RU2067105C1 - Primer inhibitor for anticorrosion protection of aluminium alloys - Google Patents

Abstract

FIELD: protection of metals against corrosion. SUBSTANCE: inhibitor primer for anticorrosion protection of aluminium alloys comprises semi-product which is 85.0-91.5% epoxy primer, solidifier which is 50% solution in organic solvent composed of fluorine- containing oligomer which is 8-14% product of reaction of polyethylene polyamine, toluene diisocyanate, cyclohexanone and octafluoroamyl alcohol with molecular weight of 700-850 and 0.5-1.0% inhibitor which is cyclohexylamine chromate. The inhibitor primes makes it possible to obtain contings having improved corrosion resistance to aggressive media (adhesion after 3 days in 3% NaCl at 50 C (1 mark) and after 15 days in 3% CH₃COOH (2 marks) and high adhesion strength to substrate made of D- 16 alloy. EFFECT: improved properties of the primer inhibitor. 3 tbl

Description

 The invention relates to the protection of metals from corrosion and can be used in aircraft, mechanical engineering and other sectors of the economy for corrosion protection of aluminum products and its alloys.

 Known VL-05 phosphating primer for paint and varnish anticorrosive coatings systems containing phosphoric acid as a passivator as one of the components (Paint and varnish materials. Technical requirements and quality control, M. Chemistry, v. 2, p. 52 53).

 The disadvantage of this primer is that it is used only for processing steel products and is not suitable for non-ferrous metals.

 Closest to the invention is a primer EP-076 (TU 6-10-755-74) containing an epoxy resin solution, pigments, fillers and hardener N 2 cured by a polyamide resin solution (TU 6-10-1279-72), used in systems coatings to protect products from aluminum and its alloys from corrosion (Paintwork materials. Technical requirements and quality control, M. Chemistry, t. 2, p. 103 104).

 The disadvantages of the known primers are their lack of adhesion to aluminum and its alloys, the inability to cure in conditions of high humidity and insufficient corrosion resistance of coatings based on it.

 The essence of the invention is to use the fluorine-containing oligomer OF-2 ketimine based on polyethylene polyamine, toluene diisocyanite, cyclohexanone and octofluoroamyl alcohol in combination with cyclohexylamine chromate as a hardener of the epoxy component of the semi-finished product EP-076, or another inoxidative coating, which allows to be coated with an epoxy coating in conditions of high relative humidity with simultaneous inhibition of the surface of aluminum products The line and its alloys and sharp increase in the adhesive strength of soil to the substrate, to provide coatings with a high degree of corrosion protection and longer life. Adding a solution of the fluorine-containing oligomer OF-2 to the epoxy prefabricated soil EP-076 in combination with aluminum corrosion inhibitor cyclohexylamine chromate allows you to combine the process of surface treatment of painted aluminum products and its alloys and the application of a primer layer in one technological operation.

 To improve the adhesion properties of the coating, increase its anticorrosion resistance, and enable it to cure under conditions of high relative humidity and low temperatures, an inhibitor primer for anticorrosive protection of aluminum alloys containing EP-076 semi-finished epoxy primer base and hardener additionally contains ОF- fluorine-containing oligomer 2 molecular weight 700 850 and as an inhibitor, cyclohexylamine chromate in the following ratio, wt.

Epoxy prefabricated soil base EP-076 85 91.5
Fluorine-containing oligomer OF-2 (50% solution) 8 14
Cyclohexylamine Chromate 0.5 1.0
The epoxy component is mixed with OF-2 adhesion hardener-promoter immediately prior to application of the primer layer, then cyclohexylamine chromate is introduced into the mixture. When applying the inhibitor soil by pneumatic spraying, it is allowed to dilute the mixture of components to a working viscosity of 12-15 s with a VZ-4 viscometer with a mixture of acid solvents: ethyl cellosol at 9: 1 by weight, or with a R-5 diluent. The soil-inhibitor is applied in two layers with an interval between the layers of 2 3 hours at 18 22 ^o C. The layers of the following paints and varnishes in the system can be applied to the 2nd layer of the soil-inhibitor after 3 5 hours after its application at a temperature of 18 - 22 ^o С . When applied in conditions of high relative humidity and lowered to 0 ^o With the temperature, the time interval should be increased to 20 hours exposure before applying the subsequent layers.

