RU2424265C1 - Aqueous-dispersion anticorrosion base coat - Google Patents

Abstract

FIELD: chemistry. ^ SUBSTANCE: base coat contains an acrylic dispersion, anticorrosion pigments and filler materials, a dispersing agent, a thickener and water. In order to improve anticorrosion properties of the coating, the base coat contains a water-soluble corrosion inhibitor mixture of potassium octadecanoate, tripotassium phosphate, 2,2',2"-nitrilotriethanol and a surfactant - technical mixture of polyethyleneglycol ethers of monoalkylphenols, which improves wettability and adhesion of the paint coat to metal surfaces. ^ EFFECT: high environmental safety during painting and good anticorrosion properties of the coating when used in aggressive atmospheric conditions. ^ 1 tbl

Description

The invention relates to water-dispersion paints and varnishes intended for protection against corrosion of metal surfaces operated in aggressive atmospheric conditions, including in conditions of high humidity. It can be used as a primer and as an independent paint coating. Primer enamel includes acrylic dispersion, anti-corrosion pigments and fillers, dispersant, thickener and water. To increase the anticorrosion properties of the coating, a water-soluble organic corrosion inhibitor based on a mixture of phosphates of sodium and potassium salts of fatty carboxylic acids and amino compounds and a surfactant based on ethoxylated alkyl phenols of propylene trimmers, which improve the wettability and adhesion of the metal paint surface, are used to enhance the anticorrosion properties of the coating. EFFECT: increased environmental safety during paint work and high anticorrosion properties of the coating in aggressive atmospheric conditions, including in conditions of high humidity.

Currently, there are water-dispersed paints and varnishes for construction purposes on the market, including for the corrosion protection of metal surfaces [patents RU 94032085, RU 2268275, RU 2260608, RU 2017774, US 2009078158, WO 2008031603, CN 101045843, Lobkovsky V.P. and others, LKM No. 4/1999, p.7]. The use of phosphoric acid and its compounds makes it possible to obtain an anti-corrosion coating on corroded metal surfaces, however, these coatings have poor adhesion and insufficient service life in atmospheric conditions (no more than 2-3 years). The use of pigments based on chromium-containing compounds (crown phosphate-calcium, chromate and zinc tetraoxychromate and others) in the composition of aqueous dispersion materials increases the anticorrosive properties of the paint coating. However, chromium compounds are highly toxic. Compounds widely used to reduce the toxicity of anticorrosion coatings are various salts of phosphoric acid (phosphates of zinc, aluminum, barium, calcium, and others). The experience of using phosphate pigments in anticorrosion coatings showed that, due to their low solubility, they are ineffective in the initial stages of the development of film-like corrosion [Wienand Y. Ostertag W. Farbe und Lack, 1982, d.88, No. 3, s.183-188] .

Many corrosion inhibitors in the form of aqueous solutions provide protection of metals due to the formation of a thin nanoscale film of insoluble complex compounds with metal cations [Kuznetsov Yu.I. Physico-chemical aspects of the protection of metals from corrosion by nano- and micro-sized coatings: Dokl. International Conference "Physicochemical Foundations of the Latest Technologies of the 21st Century". M., May 30 - June 4, 2005]. The formation of self-ordered monolayers on a metal surface is one of the areas of practical application of nanotechnology in the field of corrosion protection [Kalman Erica, Korroz.Figy. 2007, 47, No. 4, pp. 98-101]. The use of corrosion inhibitors in paints and varnishes does not always give a positive effect, since it reduces adhesion to the metal.

Replacing toxic pigments with low-toxic corrosion inhibitors, which allow obtaining nanoscale protective films on a metal surface while maintaining the level of adhesive properties of the paint coating, is relevant.

Closest to the claimed invention and adopted as a prototype is the primer-enamel water-dispersion anti-corrosion series "Cronacryl" (patent of the Russian Federation RU 2223996 C1, MKI C09D 5/12, C09D 5/10, C09D 133/00). The composition includes acrylic dispersion, tinting paste, dispersant, thickener and water, and phosphate-calcium crown as an anti-corrosion pigment. The use of phosphate-calcium crown in soil-enamels provides passivating activity in the interaction of phosphatochromats with a metal substrate of both ferrous and non-ferrous metals, providing cathodic and anodic protection.

The disadvantages of this composition include the high toxicity of chromium compounds.

The objective of the invention is the creation of low-toxic nanoinhibited water-dispersed anti-corrosion primer-enamel with a high level of anticorrosive properties in aggressive atmospheric conditions with high humidity.

This object is achieved by the fact that in addition to low-toxic zinc phosphate, a water-soluble organic corrosion inhibitor of a passivating type that does not contain chromium compounds and a surfactant that provide an adhesion-inhibiting effect are introduced into the composition of water-dispersed soil-enamel instead of calcium phosphate crowns on a metal surface.

