JP3407847B2 - Descaling method of hot rolled 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 descaling method which reduces the pickling efficiency by mechanically descaling a hot rolled steel strip.

[0002]

2. Description of the Related Art The surface of a hot-rolled steel strip is covered with a scale mainly composed of oxide. This hot rolled steel strip
If it is sent to a lower step such as cold rolling as it is, it may cause defects such as surface flaws and cracks due to the hot rolled scale.
Therefore, the hot-rolled scale is usually removed by pickling, and the hot-rolled steel strip is transported to the lower step. This method has a problem in terms of pickling equipment, waste acid treatment, adjustment of descaling ability, and the like, and there is a possibility that the characteristics of the steel material may be deteriorated by the penetration of hydrogen generated during pickling.

In order to solve various problems caused by pickling, various methods for removing the scale of the hot rolled steel strip fed into the pickling process have been studied. For example, cold rolling a hot-rolled steel strip to which scale is attached at a high pressure reduction rate (hereinafter referred to as black skin rolling) is disclosed in JP-B-54-133460, JP-A-57-41821, and JP-A-57. It is introduced in Japanese Patent Publication No. -10917. By cold rolling at high pressure
Since the scale is cracked and the adhesive force to the steel strip is reduced, it is easily separated from the cold-rolled steel strip by shot blasting, high-pressure water jetting, brushing, abrasive grain grinding and the like. As a result, the scale attached to the hot rolled steel strip carried into the pickling tank is reduced, and the load of the pickling step is reduced.

[0004]

When black-rolling a hot-rolled steel strip at a high pressure reduction rate, the load of the pickling step is certainly reduced, but the scale fragments peeled from the steel strip surface are the steel strip surface. Easily adheres to and remains on. The scale in this case has strong adhesion to the surface of the steel strip, unlike the scale produced when the hot-rolled steel strip is passed through the tension leveler. Therefore, many scales are sent to the pickling tank, and the pickling load cannot be reduced as expected. Moreover, the scale fragments separated from the hot-rolled steel strip by high-pressure rolling are pressure-bonded to the steel strip surface or pushed into the steel strip, making it difficult to remove in the pickling process, and causing surface defects such as surface defects in the subsequent cold rolling process. It is likely to cause defects. Therefore, although scale debris is removed by, for example, abrasive grain grinding or the like, some remains on the surface of the steel strip.

From the above, black leather rolling is effective for reducing the load of pickling, but is not suitable for the production of cold-rolled steel strip which requires a high quality surface skin. . The present invention has been devised to solve such a problem, and when descaling a hot-rolled steel strip by cold rolling at a reduction rate of 30 to 50%, the hot-rolled steel is applied in a tensioned state. By sending the strip to the rolling mill, the crack generation of the scale layer on the surface of the steel strip is promoted, the scale from the hot rolled steel strip is efficiently separated, and a steel strip with a significantly reduced scale adhesion amount is obtained. The purpose is to significantly reduce the pickling load.

[0006]

In order to achieve the object, the descaling method of the present invention has a leveler or skin pass while supplying water or rolling oil to a hot-rolled steel strip having a hot-rolled scale on its surface. 5kgf / mm by roll
It is characterized by applying a tension of ² or more, cold rolling with a cold rolling mill at a rolling reduction of 30 to 50%, and then introducing it into a pickling tank. When brushing the cold rolled steel strip surface,
Removal of hot rolled scale is promoted.

[0007]

DESCRIPTION OF THE PREFERRED EMBODIMENTS A line according to the present invention is shown in FIG.
Is constructed as shown in. The hot-rolled steel strip 1 on which the hot-rolled scale is still attached is rewound from the pay-off reel 2 and applied with a tension of 5 kgf / mm ² or more by the leveler 4 or the skin pass roll through the entrance-side bridle roll 3.
Cold rolling is performed by the cold rolling mill 5 at a reduction rate of 30 to 50% (hereinafter referred to as "high pressure rolling"). The hot-rolled scale is cracked and crushed by rolling under high pressure and peeled from the steel strip 1. The scale crushed material remaining on the surface of the steel strip is separated and removed by the brush roll 6, and then the scale crushed material remaining on the surface of the steel strip is removed by the cleaning brush 7. Further, after passing through the exit side bridle roll 8, it is introduced into a spray device 9 as necessary, and high pressure water is sprayed from a spray nozzle 10 to clean the surface of the steel strip. It is also possible to omit the spraying device 9 when the scale is efficiently removed by the cleaning brush 7. The steel strip treated in this way is then sent to the pickling tank 11, where a small amount of scale left on the surface is pickled and removed, and wound on the take-up reel 12.

