RU2124070C1 - Inhibitor of metal corrosion in sulfuric and hydrochloric acids - Google Patents

Abstract

FIELD: protection of metals from corrosion in sulfuric and hydrochloric acid, more particularly etching of metals in machine building. SUBSTANCE: greater degree of protection of steel, aluminium and titanium from corrosion and greater degree of steel from hydrogen absorption are achieved by using 13.75-16.6 wt % amine and N-(5-butyl-2-furfulidene-(5'-oxy-2'-pyrimidinyl) sulfonylamide as condensation product and adding 23.78-26.6 wt % 2,2-(diaminodiethyl sulfide dihydroiodide to inhibitor, 26.2-93.3 wt % 9-(3,5- dinitrophenyl)acridine and 23.2-36.2 wt % urotropin. EFFECT: improved properties of the inhibitor. 1 tbl

Description

 The invention relates to the field of the protection of metals from corrosion in acids by using inhibitors and can be used for pickling, activation of metal surfaces in mechanical engineering, for acid descaling and other deposits in the energy sector.

 It is known to use urotropin to protect steel from corrosion in sulfuric and hydrochloric acids. However, protection in this case is not effective enough for steel and ineffective for other metals, in particular for aluminum and titanium. In addition, urotropin is used in rather high concentrations, amounting to millimoles per liter or reaching 2% (Altsybeev A.I., Levan SZ, Metal corrosion inhibitors, L .: Chemistry, 1968, p. 28-29).

 The closest to the proposed solution in terms of technical nature and the achieved result is a well-known inhibitor - a condensation product of capric aldehyde and analyte (E.G. Turbina and N.G. Klyuchnikov "Protection of steel from corrosion in hydrochloric acid by condensation products of amines and aldehydes", collection of articles "Metal Corrosion Inhibitor", Central Scientific Research Institute of Shipbuilding Technology, ed. "Shipbuilding", 1965, p. 124-129). A known inhibitor protects steel from corrosion better than urotropin. However, the degree of protection in this case is still not large enough: 92.07; 95.50 and 97.29%, respectively, in 3.5 and 7N hydrochloric acid solutions. For titanium and aluminum, protection is ineffective; the hydrogen inhibitor inhibits the hydrogenation of steel very weakly.

 The aim of the present invention is to increase the degree of corrosion protection in sulfuric and hydrochloric acids of steel, aluminum and titanium, as well as increasing the effectiveness of protection against hydrogenation.

 To achieve this goal, it is proposed to add to the solutions of hydrochloric and sulfuric acids the composition of the product of the condensation of an amine with an aldehyde, which is N- (5-butyl-2-furfulidene) - (5'-nitro-2'-pyrimidinyl) sulfanilamide, 2 , 2'-diaminodiethyl sulfide dihydroiodide, 9- (3,5-dioxiphenyl) acridine and urotropine.

2,2'-диаминодиэтилсульфид дигидронодид
H₂N-CH₂-CH₂-S-S-CH₂-CH₂-NH₂ •2HI,
9-(3,5-динитрофенил)-акридин

Компоненты ингибиторов входят в его состав в следующих относительных количествах, мас.%:
N-(5-Бутил-2-фурфулиден)-(5'-окси-2'-пиримидинил)-сульфаниламид - 13,75 - 16,6
2-2'-Диаминодиэтилсульфид дигидроиодид - 23,75 - 26,6
9-(3,5-Динитрофенил)-акридин - 26,2 - 33,3
Уротропин - 23,2 - 36,2
Получение ингибитора заключается в смешении в любой последовательности всех компонентов композиции, которая затем вводится в раствор кислоты в концентрации 0,3 - 0,8 мас. % и энергично перемешивается. Возможно также введение в кислоту компонентов композиции в отдельности. При этом для ускорения растворения продукта конденсации амина и альдегида можно предварительно растворить его в 3-4 мл этанола.The condensation product of N- (5-butyl-2-furfulidene) - (5'-hydroxy-2'-pyrimidinyl) sulfanilamide has the following structure:

2,2'-diaminodiethyl sulfide dihydronodide
H ₂ N-CH ₂ -CH ₂ -SS-CH ₂ -CH ₂ -NH ₂ • 2HI,
9- (3,5-dinitrophenyl) acridine

The components of the inhibitors are included in its composition in the following relative amounts, wt.%:
N- (5-Butyl-2-furfulidene) - (5'-hydroxy-2'-pyrimidinyl) sulfanilamide - 13.75 - 16.6
2-2'-Diaminodiethyl sulfide dihydroiodide - 23.75 - 26.6
9- (3,5-dinitrophenyl) acridine - 26.2 - 33.3
Urotropin - 23.2 - 36.2
Obtaining an inhibitor consists in mixing in any sequence all the components of the composition, which is then introduced into an acid solution at a concentration of 0.3 - 0.8 wt. % and mixes vigorously. It is also possible to introduce separately the components of the composition into the acid. Moreover, to accelerate the dissolution of the condensation product of amine and aldehyde, you can pre-dissolve it in 3-4 ml of ethanol.

 Examples of tests of the proposed and known inhibitors are given in the table.

 A comparison of the degrees of protection against corrosion of steel, titanium and aluminum and hydrogenation of steel allows us to draw the following conclusions.

 1. The proposed inhibitor inhibits the corrosion of metals is much more effective than the known (method for aluminum and titanium).

 2. The proposed inhibitor is significantly superior to the known inhibitor in slowing down the hydrogenation of steel.

 The superiority of the proposed inhibitor over the PB-5 inhibitor widely used in industrial practice is manifested not only in a more effective braking of steel corrosion (braking coefficients are more than 100 and 44, respectively), but also in the fact that the known one easily coagulates in the pickling bath, and the proposed one remains in dissolved condition.

 The proposed inhibitor is recommended for etching in acids of steel, aluminum and titanium, as well as for acid cleaning equipment.

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 contains as a condensation product of N- (5-butyl-2-furulidene) - (5'-hydroxy-2'-pyrimidinyl) - sulfonamide and additionally includes 2,2'-diamino-diethyl sulfide dihydroiodide, 9- (3,5-dinitrophenyl) acridine and urotropine in the following ratio, wt.%:
N- (5-Butyl-2-furfulidene) - (5'-hydroxy-2'-pyrimidinyl) sulfanilamide - 13.75 - 16.6
2,2'-diaminodiethyl sulfide dihydroiodide - 23.75 - 26.6
9- (3,5-dinitrophenyl) acridine - 26.2 - 33.3
Urotropin - 23.2 - 36.2 s

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