SU1293133A1 - Composition for applying coating on glass - Google Patents

Abstract

The invention relates to compositions for applying protective hydrophobic coatings and can be used for protection against the effects of aggressive media and microscopic fungi of various glass products used in electronic, optical, chemical and other processes of 1-1 degree. The invention allows to increase the fungus resistance and resistance to aggressive media by introducing into the composition of the following components, wt%: polyphenylsiloxane varnish 90-95; Tris- (trimethylsilyl) borate 5-10. 4 tab. at

Description

The invention relates to compositions for applying protective hydrobial coatings and can be used for protection against the effects of aggressive media and microscopic fungi of various glassware used in the electronic, optical, chemical, and other industrial environments.

The purpose of the invention is to increase the fungus resistance and resistance to aggressive media.

The polyphenylsiloxane varnish used is a toluene solution of an organosilicon resin of the general formula, 5l grade KO-85, R / Si ratio 1.0, C content 56.4; H 6.6; Si 13.3.

The said coating composition is prepared by mixing 90-95% polyphenylsiloxane varnish and 5-10% tris (trimethylsilyl) borate, and the mixing sequence of the components can be any. The prepared composition is applied to the glass by immersion and heat-treated at 130-150 ° C for 1-1.5 hours.

Specific coating compositions and heat treatment conditions for protective coatings are shown in Table 1.

The hydrophobicity of the coatings is estimated by the magnitude of the wetting angle, which is determined by the standard method. Relative hardness is determined on an ME-3 instrument, and microhardness is determined on a PMT-3.

The properties of the coatings are presented in table. 2

The coatings obtained are tested in aggressive media. The chemical resistance of the hydrophobic coatings is estimated by the change in the wetting angle of the water (Table 3).

Tests on the stability of protective coatings against micro

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Copies of fungi are carried out using 9 species of fungi. The tests are carried out at 29 ± 2 ° C and 98-100% relative humidity. Evaluation of the lesion by microscopic fungi coatings is assessed on a 6-point scale after 28 days. exposure.

The results of the tests for mushroom resistance and heat resistance are presented in table. four.

Thus, as a result of the research conducted, it has been established that the film-forming composition makes it possible to obtain coatings which, in comparison with the known, are resistant to aggressive media; less susceptible to microscopic fungi for known coatings, the damage score is 4-5 points higher; allow to increase by 2-8 the number of heat changes of the modified glass products. In addition, coatings have a greater (by 27–30) hydrophobicity, as well as microhardness not lower than the base coat.

The proposed film-forming composition allows to obtain coatings with enhanced performance properties.

Claims (1)

Invention Formula A glass coating composition comprising a polyphenylsiloxane-new lacquer and an organo-elemental boron compound, characterized in that it contains tris (trimethylsilyl) as an organo-elemental boron compound in order to increase mushroom resistance and resistance to aggressive media. borate in the following ratio, wt.%: Polyphenylsiloxane varnish 90-95 Tris- (trimethylsilyl) borate 5-10 90 92 94 90 94 95 Table 1 ten 140 1.2 140 i, 2 140 1.5 ten 130 1.2 130 1.5 130 1.5 table 2 Tab faces Editor I. Casard Order 340/24 Compiled by G. Burovtseva Tehred I.Popovich Proofreader A.T. Circulation 428 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 Table 4