The acrylic dispersion is an acrylic dispersion modified with versatic esters of Finndisp RSD 20 brand from Forcit (Finland), an acrylic dispersion of Mowilit DM 777 brand from Celanese Emulsion GmbH (Germany) or any other acrylic and modified acrylic dispersion variance. The composition of the acrylic dispersion includes coalescing additives butyl glycol [TU 6-01-648-78]; 2- (2-butoxy) ethoxyethanol [butyldiglycol], Union Carbide Benelux N.V. (United States); 2,2,4-trimethyl-1,3-pentadiolmonoisobutyrate [Texanol brand] from Eastman Chemical Company (USA) and others. It is preferable to use a mixture of texanol and butyldiglycol in a ratio of 4: 1.

The dispersant used is the ammonium salt of a polymer carboxylic acid of the Dispex A40 brand (Forcit company (Finland), an aqueous solution of the modified Dispers 750W polymer of the company Evonik Tego Chemie GmbH (Germany) or any other wetting and dispersing additives for water-dispersion industrial paints.

As a thickener, carboxymethyl cellulose thickeners such as methylhydroxypropyl cellulose, polyurethane thickeners such as Tafigel PU 60 from Munzing Chemie GMBH (Germany), or any other thickeners for water-dispersible industrial paints are used.

Phosphates, zinc oxides, iron oxide pigments are used as anti-corrosion pigments. As fillers, natural (chalk, marble, limestone) or precipitated calcium carbonate, or any other fillers for water-dispersed industrial paints, are used.

As a water-soluble organic corrosion inhibitor, a mixture of potassium octadecanoate, tripotassium phosphate, 2,2 ', 2 "-Nitrilotriethanol [TU 37-111-1-39-03" Passivating composition IFKHAN-39ALG "] is used. This inhibitor is used as corrosion inhibitors during prolonged preservation of metal products.The inhibitory effect is due to electron-donating properties that contribute to the chemisorption of the inhibitor and the formation of sparingly soluble complexes of the protected metal with organic compounds. Torr starts to operate immediately when forming paintwork due to its water-soluble form.

Surfactants (surfactants) are substances whose adsorption from a liquid at the interface with another phase (liquid, solid or gaseous) leads to a significant decrease in surface tension. This property of surfactants is used to improve the wettability of pigments when dispersed in an aqueous medium. As surfactants used are ethoxylated alkyl phenols based on propylene trimmers, which are a technical mixture of polyethylene glycol ethers of monoalkyl phenols of the following composition [TU 2483-077-05766801-98 "Neonols. Specifications "]:

C ₉ H ₁₉ C ₆ H ₄ O (C ₂ H ₄ O ) _n H,

where C ₉ H ₁₉ is an isononyl alkyl radical attached to phenol mainly in the para position to the hydroxyl group;

n is the average number of moles of ethylene oxide attached to one mole of alkyl phenols equal to 6.

The use of this surfactant not only improves the wettability of the pigments during dispersion, but also increases the wettability of the metal surface with a passive layer of corrosion inhibitor, thereby improving the adhesion of the paint coating. This is due to the presence of hydrophilic ether and hydroxyl groups in the neoinogenic surfactant. In this case, the compound does not dissociate into ions in water, contains a mobile phenolic atom that reacts with ethylene oxide, which determines its polarity. The surfactant forms an adsorption layer with hydrophobic radicals to the surface of the particles of the corrosion inhibitor, and hydrophilic groups in the direction of the aqueous dispersion. The equilibrium thickness of the adsorption layer can reach from 10 to 20 nm and depends on the degree of hydroxyethylation of the surfactant and its concentration.

The novelty of the technical solution is determined by the selection of components in optimal quantities, capable of forming thin nanoscale films of complex compounds on the metal surface when the paint coat dries, improving the adhesion of the coating to the metal and its anticorrosion properties.

An example of the implementation of this invention can serve as a method of obtaining a water-dispersed anti-corrosion primer-enamel, carried out by the applicant.

Anticorrosion pigments and fillers, surfactants, a corrosion inhibitor, a dispersant and a thickener are loaded into the bead mill capacity in a prescription quantity and dispersed until the milling degree of the wedge device reaches not more than 30 microns. The ground mixture is fed into the mixer and a prescription amount of acrylic dispersion is added. Stir the mixture for 20-30 minutes. Next, the soil-enamel is checked for quality indicators.

To compare the properties of the paint coating were made of the composition of the soil-enamel according to the claimed invention. Soil-enamel compositions were applied onto plates of 08kp steel, 150 × 70 × 1 mm in size, thoroughly cleaned from grease. Application method - pneumatic spraying. The compositions were applied in 2 layers with drying of each coating layer at a temperature of 20 ± 2 ° C for 1 h. Before testing, the resulting coatings were kept at a temperature of 15-30 ° C and air humidity of not more than 80% for 14 days.

Examples of primer-enamel according to the invention are shown in table 1.

