RO121642B1 - Systems of anticorrosive and antidetection painting for aviation technique - Google Patents

Abstract

The invention relates to a system for anticorrosive and antidetection painting, used for protecting and measuring military planes against examination with detection apparatuses, especially optically visible and close infrared. According to the invention, the systems consist of 1...3 layers of anticorrosive primer based on polyaminoamide resin cross-linked with epoxy resin of average molecular mass of 1...2 layers of intermediary paint, based on polyaminoamide resin cross-linked with epoxy resin with average molecular mass, containing a mixture of pigments with infrared-antidetection properties and 1...2 layers of paints with light green, dark green, dull yellow, brown, grey and blue colour pigmentation, based on epoxy-polyamide resins and with a composition of 45...75 parts, by weight, of non-volatile substances, polyaminoamide resin reticulated with epoxydic resin.

Description

The invention relates to anti-corrosion and anti-detection paint systems, used for the protection and masking of military aircraft against optical detection (visible and near infrared A = 0.4 - 2.0 pm).

The deformation masking of the military technique is considered by the military specialists to be one of the most efficient methods of integrating it into the environment.

Paint systems are known for anticorrosive protection of painted surfaces, which also provides protection against research with detection equipment and are based on different resins depending on the substrate applied (iron, special steels, aluminum, aluminum alloys) (magazine Defense, vol. 18, no. 5,1988). Thus, compositions of camouflage paints based on phenolic, polyurethane type resins (BG102546) or polymerization resins such as polyacrylic, polyvinyl, polyvinyl chloride or vinyl polyacetate (GB 936080) are known. different types of pigments and metal salts, in order to improve the reflection of the paint substrate in the visible and near infrared.

The technical problem that the present invention aims to solve is to ensure both the corrosion protection of the painted surfaces and the masking of military aircraft against research with detection equipment in the wavelength range A = 0.4 - 2.0 pm and an appropriate matte grade.

The anti-corrosion and anti-detection paint systems for the aviation technique, according to the invention consist of: 1 ... 2 layers of anticorrosive primer, based on cross-linked polyamino-amide resin with medium molecular weight epoxy resin and whose composition is of

50 .. .70 parts by weight non-volatile substances and 30 ... 50 parts by weight mixture of organic solvents, and the ratio of mixing of the basic component with the hardener is 100: 20 ... 28; 1 ... 2 layers intermediate paint, based on cross-linked polyaminoamide resin with medium molecular weight epoxy resin and whose composition is of

45 .. .65 parts by weight non-volatile substances (polyaminoamide resin, pigments with infrared detection properties, fillers) and 35 ... 55 parts by weight mixture of organic solvents, and the mixing ratio of the basic component with the hardener is 100: 18 ... 25 and 1 ... 2 coats with special pigmentation in light green, dark green, dull yellow, brown, dark gray and blue based on epoxy-polyamide resins and with a composition of 45. .75 parts by weight non-volatile substances (polyaminoamide resin, mixture of pigments with anti-detection properties and providing the final matte degree) and 25 ... 55 parts by weight mixture of organic solvents, and the ratio of mixing of the basic component with the hardener is 100: 45 ... 70.

Epoxy-polyamide anti-detection paints can be made in the following colors: dark green, dark green, dull yellow, brown, dark gray, blue. The pigments with anti-detection properties used to obtain these colors are: titanium dioxide, phthalocyanine blue, medium chromium yellow, green chromium oxide, iron red oxide, smoke black.

The object of the present invention has the following advantages:

- it can dry at room temperature and humidity;

- ensures the anti-corrosive protection of the support that is applied (alloys specific to the aviation industry) and adhesion between the component layers of the system;

- ensures the masking of the support against the research with detection equipment in the optical spectrum (visible and near infrared A = 0,4 - 2,0 pm);

- ensures the elasticity of the films of the painting system of 2 ... 3 mm;

- ensures the degree of matt of the system max. 2.5;

- shows resistance to sudden temperature variations in the range -55 * + 60 ° C;

- shows chemical resistance to aggressive chemical environments, especially to fuels and lubricants used in aviation;

- shows resistance to salt mist from min. 192 h;

- it does not propagate the combustion;

- can be applied on both new and painted surfaces.

RO 121642 Β1

The paints of the system being in two components, with air drying, have a special resistance 1 to the physical-mechanical, climatic factors, good resistance in aggressive chemical environments and special environmental conditions (sudden temperature variations) to which the 3 aviation technique is subjected. in flight.