The scale formed on the surface of the hot-rolled steel strip 1 is mainly composed of Fe ₃ O ₄ , but conceptually, as shown in FIG. 2, the oxygen concentration gradually increases from the inside toward the surface layer. It is considered that the FeO layer, the Fe ₃ O ₄ layer, and the Fe ₂ O ₃ layer are laminated on the surface of the base steel. In fact, the quenched steel strip tends to have a thicker FeO layer. The scale layer is relatively thick as 9 to 10 μm in the weak deoxidized steel, and relatively thin as 6 to 7 μm in the Ti deoxidized steel. Fe ₃ O ₄ layer and Fe occupying most of the scale layer
_{The 2} O ₃ layer is hard and brittle, and easily cracks even with a relatively low rolling force.

The hot-rolled steel strip 1 having a hot-rolled scale on the surface, that is, the black skin material, has undulations on the surface, but has a lower roughness than the pickled white skin material and has a good rolling oil adsorption property. Inferior.
Therefore, it is difficult to supply the rolling oil into the roll bite of the rolling mill 5, the lubricity is poor, and the rolling load is likely to be excessive. In this respect, according to the present invention, the hot-rolled steel strip 1 before being subjected to high pressure rolling has a leveler 4 or skin pass roll of 5 kg
By applying a tension of f / mm ² or more, when the hot-rolled steel strip 1 is bitten by the work roll on the entrance side of the rolling mill 5, cracks are easily generated in the scale layer on the surface of the hot-rolled steel strip 1. . The generated cracks improve the adsorbability of rolling oil and improve the lubricity during rolling. When the hot-rolled steel strip 1 in this state is rolled under high pressure by the cold rolling mill 5, the supply of water or rolling oil to the roll bite is promoted, and proper lubricity (friction coefficient μ: 0.05 to 0.20) is obtained. The above range) is ensured and high-pressure rolling is performed under stable conditions.

If a pre-strain is applied by a leveler or a skin pass before rolling, cracks will occur in the scale layer. Since water or rolling oil penetrates into the cracks, the supply of water or rolling oil to the roll bite is promoted. If the tension at the leveler or skin pass is 5 kgf / mm ² or more,
The elongation of 1.0% or more is secured, and the above-mentioned effect becomes remarkable. Also, similar to the effect of leveler or skin pass,
When the tension on the mill entry side is set to 5 kgf / mm ² or more, cracks are generated in the scale layer at the entrance of the roll bite, and the supply of water or rolling oil is promoted. In this case, a greater effect can be obtained by imparting elongation with a leveler or a skin pass.

In this way, for example, the rolling rate is 30%.
It is possible to perform high pressure rolling of hot rolled steel strips exceeding the above. As the rolling reduction increases, the difference in deformation between the base steel and the FeO layer increases, and cracks occur in the FeO layer that cannot follow the elongation of the base steel. In fact, when investigating the crushed product of the scale peeled from the surface of the hot-rolled steel strip by cold rolling, while the peeled scale is powdery when the rolling reduction is low,
It is observed that as the rolling reduction increases, the size of the pulverized product becomes larger and becomes scaly. The state change of the exfoliation scale according to the rolling reduction is caused by the deeper the scale layer as the rolling at the high rolling reduction rate, in other words, the scale exfoliation occurs from the crack entering the FeO layer, and the scale exfoliation amount increases. It is presumed that As a result, the scale remaining on the surface of the steel strip after rolling is significantly reduced. The hot-rolled steel strip rolled under high pressure is then brushed by a brush roll 6. Brush bristles penetrate into the cracks generated in the scale layer, and the scale layer having weak adhesion to the base steel is removed from the surface of the steel strip. At this time,
The removal of scale is further promoted by using a brush containing abrasive grains. Brushing removes most scale from the strip surface.

