SU1751250A1 - Anti-corrosive compound for manufacturing packing materials - Google Patents

Abstract

SUMMARY OF THE INVENTION: Anticorrosive inhibitory composition for the manufacture of benzotriazole-based benta-triazole (BTA) and co / Hc qi packing materials with fatty acids to fatty acid with the number of carbon atoms up to 2О (HLFA) additionally contains cyclohexylamine ortho-nitrophenol t ONFTSGA). The composition contains these cnb nnt1 in the following amount, wt.%: BTA 2-70G TSGAZK 7-80; ONFTSGA 3-55 and water - the rest. The use of a composition to improve the protective properties of the materials. 3 tab. Eyla - sj (L S

Description

The invention relates to anti-corrosion compositions consisting of inhibitors of atmospheric corrosion of metals introduced into packaging materials (paper, cardboard, textiles, etc.), intended for use in the pulp and paper industry and can be used in various sectors of the national economy. to protect metal from corrosion during storage and transportation.

The use of various metals, alloys and coatings in one product is typical for modern instrument-making and mechanical engineering. In order to protect such a complex and expensive equipment from corrosion during storage and transportation, packaging materials with universal protective properties, i.e. providing protection of both ferrous and non-ferrous metals. The most promising direction in the development of such materials is to introduce into the paper (or other packaging) compositions of the available inhibitors, each of which protects an individual metal or a group of metals. However, in this case, the components of the composition must have the combination of both with the point of view of the technology of insertion of paper and corrosion protection properties, i.e. should not weaken each other's protective action. The most desirable enhancement of the protective effect of the composition of the inhibitors compared with the protective effect of an otmvggga „,,

individual components. Known inhibitor composition, which consists of a mixture of benzotriazole and dicyclohexylamine dagrite

The disadvantage of this composition is a high toxic & axial component - dicyloxyamine nitrite.

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The closest in technical essence and the achieved result to the invention is an anticorrosive inhibitory composition for the manufacture of packaging materials containing benzotriazole, a cyclohexylamine salt with fatty acids with the number of carbon atoms from 6 to 20 and in the following ratio of components, wt.%:

Benzotriazole 5-80

Salt of cyclohexylamine with fatty acids15-65 Water Else This composition is an effective corrosion inhibitor to protect non-ferrous metals,

However, a packaging material containing a known composition has a low level of speed due to the low volatility of these inhibitors. Such a composition slowly saturates the protected volume with its vapor and cannot provide reliable protection of products in the initial storage period due to insufficient vapor concentration.

Therefore, the formation of corrosion damage to hardware is possible, which ultimately reflects on the reliability and duration of the storage process,

The purpose of the invention is to improve the protective properties of packaging materials.

This goal is achieved by the fact that the anticorrosive inhibitory composition containing benzotriazole (BTA), cyclohexylsmine salt with fatty acids and water, additionally contains cyclohexylamine orthonitrophenol t in the following ratio, msec.%: Benzotriazole 2-70; salt of cyclohexylamine with fatty acids with the number of carbon atoms from 6 to 20 7-80; ortonitrophenol t cyclohexylamine 3-55, water the rest.

The anticorrosive inhibitor composition contains three components - benzotriazole, cyclohexylamine salt with fatty acids with carbon atoms from b to 20. And additionally, ortho-nitrophenol t cyclohexylsmine, the experimental batch of which was manufactured according to TU № 6-02-OP-001-84.

The components of this composition have a different mechanism of protective action and, in combination with each other, provide a synergistic inhibitory effect.

Example 1. In a tank with stirrer

 Pour 180 ml of water. When mixing

load into a container of 20 g of benzotriazole,

200 g nitrophenol and cyclohexylamine

then 600 g of cyclohexylamine salt with fatty acids. Stirring is carried out until complete dissolution of substances. The result is a homogeneous, clear, stable solution of the following composition, wt.%: Benzotriazole2

Salt of cyclohexylamine with fatty acids60 Ortonitrophenol t-cyclo-0-oxylamine 20 Water 18 A known method of one-sided impregnation of base paper weighing 45 g / m2 with the prepared solution made 5 introducing the impregnating composition into paper on a two-roll overhead site of an impregnating-spreading machine. After the impregnation, the anticorrosive paper was not dried, as this was not necessary. 0 Examples 2-7. In a manner similar to that described in Example 1, impregnating solutions are prepared, the compositions of which are presented in Table. 1. All solutions obtained are homogeneous and stable with the indicated ratios.

