RU2061099C1 - Method of protection of metals - Google Patents

Abstract

FIELD: metallurgy, heat power industry, mechanical engineering. SUBSTANCE: invention belongs to protection of metals against acidic corrosion. Method of protection of metals includes injection of aqueous mother liquor into working medium at stage of crystallization of bensosulphoacidic fire-retardant in the amount of 1-3 g/l. Method permits injection into mother liquor of tiocarbamide in quantity not less than 0.1% with subsequent holding at room temperature in the course of 48-54 h. EFFECT: improved protective characteristics. 3 cl, 2 tbl

Description

 The invention relates to the protection of metals from acid corrosion and can be used in the metallurgical industry, in the power industry, mechanical engineering and other industries.

Known methods for the protection of steel and rolled products from acid corrosion using inhibitors obtained from waste from a number of industries [1]
Closest to the proposed achieved results is a C-5 inhibitor, which is a compound of the same type [2]
Along with sufficient effectiveness, this inhibitor has high toxicity due to the presence of pyridine bases in it, which complicates and complicates its use.

 The purpose of the invention is the provision of reliable protection of metals from acid corrosion with the help of non-toxic waste products.

 The goal is achieved by the fact that an aqueous mother liquor is added to the working media from the crystallization stage of benzenesulfonic acid antipyrine of the following composition, benzene sulfonic acid 2-5; benzenesulfonic acid antipyrine 1-3; resinous products of oxidation and condensation of 3-methyl-1-phenyl-pyrazolone 22-27; the rest of the water in an amount of at least 2 g / l. Moreover, its effectiveness is increased in the presence of thiourea, added to the inhibitor in an amount of not less than 0.1% of its mass, followed by exposure at room temperature for 48-54 hours. In addition, alkali or alkaline-earth metal chlorides are added to the working medium in the amount of 1-3 g / l.

The aqueous mother liquor from the crystallization stage of benzenesulfonic acid antipyrine (IKOL) is an easily moving non-combustible liquid with a density of 1.01-1.05 g / cm ³ ; initial boiling point ^of 100 C; the pH of the solution is 0.5-2.0; without smell.

 In the table. 1 shows the results of corrosion tests illustrating the effectiveness of the proposed inhibitor.

In the table. 2 presents the results of corrosion tests of the proposed inhibitor, depending on the exposure time of the inhibitory composition after the addition of thiourea. Polished specimens from 08KP steel were etched. Tests were conducted at ⁸⁰ ° C for 40 min. As the etching solution, 20% sulfuric acid was used. The amount of inhibitor in the solution was 2 g / L.

 A decrease in the amount of thiourea below 0.1% makes the protection effect difficult to detect and extremely unstable.

 The absence of toxic properties of the inhibitor in the production environment in which it can be used is confirmed by the findings of an examination conducted by the All-Union Scientific Center for Biologically Active Substances (VSC BAS).

Claims (3)

 1. A method of protecting metals from acid corrosion using inhibitory additives based on industrial wastes, characterized in that, in order to reduce the toxicity of the inhibitor without compromising the quality of protection, an aqueous mother liquor is added to the working media from the crystallization stage of benzenesulfonic acid antipyrine of the following composition, wt. Benzenesulfonic acid 2 5
Benzenesulfonate antipyrine 1 3
Resin-like products of oxidation and condensation of 3-methyl-1-phenylpyrazolone 22 27
Water Else
in an amount of at least 2 g / l.  2. The method according to claim 1, characterized in that chlorides of alkali or alkaline earth metals are introduced into the working medium in an amount of 1 to 3 g / l.  3. The method according to claim 1, characterized in that thiourea in an amount of not less than 0.1% is added to the aqueous mother liquor, followed by exposure at room temperature for 48 54 hours.

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