SU1090696A1 - Coating composition - Google Patents

Abstract

1. COMPOSITION FOR COATINGS, including film forming, water-soluble filler, pigments and organic solvent, which is due to the fact that, in order to improve the physicomechanical and diffusion properties of the coating, it will contain as a film-forming polyvinyl acetate and rosin with the following ratio of components , ma.ch .: 100 Polyvinyl acetate 50-100 Rosin Water soluble fill 200-300 tel. 40-80 Pigments &} Organic 1500-2400 solvent 2i Composition according to claim 1, characterized in that, in the case of using organic pigments or carbon black, it additionally contains 3040 wt. H. dibutyl phthalate. WITH; O5 D)

Description

110 The invention relates to coatings for protection against fouling of a variable waterline of vessels, in particular to coatings regulating the rate of leaching of biocides from the anti-fouling coating. One way to increase the life of an antimicrobial coating is to reduce the excessively high initial velocity of leaching to

nor biocides from the anti-fouling coating by applying a biocide-permeable coating to it. Compositions are known For coatings that regulate the rate at which the biocides from the anti-fouling coating are used, based on hydrophilic polymers, for example, silicone rubber, type D.1.2. the coat layer. The closest to the invention to the technical essence and the achieved result is a composition for coatings, including film-forming (copolymer of vinyl chloride with vinyl acetate), water-soluble filler (sodium fluoride), pigments and organic solvent C2 J. However, the known composition of the coating with low physico-mechanical kimi and diffusion properties. The aim of the invention is to improve the physicomechanical and diffusion properties of the coating. The goal is achieved by the fact that the composition for coatings, including film-forming, water-soluble filler, pigments and organic solvent, contains as film-forming polyvinyl acetate and rosin in the following ratio of components, wt. Organic Pigments 1500-2400 solvent

anti-fouling coating as a result of reducing the porosity of the surface layer. The content of water-soluble fillers is chosen as follows 96 Furthermore, in the case of using organic pigments or carbon black, the composition additionally contains 3040 May, h. dibutyl phthalate. With an increase in the rosin content, the physicomechanical properties of the coatings and the resistance of the coating to erosion by the flow of water decrease. Reducing the rosin content results in a marked decrease in efficiency so that the total porosity of the surface layer is greater. high enough and provided the necessary rate of diffusion of the biocide, but the volume content of pigments and fillers in the initial film did not exceed 40%. Otherwise, the physicomechanical properties of the coating decrease, brittleness and rigidity increase. The limits of the content of solvents are chosen in such a way as to provide the necessary technological characteristics of the composition when applied by spraying. Inorganic compounds with a solubility of not less than 10 g / l, for example boric acid and its salts, copper sulfate, sodium fluoride and others, are used as a water-soluble filler. Chromium oxide, zinc oxide, iron oxide, organic pigments and dyes, carbon black are used as pigments. Solvents P-4 and P-5 or their mixture with cyclohexanone or ethanol are used as the organic solvent. The composition is made by co-dispersing all the components, for which equipment of any type used in the manufacture of paints and varnishes, for example ball or bead mills, is used. The finished composition is applied to the surface of any anti-fouling coating (XB-5153, XB-5243, XC-79, and others) using a paste (air or airless) thickness of 25-35 µm. The resulting compositions are given in table. 1, the properties of the compositions and coatings - in table. 2

Table 1

Polyvinyl acetate Rosin

Vinyl copolymer with vinyl acetate

Boric acid. Sodium fluoride

Copper sulfate is waterless

Chromium Oxide Zinc Oxide

Pigment yellow lightfast

Green phthalocyanine pigment

Soot

Iron Minium

Scarlet pigment

Xylene

Acetone

Butyl acetate

Toluene

Cyclohexanone

Ethanol

Methyl ethyl ketone

Dibutyl phthalate

100 50

100 100 100 75 50 100

100

200

340

250

300

45 20

25 15

20

ten

34

65

- 3D. 20

1100

950

1100

450 500 370 700

195 300 180 200 250

ooo

150

300

195

thirty

AO

35 Odnoro Appearance Color of composition Green Degree of grinding in a wedge, µm Drying time to degree 3 at 26-30 5 Strength at impact, J 1 Flexural strength, mm Adhesion strength to enamel В-5153; ball Hardness of coating according to M-3, standard-unit, through

The leaching rate of a biocide in an anti-fouling coating without a surface coating is: after 0.5 h 4200, after 2 h 31, after 5 h 15.

The degree of milling (GOST 6589) is 74, drying time is according to GOST 19007-73, etc. (| impact upon impact. According to GOST 4765-73, flexural strength according to GOST 6806-73, adhesive strength - according to GOST 15140-78 hardness - according to GOST 6683-75. b

Evaluation of the diffusion properties of the coatings is carried out on the bench. A protective coating is applied on glass plates according to the scheme: an anti-fouling coating (enamel XB 5153) 2 layers, and (as a biocide - copper sulphate) a surface coating 1 layer. bottom moving mass without sediment Red Black Green Black 20-30 5 1 71 The dried plates are kept in artificial seawater with occasional stirring. The amounts of copper in the extractant are determined by the color metric method. Sampling for analysis is performed 0.5, 2 and 5 after the start of the experiment. From tab. 2 shows that the leaching kinetics of a biocide from an anti-fouling coating without a surface layer is characterized by a high initial rate of etching and a sharp decrease in it within 2 hours. The application of the surface layer by a known method leads to a decrease in both the initial and subsequent leaching rates, speed

The composition according to example 1-1 layer

3. XB-5153 - 2 layers

Known composition - 1 layer

Bench tests show that deposition on the & surface layer according to the invention increases. the duration of the effective action of the coating XB-5153, and the color of the surface layer remains unchanged. 1-3%

3-5%

15-20%

0-3%

Sn t with test

The composition fully retains its properties during storage for 7 months. The resulting precipitate is easily mixed by hand for 5 to 10 minutes. 6 leaching reaches a low value. When applying the surface layer according to the invention, there is also a decrease in the initial leaching rate, but later on it approaches a stationary value. To determine the service life of the protective coating, plates coated with XB-5153 anti-aging paint are coated with the test composition and, after accelerated aging on a rotary unit, are subjected to a stand test during one summer fouling season. Coverage assessment is made according to the size of the treatment (% of the total sample area). The results are shown in Table. 3. Table 3

Claims (1)

1. COMPOSITION FOR COATINGS, including a film-forming, water-soluble filler, pigments and an organic solvent, characterized in that, in order to improve the physicomechanical and diffusion properties of the coating, it contains polyvinyl acetate and rosin as a film-forming the following ratio of components, ma.h .: Polyvinyl acetate 100 Rosin 50-100 Water soluble tel 200-300 Q Pigments 40-80 £ Organic solvent 1500-2400 2. The composition according to p. 1, distinguish FROM c and th c i in that case use- ' organic pigments or to "in* soot it extra contains 30- 40 m.h. dibutyl phthalate. ABOUT - with to A I