Paint systems for aviation technology are compatible with the support on which 5 is applied and ensure both the corrosion protection of the painted surfaces, by using the anticorrosive primer and the entire painting system, as well as the camouflage of the flying devices against 7 spectroscopic recognition with detection equipment. specific (night vision infrared apparatus such as electron-optical glasses, infrared binoculars, 9 infrared cameras) in the wavelength range A = 0.4 - 2.0 pm, using special pigmented paints , respectively of the pigments with anti-detection properties. Pig- 11 mentions with anti-detection properties are pigments, which reflect or absorb light, in the visible and near infrared regions of the optical spectrum. Thus, the ordinary pigments in the 13 paint layers are replaced by pigments which are good reflectors or near-infrared absorbers. The resulting paint layers act by controlling the absorption or reflection of incident solar radiation. These layers operate predominantly in the visible region and in the near infrared region. The infrared band from the solar emission and the infrared radiation 17 absorbed and emitted respectively by these layers of paint fall within the wavelength range A = 0.7 - 2.0 pm. In general, the infrared spectrum is divided into the 19 near infrared region of the domain A = 0.7 - 2.0 pm and the thermal infrared region of the range A = 3.0 -14.0 pm. The visible region of the electromagnetic spectrum is in the range 21 A = 0.4 - 0.7 pm.

The paint systems, according to the invention realized for the aviation technique, ensure its protection against detection in the near visible and infrared spectral domain and the anticorrosive protection of the painted surfaces, constituting an excellent camouflage means 25 against the visible and near infrared spectroscopic recognition. effective in the natural environment. 27

Thus, the anticorrosive primer by its composition gives increased protection to the surfaces on which it is applied and resistance to environmental corrosive agents. It increases the resistance to support 29 of the following layers.

The intermediate paint provides a high level of the spectral reflection characteristic 31 and represents a screen layer for masking paints. This gives increased physico-mechanical strength and good adhesion to the next layers. 33

Specially pigmented paints ensure a spectral, chromatic and glossy similarity with the generalized elements of the natural environment, and 35 of the four groups of the natural environment elements investigated have been chosen to be predominant - vegetation in our country (green vegetation, dry vegetation, trees and soil elements). 37 below are three examples of embodiments of the invention.

Example 1. A painting system is made up of: 39

- a layer of anticorrosive primer (layer 1), based on a polyaminoamide resin whose composition is 55 parts by weight non-volatile substances (polyaminoamide resin and 41 anticorrosive pigments) and 45 parts by weight of organic solvent mixture, which cross-links with the mixture with the component component (epoxy resin) of average molecular weight in the ratio of curing 43 100: 21;

- a layer of intermediate paint (layer 2), consisting of 46 parts by weight 45 non-volatile substances (polyaminoamide resin, pigments with anti-detection properties and fillers) and 54 parts by weight of organic solvent mixture, cross-linking with 47 curing component (epoxy resin) of average molecular weight in the curing ratio 100: 18. The pigments with anti-detection properties, near infrared reflection, used to obtain the color of the intermediate layer are: titanium dioxide, zinc oxide, barium sulphate;

RO 121642 Β1

- a coat of special pigmented paint (layer 3) with a composition of 47 parts by weight non-volatile substances (polyaminoamide resin and pigments with anti-detection properties) and 53 parts by weight mixture of organic solvents, and the mixing ratio of the basic component with the hardener is 100: 46 (fig. 1). To achieve the light green color a pigmentation recipe is used which includes the following pigments: 80 parts by weight titanium dioxide, 12 parts by weight green chromium oxide, 5 parts by weight yellow iron oxide, 3 parts by weight medium yellow chromium. Both the pigments and the final color obtained, respectively, the pigment mixture have anti-detection, near-infrared reflection properties A = 0.4 - 2.0 pm. To achieve the dark green color a pigmentation recipe is used which includes the following pigments: 82 parts by weight green chromium oxide, 10 parts by weight yellow iron oxide, 7 parts by weight medium yellow chromium, 1 part by weight phthalocyanine blue. Both the pigments and the final color obtained, respectively, the pigment mixture have anti-detection, near-infrared reflection properties A = 0.4 - 2.0 pm.

Example 2. A painting system is made up of:

- a layer of anticorrosive primer (layer 1), based on a polyaminoamide resin whose composition is 60 parts by weight non-volatile substances (polyaminoamide resin and anti-corrosive pigments) and 40 parts by weight of organic solvents, which cross-link with the curing component ( epoxy resin) of average molecular weight in the curing ratio 100: 25;

- two layers of intermediate paint (layer 2), made up of 50 parts by weight non-volatile substances (polyaminoamide resin, pigments with anti-detection properties and fillers) and 50 parts by weight of organic solvent mixture, which cross-links with the curing component epoxy) of average molecular weight in the curing ratio 100: 20. The pigments with anti-detection properties, near-infrared reflection, used to obtain the color of the intermediate layer, are: titanium dioxide, zinc oxide, barium sulphate;