A spray process may be performed during or after brushing. In the spray treatment, warm water held at 80 ° C. or higher is used, for example, 10 to 100 kgf / cm.
It is preferable to inject it onto the surface of the steel strip at a high pressure of about ² .
The scale remaining after brushing is removed by spraying high-pressure water without damaging the base steel.
High-pressure water uses brush rolls 6, 7 to clean brush bristles.
It may be injected from the inside. When the brush rolls 6 and 7 are arranged in multiple stages as shown in FIG. 1, the upper stage side 6 can be used for descaling and the lower stage side 7 can be used for cleaning.

In this way, most of the scale is removed from the surface of the steel strip by high pressure rolling and brushing, so that the scale to be removed in the pickling tank 11 is extremely small. Therefore, the pickling load is significantly reduced.
When hot water held at 80 to 95 ° C is used as the high-pressure water used in the spray after brushing, the pickling tank is used without lowering the temperature of the steel strip heated by the working heat caused by cold rolling under high pressure. You can bring it to 11. Therefore, the temperature drop of the pickling bath is suppressed, the treatment under constant pickling conditions becomes possible, and the energy required for temperature compensation of the pickling bath is also saved. However, if the temperature of the hot water becomes too high, damage to the brush roll will be accelerated, so the temperature of 80 ℃
It is preferable to use the following warm water.

The cold rolling mill is preferably provided with a work roll having a polisher, a spray nozzle or a scraper facing the circumferential surface. In this case, the hot-rolled scale crushed material transferred from the hot-rolled steel strip to the peripheral surface of the work roll is removed from the roll surface by a polisher, a spray nozzle, a scraper, etc., which are arranged facing the surface of the rolling roll, and then removed from the system. Is discharged. It is preferable that the polisher, the spray nozzle, the scraper, and the like are arranged facing the peripheral surface of the work roll at a position downstream of the rolling point in the rotation direction. Further, the same polisher, spray nozzle, scraper and the like may be provided for the backup roll which rotates in contact with the work roll.

[0015]

Example A hot-rolled steel strip having a plate thickness of 2.7 mm was cold-rolled at a reduction rate of 50% on the descaling line shown in FIG. 1 prior to pickling. As the hot-rolled steel strip, a hot-rolled steel strip having the components and compositions shown in Table 1 and having a hot-rolled scale having an average thickness of 6 to 15 μm attached to the surface was used. Hot rolled steel strip 1
5 kgf / mm by the leveler 4 at the entry side of the cold rolling mill 5.
A tension of ² or more was applied, and rolling was performed by a rolling mill 5 at a rolling reduction of 50%. The coefficient of friction when steel type A is rolled under high pressure is
It changed as shown in FIG. 3 according to the applied tension. That is, when a tension of 5 kgf / mm ² or more was applied, the friction coefficient fell below 0.2, and the hot-rolled steel strip 1 could be rolled without applying an excessive rolling load to the rolling mill.
On the other hand, when the hot-rolled steel strip 1 to which a tension of less than 5 kgf / mm ² was applied was rolled, the friction coefficient was increased by 2 or more, and a large rolling load was generated. The effect of applying tension on the reduction of the friction coefficient was also observed for steel type B. From this result, it is understood that the hot-rolled steel strip 1 can be rolled under high pressure under stable conditions by applying a tension of 5 kgf / mm ² or more.