The invention is illustrated by the following examples (wt.)
PRI me R 1.

Prefabricated soil EP-076 85
Fluorine-containing oligomer OF-2 (50%) 14
Cyclohexylamine Chromate 1.0
The fluorine-containing oligomer OF-2 is introduced into the semi-finished soil base EP-076, mixed thoroughly, cyclohexylamine chromate is added, mixed until completely dissolved, diluted with R-5 solvent to a working viscosity of 14 s using a VZ-4 viscometer, filtered, and held for 30 to 40 minutes remove air bubbles and apply to the prepared surface with a spray gun KR-4.

 PRI me R 2.

Prefabricated soil EP-076 90
Fluorine-containing oligomer OF-2 (50th) 9.3
Cyclohexylamine Chromate 0.7
Preparation and application of soil analogously to example 1.

 PRI me R 3.

Prefabricated soil EP-076 91.5
Fluorine-containing oligomer OF-2 (50th) 8.0
Cyclohexylamine Chromate 0.5
The preparation and application of the soil inhibitor is analogous to example 1.

 The fluorine-containing oligomer OF-2 is introduced into the semifinished soil base EP-076, thoroughly mixed, cyclohexylamine chromate is introduced, mixed until completely dissolved, diluted with P-5 solvent to a working viscosity of 14 s with a VZ-4 viscometer, filtered, held for 30-40 min. remove air bubbles and apply to the prepared surface with a spray gun KR-4.

 The adhesive properties of the inhibitor soil were investigated in comparison with the serial soil EP-076 cured with hardener No. 2. The test results are given in table. 1.

 As can be seen from the table. 1, the soil inhibitor provides greater adhesive bond strength of the coating layer with the substrate of alloy D-16 compared with the serial EP-076.

 The anticorrosion properties of coatings were studied with various paints and varnishes applied to samples of D-16 alloy using serial EP-076 primer and an inhibitor primer. The test results are presented in table. 2. As can be seen from the data in table 2, the soil inhibitor allows you to get paint coatings, characterized by increased corrosion resistance to aggressive environments and high adhesive strength to the substrate of alloy D-16, the metal does not corrode even in places where aggressive media penetrate the coating.

The ability of the inhibitor soil to be cured under high humidity conditions was studied, for which samples from D-16 alloy, painted with an inhibitor soil and serial soil EP-076, were placed in a hydrostat with a 100% relative humidity at 10 ^o C.

 The test results are given in table. 3.

 As can be seen from the data table. 3, the soil-inhibitor is able to form a high-quality coating even under adverse conditions of high relative humidity, low temperature with the achievement of a high degree of curing under these conditions, which is why the use of serial soil EP-076 with hardener N 2 does not provide.

 With a decrease or increase in the content of OF-2 and chromate of cyclohexylamine (CCA) in the composition in comparison with the indicated limits, the inhibitory effect decreases, as well as the completeness of the curing of the soil-inhibitor, which negatively affects the properties of the coating, primarily on its adhesion to the substrate.

 According to the test results, we can conclude that the properties of the inhibitor soil are significantly superior to the serial soil EP-076 with hardener No. 2. The use of a fluorine-containing oligomer-ketimine OF-2 molecular weight 700 850 in combination with cyclohexylamine chromate as a hardener promoter compositions with epoxy prefabricated soil EP-076 makes it possible to obtain a soil inhibitor capable of curing in conditions of high relative humidity, providing high adhesion to aluminum and its alloys and increased corrosion resistance of protective coatings based on it. In addition, with the help of the proposed simplification of the process is achieved by combining the operation of inhibition of the surface of the product and its coloring in one technological operation. In addition, the viability of the material increases dramatically (8 10 times). TTT1 TTT2

Claims (1)

 An inhibitor primer for the corrosion protection of aluminum alloys containing a semi-finished EP-076 epoxy primer base and a hardener, characterized in that it contains a 50% solution in an organic solvent of a fluorine-containing oligomer of the product of the interaction of polyethylene polyamine, toluene diisocyanate, cyclohexane methyl alcohol and cyclohexanoate mass 700 850 and additionally inhibitor chromate cyclohexylamine in the following ratio, wt. Epoxy prefabricated soil base EP-076 85.0-91.5
50% solution in an organic solvent of fluorine-containing oligomer 8-14
Cyclohexylamine Chromate 0.5-1.0

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