Table 1 Name of ingredients The prototype according to Pat. RU 2223996, wt.% The quantitative composition (content of ingredients), wt.% Examples of the invention one 2 3 four 5 6 7 1 Acrylic dispersion 30-50 thirty 35 40 40 45 45 45 2 Crown phosphate-zinc 0.1-20 - - - - - - - 3 Tinting paste 1-10 - - - - - - - 4 Anticorrosive pigments and fillers, including zinc phosphate - 25 25 25 31 31 31 31 10 5 5 5 5 5 5 5 Dispersant 0.1-1.0 0.1-1.0 0.1-1.0 0.1-1.0 0.1-1.0 0.1-1.0 0.1-1.0 0.1-1.0 6 Thickener 0.05-0.2 0.05-0.2 0.05-0.2 0.05-0.2 0.05-0.2 0.05-0.2 0.05-0.2 0.05-0.2 7 surfactants - 0.05 0.1 0.1 0.3 0.3 0.5 0.5 8 Water-soluble organic corrosion inhibitor - 0 0.25 0.5 0.75 1,0 1,5 2.0 9 Water Rest Rest The indicators used to characterize the composition: 1 Adhesion, points (according to GOST 15140-78, section 2) 1 ^*) four one one one one one 2 2 Adhesion, points (according to GOST 15140-78, section 4) - 3 ₁ 1 ₁ 1 ₁ 1 ₁ 1 ₁ 2 ₁ 2 ₁ 3 Film bending strength, mm (according to GOST R 52740-2007) one 3 3 one one one one 3

Name of ingredients The prototype of US Pat. RU 2223996, wt.% The quantitative composition (content of ingredients), wt.% Examples of the invention one 2 3 four 5 6 7 4 Film strength upon impact, kgf × cm (according to GOST R 53007-2008) - fifteen fifteen fifty fifty fifty 25 25 5 Resistance to static action of a 3% NaCl solution at a temperature of (20 ± 2) ° С, h (according to GOST 9.403-80) 55 5 5 72 72 72 48 48 6 Resistance to static action of water at a temperature of (20 ± 2) ° С, h (according to GOST 9.403-80) 300 120 240 1500 1500 1500 720 720 7 Duration
tests for resistance to the effects of variable temperature, high humidity and solar radiation, cycles (according to GOST 9.401-91, method 5) - fifteen 25 fifty fifty 60 40 40 8 Assessment of appearance after testing for resistance to the effects of variable temperature, high humidity and solar radiation, point (according to GOST 9.407-84) - A32 A32 A32 A32 A32 A32 A32 9 Declared service life in a temperate climate, years (according to GOST 9.401-91, appendix 10) 3,5-5 2 3 6 6 7 four four

For comparison, the adhesive strength of the paint coating with the metal surface according to the claimed invention, adhesion was determined according to GOST 15140-78, sections 2 and 4, the film strength in bending according to GOST R 52740-2007 and the impact strength according to GOST R 53007-2008. For comparison, the anticorrosive properties of the paint coating evaluated the film's resistance to the static effects of water and a 3% NaCl solution at a temperature of 20 ± 2 ° C, resistance to variable temperatures, high humidity and solar radiation according to GOST 9.401-91, method 5. Predicted term paintwork services in a temperate climate according to the claimed invention was determined in accordance with Appendix 10 of GOST 9.401-91.

The adhesion and service life in a temperate climate according to the prototype was taken according to the declared indicator of technical conditions for Kronakril enamel TU 2316-002-57771065-2003 and for Kronakril-ZhD paint TU 2316-008-13938162-2004.

The proposed water-dispersion anti-corrosion primer-enamel in comparison with the prototype has the best anti-corrosion properties. Primer enamel does not contain chromium compounds. The use of primer-enamel according to the claimed invention for the protection of large-sized metal structures provides high anticorrosion properties of the coating in aggressive atmospheric conditions and environmental safety when carrying out painting work.

Claims (1)

Water-dispersive anticorrosive primer-enamel, including aqueous acrylic dispersion, anticorrosive pigments and fillers, dispersant, thickener, nonionic surfactant, water-soluble organic corrosion inhibitor and water, characterized in that it contains a technical mixture of polyethylene glycol as a nonionic surfactant monoalkylphenol esters:
C ₉ H ₁₉ C ₆ H ₄ O (C ₂ H ₄ O) _n H,
where C ₉ H ₁₉ is an isononyl alkyl radical attached to phenol mainly in the para position to the hydroxyl group,
n is the average number of moles of ethylene oxide attached to one mole of alkyl phenols equal to 6,
as a water-soluble organic corrosion inhibitor contains a mixture of potassium octadecanoate, tripotassium phosphate, 2,2 ', 2 "-Nitrilotriethanol, the composition of water-dispersed anticorrosive primer-enamel, wt.%:
Acrylic Dispersion 40 ÷ 45 Anticorrosive pigments and fillers 25-31 Dispersant 0.1 ÷ 1.0 Thickener 0.05 ÷ 0.2 Surface-active substance 0.1 ÷ 0.3 Water Soluble Organic Corrosion Inhibitor 0.5 ÷ 1 Water rest