[0016]

After rolling under high pressure, the hot-rolled steel strip 1 was brushed with a nylon brush roll 6 containing abrasive grains. Then, the steel strip that had been appropriately spray-treated was carried into the pickling tank, and the pickling condition of each steel strip was investigated. The acid solution contains 10% HCl +
Using a solution prepared at a ratio of 7% Fe ²⁺ +1 g / lFe ³⁺ , the acid solution was stirred while being kept at 90 ° C., and each test piece was immersed in the acid solution for 2 to 20 seconds. The pickling conditions are almost the same as the normal pickling conditions. As a result of comparing the descaling time by pickling, in the steel strip which was rolled under high pressure at a reduction rate of 30% or more after leveling and brushing,
Descaling was completed by pickling for 2 to 5 seconds, and good skin was obtained. On the other hand, steel strips rolled under high pressure at a rolling reduction of 30% or more without leveling and brushing have a variation in descaling property, and the descaling property due to brushing tends to be inferior, and the pickling time also varies. There has occurred.

From the above results, by applying a tension of 5 kgf / mm ² or more, the hot rolled steel strip can be rolled under high pressure under stable conditions at a high pressure reduction rate of 30% or more, and the scale is effectively peeled from the base steel. It was confirmed that brushing this hot-rolled steel strip removed most of the scale and significantly relaxed the pickling conditions. Therefore, it is possible to reduce the pickling load, use a compact pickling tank to finish pickling in a short time, use a low-concentration pickling solution that reduces the load of waste liquid treatment, etc. It can be seen that various advantages of Further, since the amount of Fe carried into the pickling bath is drastically reduced, the life of the acid solution itself is extended. Moreover, by rolling under high pressure, predetermined characteristics can be built into the as-pickled steel strip.

[0019]

As described above, in the present invention, when descaling a hot-rolled steel strip by cold rolling under high pressure, a leveler or a skin pass roll is used at 5 kgf / mm ^2.
By sending the hot-rolled steel strip to which the above tension has been applied to the rolling mill, the generation of cracks in the scale layer on the surface of the steel strip is promoted. The cracks in the scale layer effectively trap water or water-soluble rolling oil and enable rolling under high pressure under stable conditions. As a result, peeling of scale from the base steel is promoted,
By brushing, the amount of scale attached to the steel strip carried into the pickling tank is greatly reduced. Therefore, the pickling load is reduced, the pickling time can be shortened, the pickling equipment can be downsized, low-concentration acid solution can be used, and the defects caused by pickling can be suppressed from being introduced into the material. It Furthermore,
The life of the pickling bath can be extended.

[Brief description of drawings]

1 is a descaling line for hot rolled steel strip according to the present invention.

FIG. 2 Layer structure of scales formed on the surface of hot-rolled steel strip

[Fig. 3] Effect of applied tension on friction coefficient

[Explanation of symbols]

1: Hot-rolled steel strip 2: Payoff reel 3: Entry side bridle roll 4: Leveler 5: Cold rolling mill 6: Descaling brush roll 7: Cleaning brush roll 8: Egress side bridle roll 9: Spray device 10: Spray nozzle 11: Pickling tank 12: Take-up reel

Continuation of front page (51) Int.Cl. ⁷ Identification symbol FI C23G 3/02 C23G 3/02 (72) Inventor Takuya Hashida 5 Ishizushi Nishimachi, Sakai City, Osaka Prefecture Nisshin Steel Co., Ltd. Sakai Works (72) Inventor Takumi Uchiyama 5 Ishizu Nishimachi, Sakai City, Osaka Prefecture Nisshin Steel Co., Ltd.Sakai Works (72) Inventor Kenji Hara 1 Tsurumachi, Amagasaki City, Hyogo Nisshin Steel Co., Ltd. Technical Research Institute (56) Reference 60-145216 (JP, A) (58) Fields investigated (Int.Cl. ⁷ , DB name) B21B 27/06 -28/04 B21B 45/04-45/08 C23G 1/08 C23G 3/02

Claims (2)

(57) [Claims] 1. A tensioner of 5 kgf / mm ² or more is applied by a leveler or a skin pass roll while supplying water or rolling oil to a hot-rolled steel strip having a hot-rolled scale attached to its surface,
After cold rolling with a cold rolling mill at a reduction ratio of 30 to 50%,
A method for descaling a hot-rolled steel strip, characterized by being introduced into a pickling tank. 2. The descaling method for a hot-rolled steel strip according to claim 1, wherein the surface of the cold-rolled steel strip is brushed.