SU148704A1 - Inhibitors of corrosion of ferrous metals in water and neutral aqueous solutions of electrolytes and non-electrolytes - Google Patents

Description

The invention relates to corrosion inhibitors for ferrous and non-ferrous metals, in water, neutral aqueous solutions of electrolytes and non-electrolytes.

It is known to use metal corrosion inhibitors in neutral media, for example, sodium lat. Chlorine, SO, NOa ions reduce the protective properties of this inhibitor. Aeration reduces the minimum concentration of the inhibitor, and if insufficient concentration causes corrosive corrosion (“zone of dangerous concentrations).

A distinctive feature of the described invention is that, in order to slow down the corrosion of ferrous and non-ferrous metals, sodium salts of sulfonyldivaleric and thiodivaleric acids are introduced into the solutions.

When lubricating the surface of ferrous metal products with aqueous solutions of salts of thiodivaleric and sulfonyldivaleric acids in a concentration of more than 1.0%, corrosion of the products ceases or starts much later than in products not subjected to such processing. ; |

The protective effect of sodium salts of thiodivaleric n sulfonyl divaleric acid was tested on ferrous and non-ferrous metal samples in tap and distilled water and in dilute solutions of sodium chloride and sulfate at pH 7. The test was carried out at 18-20 ° C under conditions of natural aeration of solutions with full immersion of the samples in 300 ml of solution to a depth of 2 cm. As corrosion samples, the following were tested: steel-4, steel-10, steel-20, steel nickel-plated and chrome-plated, gray cast iron, copper electrolyte, brass L-62, aluminum lower AB-2, zinc C-1, white and

No. 148704- 2

galvanic couple steel - copper. The duration of the test is from iO to 30 days. In the study, solutions of sodium salts of thiodoivalerate and sulphonyldivalerate were used with a concentration of 0.1-0,0001 M in distilled water, and for thiodivalerate in tap water. The audit established that for the full protection of steel-10 from corrosion in distilled water, the concentration of thio-dive Larianate 0.00008 M is sufficient, for steel-20 - 0.0001 M and for steel-4 - 0.002 M /

Sulfonyldivaleate is a weaker inhibitor with respect to steel than thiodivalerate and the complete protection of steel-10 against corrosion in distilled water is observed at a concentration of sulfonyldivaleate up to 0.0004 M, for steel-20 to 0.0001 M and for steel-4 to 0 , 01 M.

In tap water (with a temporary hardness of 6 mg eq / l), complete protection of the steel is observed at a thiodivalerate concentration of about 10 times higher than in distilled water. Thiodivalerate and Sulfonyldivaleate at a concentration of 0.01 M have virtually no effect on the corrosion of these non-ferrous metals.

For nickel-plated and chrome-plated samples, the protective concentration of the salts of thiodivaleric and sulphonyldivaleric acids is 0.02 / I. The tin does not corrode in a 0.001 -Vf thiodivaleate and a 0.1M sulfonyl divaleate concentration of 0.1 M. The sodium thiodivariate can be used to protect the steel-copper microgalvanic couple in distilled water in the concentration range of 0.001-0.01 / W and in tap water at concentrations of 0.004-0.01 M.

It has been established by experiments that the protective concentration of thiodivariate for steel-4 in dilute solutions of sodium chloride and sodium sulphate is lower than that for sodium sulfonyl divaliate.

Subject invention

Inhibitors of corrosion of ferrous metals in water, neutral aqueous solutions of electrolytes and non-electrolytes, characterized in that sodium sulfonyl divaleric and thiodivaleric acid salts are introduced into solutions to reduce the corrosion of ferrous metals.