RU2113542C1 - Corrosion inhibitor of metals in sulfuric and in hydrogen chloride acids - Google Patents

Abstract

FIELD: protection against metal corrosion; etching of metals in machine building and other industries. SUBSTANCE: corrosion inhibitor of metals in sulfuric and in hydrogen chloride acids comprises, mas.%: N-(n-oxybenzylalydene)-N′-(3′--methoxy-6-pyridazyl)-sulfanyl amide, 32.2-38.5; trimethylundecyl ammonium chloride, 38.4-48.4; 2-(2-oxy-4-dimethylaminobenzoyl)-4-nitrobenzoic acid, 19.4-23.1. EFFECT: increased protection of steel, titanium, nickel and cobalt against corrosion; decreased hydrogen absorption of steel. 2 tbl

Description

 The invention relates to the protection of metals from acid corrosion and can be used in mechanical engineering for metal etching, as well as for acid cleaning of equipment in the energy, food and other industries.

 It is known the use of urotropin for protection against corrosion in hydrochloric and sulfuric acids [1].

 However, the protection of steel with urotropine is not effective enough. Urotropin for other metals exhibits very low degrees of protection. The disadvantage of urotropin as an inhibitor is its high concentration (up to 2%), which is necessary to obtain a protective effect.

 Closest to the proposed inhibitor in technical essence and the achieved results is the condensation product of capric aldehyde with aniline [2].

 A known inhibitor protects steel in hydrochloric acid at a lower concentration than urotropin. However, for him, the degree of protection is far from complete suppression of corrosion of steel, amounting to 3.5 and 7 N. hydrochloric acid, respectively, 92.07; 95.50 and 97.29%. For titanium, nickel and cobalt, the degree of protection is even lower. Known inhibitor weakly protects steel from hydrogenation.

 The purpose of the present invention is to increase the protective anticorrosive effect for steel, titanium, nickel and cobalt when processed in hydrochloric and sulfuric acids, and also to increase the degree of protection of steel against hydrogen pickup.

This goal is achieved by adding to the acid of the proposed inhibitor containing the condensation product of an amine with an aldehyde quaternary ammonium salt and additionally 2- / 2-hydroxy-4-dimethylaminobenzene / -4-nitrobenzoic acid, with N- / n being used as the first two components of the inhibitor -oxybenzylidene / -N ¹ - / 3 ¹ -methoxy-6-pyridazyl / -sulfanylamide and trimethylundecylamonium chloride.

продукт конденсации:

четвертичная аммонийная соль

Указанные компоненты входят в состав игибиторов в следующих концентрациях, мас.%:
N-/n-оксибензилиден/-N¹-/3¹-метокси-6-пиридазил/-сульфаниламид - 32,2, - 38,5,
Триметилундециламмоний хлорид - 38,4 - 48,4,
2-/2-Окси-4-демитиламинобензоил/-4-нитробензойная кислота - 19,4 - 23,1
Компоненты ингибитора можно вводить непосредственно в кислоту.The listed components have the following structures: a derivative of nitrobenzoic acid:

condensation product:

quaternary ammonium salt

These components are part of the inhibitors in the following concentrations, wt.%:
N- / n-hydroxybenzylidene / -N ¹ - / 3 ^1- methoxy-6-pyridazyl / -sulfanilamide - 32.2, - 38.5,
Trimethylundecylammonium chloride - 38.4 - 48.4,
2- / 2-hydroxy-4-demythylaminobenzoyl / -4-nitrobenzoic acid - 19.4 - 23.1
The components of the inhibitor can be introduced directly into the acid.

 Examples of the compositions of the proposed inhibitor and the results of measuring the retardation of corrosion of steel, titanium, nickel and cobalt, as well as steel newfounding are given in table. one.

 Table 2 contains data on the effect of a known inhibitor (a condensation product of capric aldehyde with aniline) on the corrosion of the same metals and steel newfounding.

 Comparison of the protective effect of the proposed and known inhibitors shows that the first for all studied metals is superior to the known inhibitor. This is especially noticeable for steel at 3 and 5 N. acid concentrations, that is, those concentrations that are usually used when etching it. Even greater is the superiority of the proposed inhibitor with respect to the inhibition of corrosion of titanium, nickel and cobalt. In addition, the proposed inhibitor significantly reduces the hydrogen disturbance of steel compared with the known inhibitor. Thus, the proposed inhibitor is more effective than the known one, firstly, with respect to slowing down the corrosion of steel, secondly, with respect to hydrogenation of steel, and thirdly, with respect to sharp inhibition of corrosion of the remaining tested metals.

Comparing the proposed inhibitor with an inhibitor of PB-5, are widely used in industrial practice shows that the former has higher rates of inhibition of steel corrosion than PBD-5 (proposed a K _m of about 100, and PB-5 41 only). In addition, PB-5 coagulates under the influence of iron ions that accumulate in the bath during steel pickling, the proposed inhibitor does not coagulate.

 The proposed inhibitor is recommended for the etching of steel, titanium, nickel and cobalt in mechanical engineering and other industries.

Claims (1)

Corrosion inhibitor of metals in sulfuric and hydrochloric acids, containing the product of the condensation of an amine with an aldehyde, characterized in that it additionally contains trimethylundecylammonium chloride and 2- (2-hydroxy-4-dimethylaminobenzoyl) -4-nitrobenzoic acid, and N as a condensation product - (n-hydroxybenzylalidene) -N '- (3'-methoxy-6-pyridazyl) -sulfanilamide in the following ratio, wt.%:
N- (n-hydroxybenzylalidene) -N '- (3'-methoxy-6-pyridazyl) sulfanilamide - 32.2 - 38.5
Trimethylundecylammonium chloride - 38.4 - 48.4
2- (2-hydroxy-4-dimethylaminobenzoyl) -4-nitrobenzoic acid - 19.4 - 23.16

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