KR19990010561A - Electrolytic Pickling Method of Austenitic Stainless Cold Rolled Annealed Steel Sheet - Google Patents

Abstract

The present invention relates to an electrolytic pickling method for austenitic stainless cold rolled and annealed steel sheets. By adding KNO ₂ , an anode reaction inhibitor, to the mixed acid solution consisting of nitric acid, hydrofluoric acid, and sulfuric acid, the acid pretreatment step is omitted, the productivity is greatly increased, and the electrolytic pickling is performed. In order to improve the surface quality of the steel sheet by performing the treatment, the austenitic stainless cold rolled steel sheet subjected to annealing heat treatment in an oxidizing atmosphere is treated in 5% by weight, 5% to 15% nitric acid, 0.1% to 2% hydrofluoric acid, and 5% to 20% sulfuric acid. % And KNO ₂ , an anode reaction inhibitor, in the pickling solution consisting of 0.01% to 1.5% of the remaining pure water (H ₂ O), so that the solution temperature is 45 to 75 ° C and the current density is 0.01 to 0.5A / cm ^2. It was done.

Description

Electrolytic Pickling Method of Austenitic Stainless Cold Rolled Annealed Steel Sheet

The present invention relates to an electrolytic pickling method of an austenitic stainless cold rolled annealing steel sheet, particularly in a mixed acid solution consisting of nitric acid, hydrofluoric acid, and sulfuric acid so as to uniformly remove oxide scale on the surface of an austenitic stainless cold rolled annealing steel sheet in a short time. It relates to a method of electrolytic pickling.

In general, stainless steel cold-rolled steel sheet is oxidized scale on the surface when annealed heat treatment in the oxidizing atmosphere, and since stainless steel contains Cr and Ni, Fe and Cr. A poorly soluble scale of dense spinel structure comprising Ni is formed.

The poorly soluble scale formed as described above is removed through a pickling process, but it is common to perform a pickling pretreatment to increase industrial productivity. The most widely used method of pre-pickling treatment is the Korene method that makes steel pickling easier by changing the chemical composition of the scale by immersing the steel plate in molten salt and indirectly energizing the steel plate in neutral saline solution to remove the scale. There is an accelerated Ruthner method.

The methods related to pickling known to date are mainly a method of performing final pickling by immersing a mixed acid solution (nitric acid + hydrofluoric acid) after first removing an oxide scale formed during annealing heat treatment through a pretreatment process as described above.

However, this method has a drawback in that it takes a long time before the pickling is completed, which slows down the mailing speed, which leads to a very low productivity. In addition, when the concentration of hydrofluoric acid is increased to improve pickling, the steel sheet is eroded. .

In addition to the above-described method, in order to improve productivity by increasing the speed at which the stainless steel cold rolled steel is pickled, the electrolytic pickling is carried out in a solution such as nitric acid and sulfuric acid after preliminary descaling to improve productivity. This has been proposed. (Japanese Patent Laid-Open Publication Nos. 62-216999 and 63-96300)

However, since the acid used is high in concentration, the method has a weak point that the production cost is increased by increasing the raw unit.

Therefore, the present invention omits the acid pretreatment step by adding the reaction inhibitor KNO ₂ to the mixed acid solution composed of nitric acid, hydrofluoric acid and sulfuric acid, thereby greatly improving the productivity and electrolytic pickling to improve the surface quality of the steel sheet. There is a purpose.

The present invention having the above object is 5% to 15% nitric acid, 0.1% to 2% hydrofluoric acid, 5% to 20% sulfuric acid, and anodic reaction inhibitor for austenitic stainless steel cold rolled steel sheet subjected to annealing heat treatment in an oxidizing atmosphere without pickling. It is characterized by electrolytic pickling so that the solution temperature is 45-75 ° C. and the current density is 0.01-0.5 A / cm ² in the pickling solution composed of KNO ₂ 0.01-1.5% remaining pure water (H ₂ O).

1 is a schematic diagram showing the change in the polarization polarization curve when the positive electrode reaction inhibitor is added

Figure 2 is a schematic diagram of a process for electrolytic pickling austenitic stainless cold rolled annealing steel sheet using the pickling method of the present invention

In the present invention, in electrolytic pickling of an austenitic stainless cold rolled steel sheet subjected to annealing in an oxidizing atmosphere, 5% to 15% nitric acid, 0.1% to 2% hydrofluoric acid, 5% to 20% sulfuric acid, and an anode reaction inhibitor, KNO ₂ In the pickling solution composed of 0.01% to 1.5% of the remaining pure water (H ₂ O), the solution temperature is 45 to 75 ° C, and the current density is 0.01 to 0.5 A / cm ² to perform electrolytic pickling.

Hereinafter, the present invention will be described in more detail.

Nitric acid is a strong oxidizing acid used in the passivation of stainless steel, which alone has no disadvantage in pickling and also has the disadvantage of generating NOx gas.

Hydrofluoric acid is a powerful reducing acid, which is not only scale but also dissolution rate, low boiling point and toxic.

Sulfuric acid has low descaling ability at low temperature and is generally used at high temperature of 60 ℃ ~ 80 ℃. The peeling of scale is performed by hydrogen gas pressure generated at the cathode side by reaction of acid and base metal by acid penetrating into crack part of scale. .

Therefore, a favorable descale effect is exhibited by the above-mentioned mixed solution of three acids. In order to improve pickling, it is possible to increase the concentration of hydrofluoric acid in mixed acid solution.

