H ₂ gas of 10% or less, and the remainder is substantially N ₂ gas. Further, it is preferable to use a grinding brush roll or shot blast for mechanical grinding.

[0013]

According to the method for producing a Cr-containing corrosion-resistant steel strip of the present invention,
Since the annealing treatment is performed by adjusting the dew point within the range of -70 to -30 ° C, there is no need to change the atmosphere in the annealing furnace or adjust the dew point when switching from production of ordinary steel strip to production of Cr-containing steel strip. Moreover, the life of the thermal spray coating coated on the surface of the roll in the annealing furnace becomes longer, so that the roll replacement cycle becomes longer. For this reason, an increase in manufacturing cost can be prevented, and efficient manufacturing can be achieved. Further, after switching from the production of the Cr-containing steel strip to the production of the ordinary steel strip, it is possible to prevent the occurrence of roll flaws on the surface of the general cold-rolled steel strip. In addition, since the oxide film of the Cr-containing corrosion-resistant steel strip subjected to the annealing treatment is removed by mechanical grinding, the descaling ability is improved and the production speed can be improved. Furthermore, in the removal of the oxide film, the oxide film is removed by mechanical grinding (part of the grinding residue is removed simultaneously with the passivation treatment by pickling), so that the oxide film can be easily and stably removed. The processing such as re-pickling can be eliminated, and the operating cost can be reduced. In addition, since the passivation treatment by pickling is performed after removing the oxide film, a Cr-containing corrosion-resistant cold-rolled steel strip having excellent corrosion resistance can be manufactured as compared with the related art. Moreover, since the rise in the temperature of the pickling liquid can be reduced, the cooling device for the pickling liquid can be reduced or omitted. The scale residue after the mechanical grinding is completely removed by the next pickling.

According to the apparatus for producing a Cr-containing corrosion-resistant steel strip of the present invention, the oxide film of the Cr-containing corrosion-resistant steel strip can be removed by mechanical grinding after the annealing treatment. Can be easily and stably removed, and a treatment such as re-pickling can be eliminated, thereby reducing operating costs. In addition, since the passivation treatment by pickling can be performed after removing the oxide film by mechanical grinding, a Cr-containing corrosion-resistant cold-rolled steel strip having superior corrosion resistance can be manufactured.

Here, when applied to a cold-rolled corrosion-resistant steel strip containing 1 to 19 wt% of Cr, the corrosion resistance is further improved. In addition, the gas atmosphere of the annealing
When the H ₂ gas is set to 10% or less and the remainder is substantially N ₂ gas, the Cr-containing corrosion-resistant steel strip can be annealed without changing the annealing atmosphere when producing the ordinary steel strip.

[0016]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a schematic configuration diagram showing a part of the apparatus for manufacturing a Cr-containing corrosion-resistant steel strip, and the same elements as those of the apparatus for manufacturing a Cr-containing corrosion-resistant steel strip shown in FIG. 3 are denoted by the same reference numerals. The cold-rolled Cr-containing steel strip 10 sequentially passes through the pre-tropical zone 12, the heating zone 30, and the cooling zone 32, and then is water-cooled in the water-cooling zone 18, the oxide film is removed by the grinding brush 34, and the pickling tank is removed. A passivation treatment is performed at 36, and it is manufactured by passing through the rinsing bath 22 and the dryer 24. The pickling liquid in the pickling tank 36 is cooled by a pickling liquid cooling device 38. As this pickling solution,
A nitric acid aqueous solution to which a chloride is added is used. The concentration is 20% for nitric acid and 5% for hydrochloric acid.

Using the apparatus for manufacturing a Cr-containing corrosion-resistant steel strip shown in FIG. 1, two kinds of Cr-containing steel strips having different Cr contents are cold-rolled, then continuously annealed with a different dew point, and a grinding brush is used. Mechanical grinding was performed by a roll, passivation treatment by pickling was performed, and a corrosion resistance test was performed. Table 1 shows the results. The corrosion resistance test method is JIS Z 2371-195.
The test was performed according to the method specified in No. 5, and after 4 hours at 35 ° C., the corrosion resistance was evaluated.

[0018]

[Table 1]

As is clear from Table 1, C after annealing treatment
The corrosion resistance is improved by mechanically grinding the r-containing corrosion-resistant steel strip with a grinding brush roll, and if the dew point is −30 ° C. or less, a product acceptable level of 3 or less can be achieved.
Incidentally, it is difficult to industrially obtain an annealing atmosphere having a dew point of less than -70 ° C from the viewpoint of operating costs. Next, Table 2 shows the results of a roll surface deterioration test in which the operation of the continuous annealing furnace was performed while changing the dew point of the atmosphere in the furnace. From Table 2, it can be seen that the lower the dew point, the more the roll deterioration can be prevented, and the roll replacement frequency due to roll wear in normal operation is about 6 months. .

[0020]

[Table 2]

Next, in order to compare the case of the prior art in which mechanical grinding of the steel strip surface oxide film is not performed after annealing with the case of performing brush grinding as a mechanical grinding method, 11.3% by weight of Cr is contained. FIG. 2 shows the results of a corrosion resistance test conducted by producing a Cr-containing corrosion-resistant steel strip with different production rates. The production conditions, dew point -30 ° C., the annealing atmosphere gas composition H ₂ remaining in the gas 3% and substantially N ₂ gas, the soaking temperature 880 ° C., subjected to annealing at a soaking time of 25 seconds, mechanical grinding there Under the conditions described above, the steel strip was ground twice on one side at a brush roll current of 80 A. Tactile test method is JIS
Performed by the method specified in Z 2371-1955,
After 4 hours, the corrosion resistance was evaluated.