- two coats of special pigmented paint (layer 3) with a composition of 52 parts by weight non-volatile substances (polyaminoamide resin and pigments with anti-detection properties that ensure the final matte degree) and 48 parts by weight mixture of organic solvents, and the ratio of mixing of the basic component with the hardener is 100: 58 (fig. 2). To achieve the dull yellow color, a pigmentation recipe is used which includes the following pigments: 58 parts by weight iron oxide yellow, 15 parts by weight iron red oxide, 15 parts by weight yellow chromium medium, 12 parts by weight titanium dioxide. Both the pigments and the final color obtained, respectively, the pigment mixture have anti-detection, near-infrared reflection properties A = 0.4 - 2.0 pm. To achieve the brown color a pigmentation recipe is used which includes the following pigments: 76 parts by weight red iron oxide, 14 parts by weight yellow iron oxide, 10 parts by weight green chromium oxide. Both the pigments and the final color obtained, respectively, the pigment mixture have anti-detection, near-infrared reflection properties A = 0.4 - 2.0 pm.

Example 3. A painting system is made up of:

- two layers of anticorrosive primer (layer 1), based on polyaminoamide resin, whose composition is 70 parts by weight non-volatile substances (polyaminoamide resin and anti-corrosive pigments) and 30 parts by weight of organic solvents, which cross-link with the component with the mixture. epoxy resin) of average molecular weight in the curing ratio 100: 28;

- two layers of intermediate paint (layer 2), made up of 65 parts by weight non-volatile substances (polyaminoamide resin, pigments with anti-detection properties and fillers) and 35 parts by weight of organic solvents, which cross-link

RO 121642 Β1 mixed with the curing component (epoxy resin) of average molecular weight in 1 curing ratio 100: 25. Pigments with anti-detection, near-infrared reflection properties, used to obtain the color of the intermediate layer are: titanium dioxide, oxide of 3 zinc, barium sulphate;

- two coats of special pigmented paint (layer 3) with a composition of 5 75 parts by weight non-volatile substances (polyaminoamide resin and pigments with anti-detection properties and which ensure the final matte degree) and 25 parts by weight of 7 organic solvents, and the mixing ratio of the basic component with the hardener is 100: 70 (Figure 3). To achieve the dark gray color a pigmentation recipe is used which includes the following 9 pigments: 72 parts by weight black smoke and 28 parts by weight titanium dioxide. Both the pigments, as well as the final color obtained, respectively the pigment mixture have 11 anti-detection properties, near infrared reflection A = 0.4 - 2.0 pm. To achieve the blue color, a pigmentation recipe is used which includes the following pigments: 98.5 parts by weight 13 titanium dioxide, 1 part by weight blue phthalocyanine, 0.5 parts by weight black smoke. Both the pigments and the final color obtained, respectively the pigment mixture, have 15 anti-detection properties, near infrared reflection A - 0.4 - 2.0 pm.

Claims (3)

1. Anti-corrosion and anti-detection paint systems for aviation technology, based on synthetic resins in combination with pigments with anti-detection properties, characterized by the fact that they are composed of: -1 - 2 layers of anticorrosive primer, based on cross-linked polyaminoamide resin with 23 medium molecular weight epoxy resins, whose composition is 50 ... 70 parts by weight non-volatile substances and 30 ... 50 parts by weight organic mixture of solvents , and the mixing ratio of the basic component to the hardener is 100: 20 ... 28; -1 - 2 layers intermediate paint, based on cross-linked polyamine amino acid resin with 27 medium molecular weight epoxy resins, whose composition is 45 ... 65 parts by weight non-volatile substances (polyaminoamide resin, pigment mixture with 29 antidetection properties infrared, filler materials) and 35 ... 55 parts by weight organic solvent mixture, and the ratio of mixing of the basic component with the hardener is 31 100: 18 ... 25. -1 - 2 coats of paints with special pigmentation in light green, dark green, 33 dull yellow, brown, dark gray and blue based on epoxy-polyamide resins and with a composition of 45 ... 75 parts by weight non-volatile substances (polyamine amino resin, a mixture of pigments 35 with anti-detection properties and which ensures the final matte degree) and 25 ... 55 parts by weight mixture of organic solvents, and the mixing ratio of the basic component with 37 the hardener is 100: 45. ..70. 2. Anti-corrosion and anti-detection paint systems, characterized in that pigments with near-infrared reflection properties, used to obtain the color of the intermediate layer, are chosen from: titanium dioxide, zinc oxide, barium sulphate; 41 3. Anti-corrosion and anti-detection paint systems characterized by the fact that pigments with anti-detection properties in the special pigmented paint layer used to obtain the colors green-light, green-dark, dark yellow, brown, dark gray and blue are chosen from: dioxide titanium, phthalocyanine blue, medium chromium yellow, green chromium oxide, 45 iron red oxide, yellow iron oxide, smoke black.