To this end, KNO ₂ , an anode reaction inhibitor, is added to the mixed acid solution. When KNO ₂ is added, the critical current density of the anode polarization curve is shifted toward the lower current density, so that the cathode polarization curve and the anode polarization curve cross at one point. Dissolution reaction (acid pickling) occurs and suppresses the erosion in soja due to hydrofluoric acid addition (see Fig. 1).

In the present invention, the concentration of nitric acid in the mixed acid solution is preferably 5 to 15%, because when the concentration of nitric acid is less than 5%, the base metal is eroded by hydrofluoric acid because the passive film forming effect of nitric acid is reduced. This is because if it is abnormal, the descaling action of hydrofluoric acid is suppressed and it becomes fine acid.

The concentration of hydrofluoric acid is preferably 0.1 to 2%, because when the concentration of hydrofluoric acid is 0.1% or less, pickling is not performed. If the concentration is more than 2%, pit is formed in the base metal due to peroxidation.

The concentration of sulfuric acid is preferably 5 to 20%, because when sulfuric acid is less than 5%, the amount of hydrogen gas generated by cathodic reaction is small, so descaling cannot be expected. .

In the present invention, it is preferable to add KNO ₂ to the mixed acid solution (nitric acid + hydrofluoric acid + sulfuric acid) in the concentration range as described above in the range of 0.01% to 1.5% as a cathode reaction inhibitor.

When KNO ₂ , a substance that decreases the critical current density of the anode polarization curve, is added to the mixed acid solution as the anode reaction inhibitor, when the amount is less than 0.1%, the decrease in the critical current density is insignificant. This is because crossover unstable pickling progresses, and when it is 0.2% or more, it weakens the role of mixed acid.

The temperature of the acid solution is 45-75 ° C., because pickling is not expected below 45 ° C., and the surface of the steel sheet is over-acidified at 75 ° C. or higher.

Applying a range of current densities that are 0.01~0.5A / a cm ² 0.01A / cm ² or less in the electrochemical reaction is very weak and is not in a pickling 0.5A / cm ² or higher in reactivity between the surface of the steel sheet and the acid solution so good Because it is taxed.

In the present invention, electrolytic pickling an austenitic stainless cold rolled annealing steel sheet under the pickling conditions, which are configured to satisfy the above conditions, can greatly shorten the pickling time and increase productivity, and the surface of the steel sheet is uniform and shows excellent gloss.

Hereinafter, the present invention will be described in more detail with reference to the following examples.

EXAMPLE

The STS 304 stainless steel cold rolled steel sheet was subjected to annealing for 2 minutes in an oxidizing atmosphere at 1100 ° C. to form a dense scale on the surface thereof, followed by electrolytic pickling in an acid solution prepared as shown in Table 1 below.

The whiteness and pickling properties of the pickled specimens were evaluated and the results are shown in Table 1.

Acid solution composition (%) Current density (A / cm ² ) Time in seconds Temperature (℃) Whiteness (L) Judgment HNO ₃ HF H ₂ SO ₄ KNO ² Inventive 1 5 0.1 10 0.01 0.5 10 75 67.64 ○ Inventive 2 5 One 15 1.0 0.3 7 65 67.44 ○ Inventive 3 5 2 5 1.0 0.1 5 60 65.77 ○ Inventive 4 10 2 10 0.05 0.05 5 50 67.30 ○ Inventive 5 15 2 20 1.5 0.01 5 45 66.46 ○ Comparison 1 8 One - - Immersion 30 50 65.7 △ Comparison 2 8 One - - 0.01 15 50 59.6 ◎

(Double-circle): Over-acid tax ○: There is no residual pickling scale (good)

As can be seen from Table 1, in the case of Inventive Example (1-5), which was subjected to electrolytic pickling under the conditions of the present invention, no scale remained after pickling.

On the other hand, in the comparative example, in Comparative Example (2), which was electrolysed in nitric acid and hydrofluoric acid solution without adding an inhibitor, the base metal was eroded due to the action of hydrofluoric acid.

In addition, the comparative example (1) immersed in the existing mixed solution of nitric acid and hydrofluoric acid pickling time is considerably longer than in the case of the present invention (1-5), resulting in a decrease in productivity.

As described above, the present invention omits the pickling pretreatment process by molten salt when removing the scale of oxidation of the surface of the austenitic stainless steel sheet, and adds an anode reaction inhibitor (KNO ₂ ) to the mixed acid solution composed of nitric acid, hydrofluoric acid, and sulfuric acid. Therefore, the pickling time is shortened to 1/4 compared to the case of pickling by the conventional method, and the productivity is greatly improved, and the electrolytic pickling method has the effect of maintaining the surface state uniformly.

Claims (1)

5 to 15% nitric acid, the annealing heat treatment of austenitic stainless cold-rolled steel sheet in an oxidizing atmosphere in weight percent without pickling pretreatment, 0.1 to 2% hydrofluoric acid, 5 to 20% sulfuric acid and KNO ₂ 0.01~1.5% of the anode reaction inhibitor, the remaining pure Electrolytic pickling of an austenitic stainless cold rolled annealed steel sheet characterized by electrolytic pickling in a pickling solution consisting of (H ₂ O) with a solution temperature of 45-75 ° C. and a current density of 0.01-0.5 A / cm ² . Way.