As is clear from FIG. 2, the conventional method can only obtain a passing product at a production speed of 75 mpm or less, and cannot avoid the generation of a rejected product. Not only was improved, but also the variation in the corrosion resistance test results was reduced, and the generation of defective pickling materials was also prevented. Next, the Cr-containing corrosion-resistant steel strip manufacturing apparatus shown in FIG.
Of a cold-rolled steel strip having a thickness of 0.98 mm and containing 11.7% by weight, a production speed of 150 mpm, an annealing temperature of 880 ° C., a soaking time of 25 seconds, and an atmosphere gas composition in an annealing furnace of H ₂ gas 3.2.
%, N ₂ gas 96.8%, dew point adjusted to −38 ° C., annealed, and a brush roll current of 81 A for each of two front and back grinding brush rolls (total of four) of the cold rolled steel strip. After mechanical grinding, passivation treatment was performed with a pickling solution composed of nitric acid to which chloride was added. The corrosion resistance test result of the manufactured steel strip was 1.4, and a steel strip having extremely excellent corrosion resistance as compared with the steel strip manufactured by the conventional technique could be manufactured.

[0023]

As described above, according to the present invention, C
r-containing corrosion-resistant steel strip was annealed in an atmosphere having a dew point of -70 to -30 ° C, an oxide film was removed by mechanical grinding, and then a passivation treatment was performed by pickling. A Cr-containing corrosion-resistant steel strip that is more excellent in corrosion resistance than a steel strip can be manufactured.

The dew point of the atmosphere in the annealing furnace is -70 to-
Since the temperature is set within the range of 30 ° C., deterioration of the sprayed film on the roll surface in the annealing furnace can be prevented, and as a result, the roll replacement cycle can be extended, so that equipment maintenance costs can be reduced. In addition, since the oxide film is removed by mechanical grinding, the descaling ability is improved, which not only improves the production speed, but also reduces the variation in the corrosion resistance test result, and performs processing such as re-pickling of the defective material in the corrosion resistance test. This can be omitted, and as a result, operating costs can be reduced.

Since the passivation treatment by pickling is performed after the oxide film is removed by mechanical grinding, the rise in the temperature of the pickling solution can be reduced, and the pickling solution cooling device can be reduced or omitted.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram showing one embodiment of the apparatus for producing a Cr-containing corrosion-resistant steel strip of the present invention.

FIG. 2 shows the results of a corrosion resistance test of a Cr-containing corrosion-resistant steel strip manufactured using the apparatus for manufacturing a Cr-containing corrosion-resistant steel strip shown in FIG. 1 and the results of a corrosion resistance test of a Cr-containing corrosion-resistant steel strip manufactured by a conventional method. It is a graph shown in comparison.

FIG. 3 is a schematic configuration diagram showing a conventional apparatus for manufacturing a Cr-containing corrosion-resistant steel strip.

[Explanation of symbols]

 Reference Signs List 10 Cr-containing steel strip after cold rolling 12 Pretropical 22 Rinse tank 24 Dryer 30 Heating zone 32 Cooling zone 34 Grinding brush 36 Pickling tank 38 Pickling liquid cooling device

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁶ Identification code FI C23C 26/00 C23C 26/00 C (72) Inventor Naoto Ueno 1 Kawasaki-cho, Chuo-ku, Chiba City Kawasaki Steel Corporation Chiba Works (72) Inventor Satoshi Kasai 1 Kawasaki-cho, Chuo-ku, Chiba-shi Kawasaki Steel Corporation Chiba Works (72) Inventor Masao Yamashina 1 Kawasaki-cho, Chuo-ku Chiba City Kawasaki Steel Corporation Chiba Works (56) Reference Reference JP-A-58-185780 (JP, A) JP-B-4-40433 (JP, B2) (58) Fields investigated (Int. Cl. ⁶ , DB name) C23G 1/08

Claims (2)

(57) [Claims] 1. A method for producing a Cr-containing corrosion-resistant steel strip, comprising annealing a Cr-containing corrosion-resistant steel strip after cold rolling to a dew point in a range of −70 to −30 ° C., and annealing the Cr-containing corrosion-resistant steel strip. A method for producing a Cr-containing corrosion-resistant steel strip, comprising: removing an oxide film from a steel strip by mechanical grinding; and performing a passivation treatment by pickling on the Cr-containing corrosion-resistant steel strip that has been subjected to the mechanical grinding. 2. An apparatus for producing a Cr-containing corrosion-resistant steel strip, comprising: an annealing apparatus for annealing a Cr-containing corrosion-resistant steel strip after cold rolling; and an oxide film of the annealed Cr-containing corrosion-resistant steel strip by mechanical grinding. An apparatus for producing a Cr-containing corrosion-resistant steel strip, comprising: a mechanical grinding apparatus; and a pickling apparatus for passivating the Cr-containing corrosion-resistant steel strip after the mechanical grinding is completed.