Example 8 (prototype). 250 ml of water are poured into a container with a stirrer. While mixing, 250 g of benzotriazole and 500 g of cyclohexylamine 0 salt with fatty acids are loaded into the container. Stirring is carried out until complete dissolution of the components. The resulting solution has the following composition,% in May

Benzotriazole25

5 Salt of cyclohexylamine with synthetic fatty acids50 Water25 In a manner similar to that described in Example 0, samples of anti-corrosive paper are obtained, containing 7.0-8.5 g / m2 of the composition of inhibitors of the prototype

In a manner similar to that described in Example 1, samples were made of anti-corrosive paper by impregnating the base paper with the prepared solutions according to the examples in Table 1.

Indicators of paper samples are presented in table. 2. 0 The reason that the impregnating compositions obtained in accordance with examples 1-7 are homogeneous, transparent, stable solutions is a very complex relationship between the stability of the solutions and the concentrations of the individual components. Moreover, the stability of solutions depends not only on the absolute values of the concentration of individual components, but also on the mass ratio of the components.

In order to prove the improvement of corrosion-protective properties, accelerated tests were carried out on the protective ability of samples of anti-corrosion paper made in accordance with the invention (examples 1-7), the prototype (example 8), as well as anti-corrosion paper containing only cyclohexylamine ortonitrophenol . In addition, for comparison, paper tests without inhibitor were performed in parallel. In all the anticorrosive papers taken for testing, the same total amount of inhibitors was 7.5-8.0 g / m2. The tests were carried out in an accelerated corrosion chamber according to GOST 9 041-74 on metallic samples of steel St-3, copper M2, brass, zinc, cast iron and silver coated. The test results after 30 days of the samples in the chamber are presented in Table. 3

As can be seen from the data table. 3, the protective ability of paper samples with inhibitor compositions of the present invention exceeds that of paper with ortho-nitrophenol cyclohexylamine and paper with a mixture of benzotriazole + cyclohexylamine salt with fatty acids (prototype). This indicates the synergism of the protective action of the described inhibitors. compositions

Comparison of the corrosion test data of metal samples packaged in paper prepared according to the invention and in the prototype shows that the protective ability of inhibitor compositions exceeds the protective properties of the composition of inhibitors of the prototype

From the results of that b l 3 it also follows that the compositions according to examples 3-7 provide complete protection against corrosion. However, with the aim of reducing the cost of anticorrosive packaging paper, it can be recommended as optimal compositions according to examples 3-5

The aforementioned impregnating compositions make it possible to obtain wrapping paper with high corrosion-protective properties and only in the specified T ratio the components form stable liquid solutions of high concentration up to 95%. The use of highly concentrated solutions for impregnation allows the necessary amount of inhibitors to be introduced into the paper by applying a small volume of solution. Consequently, there is no need for drying the 6th density paper after impregnation, since a small amount of water is withdrawn from the base, so the product is ready. Satisfies the humidity standard.

Thus, the use in the production of anticorrosive paper of an inhibitor composition to the submitted invention makes it possible to improve the protective properties of the packaging material, reduce energy consumption and improve working conditions.

Claims (1)

Invention Formula Anticorrosive inhibitor composition for the manufacture of packaging materials containing benzotriazole, cyclohexylamine salt c, fatty acids with carbon atoms from b to 20, and water, characterized in that, in order to improve the protective properties of packaging materials, it additionally contains cyclohexylamine ortonitrophenol in the following ratio components, wt.%: Benzotriazole2-70 Salt of cyclohexylamine with fatty acids with the number of carbon atoms from b to 207-80. Ortonitrophenol t cyclohexylamine 3-55 Water Rest Table 1 table 2 Table 3