RU2060261C1 - Hydroinsulating composition for capacity construction coating - Google Patents

Abstract

FIELD: building, paint and varnish industry. SUBSTANCE: composition has, %: impact-strength polystyrene or its waste 20-50; dimethyphthalate 3-6; colophony glycerol ester 2-7; carbonic acid diethyl ester 5-15, and toluene - the rest. Polystyrene or its waste were poured with solvent. Mixture is kept for 24 hr for swelling and the following polystyrene dissolving and stirred for about one hour. Mixture is brought about to the working dissolving - the complete polystyrene granules dissolving. Composition is used for hydroinsulating coating making. EFFECT: enhanced quality of composition. 7 tbl

Description

 The invention relates to the field of production and application of compositions based on polystyrene, intended for waterproofing coatings, mainly on the surface of concrete and liquid capacitive structures for drinking water, and can be widely used in industry, civil and road construction.

Known composition for coating, consisting of polystyrene grades UPM-0503 or UPM-0509 and an organic solvent and applied by spraying on the inner surface of concrete structures with one or more layers [1]
The disadvantages of this technical solution are low elasticity and strength of the coating, insufficient adhesion of the coating to the concrete surface, the possibility of formation and coating of cracks, delaminations, peeling, chips and fistulas when coating the concrete surface with high humidity and when exposed to alternating temperatures, low aesthetics of the coating.

Closest to the invention in technical essence is a waterproofing composition for coating capacitive structures of drinking water supply, including polystyrene, plasticizer, rosin ester and an organic solvent [2]
The specified composition is intended for the manufacture of varnish applied to wood, artificial stone and separately in its components and in finished form does not meet the requirements for coatings used in drinking water supply.

 The purpose of the invention is to improve the quality and aesthetics of the coating by giving it impact resistance, frost resistance, increase its adhesive properties and water resistance.

 This goal is achieved in that the waterproofing composition for coating capacitive structures, including polystyrene, a plasticizer, rosin ester and an organic solvent, according to the invention, contains high-impact polystyrene or its waste, dimethyl phthalate as a plasticizer, rosin glycerol ester as an organic rosin, as an organic solvent toluene and additionally diethyl ether of carbonic acid, in the following ratio of components, wt.

High impact polystyrene
or its waste 20-50,
Dimethylphthalate 3-6
Glycerin ester
rosins 2-7
Coal diethyl ether
acid 5-15
Toluene Else.

 The coating has increased adhesive ability, frost resistance, water resistance due to the addition of rosin glycerol ester to the polystyrene composition, increased elasticity and film strength due to the addition of dimethyl phthalate phthalic acid ester composition. Acceleration of coating formation is achieved by introducing into the composition diethyl ether (diatol) anesthetic substance acting as a saccative in the reaction accelerator during coating formation. Aesthetics is achieved through the use of colored high-impact polystyrenes or their waste. To form a coating, an intermediate layer and then coating layers are first applied to the surface to be treated. An intermediate layer of the composition is applied by impregnating the concrete surface with a ratio of the content of high-impact polystyrene or its waste to the solvent content by weight of 1:10, and coating layers with a ratio of 1: 4.

 Comparative characteristics of this composition and the composition of the prototype are given in table 1.

 Used high-impact polystyrene or its waste is a product of copolymerization of styrene with rubber, obtained in bulk in the presence of a solvent. To prepare the composition, high-impact polystyrenes can be used in accordance with the requirements of OST 6-05-406-80 and TU 6-05-1871-79 "E" and their industrial waste in accordance with the requirements of TU-6-05-1918-82 or secondary waste (housings of household appliances of telephone sets, juicers, radio and television equipment, etc.). High-impact polystyrene grades UPS-1104 or UAM-1003 can be used; UPM-523, low impact polystyrene UPM-03L, UPM-225 and, mainly, medium impact polystyrene grades UPM-0703L, UPS-0704L, UPS-0704S, UPM-0512L, UPS-0704S, UPS-0505, UPM-0508. Polystyrenes of grades UPS-0801, UPS-10-1002, UAM-0503, UPS-0803O, UPM-325, UPM-424 with a low content of residual monometer recommended for the manufacture of articles and containers intended for contact with food products, etc. can be used. .

 High impact polystyrene is produced (or crushed) to homogeneous granules (painted or not) with a size of 2-5 mm. The content of granules larger than 4 m should not exceed 30%. Separate granules more than 8 mm long are allowed.

The main physical and mechanical properties of high-impact polystyrenes must meet the requirement:
impact strength
kgf cm / cm ² 4-13
breaking stress
tensile, MPa 20-30
relative extension
at break, not less than 15-45.

 High impact polystyrene is resistant to the action of hydrogen halide, some mineral and organic acids.

 Rosin glycerin ester must meet the requirements of OST 81-26-78.

 The characteristics of the rosin glycerol ester used are given in Table 2.

 Phthalic acid dimethyl phthalate ester (GOST 8782-77 "E") is the reaction product of orthophthalic anhydride with alcohol. Table 3 shows the properties of dimethyl phthalate.

Carbonic acid diethyl ether (C ₅ H ₁₀ O ₃ ) -diatol. Colorless liquid of narcotic action. The product must comply with TU 113-03-0376-84 and contain at least 96.6% of the main substance.

 Toluene is used as a solvent for high impact polystyrene or its wastes. Its characteristic is given in table.4.

 According to the results of the sanitary-chemical analysis of aqueous extracts of polystyrene compositions (Table 5), compositions from the following components are allowed for use in waterproofing coatings for drinking water, wt.

High impact polystyrene
or its waste 20-50
Glycerin ester
rosins 2-7
Dimethyl Phthalate 3-6
Coal diethyl ether
acid 5-15
Toluene-solvent Else.

 Examples of specific embodiments of the invention are given in table.6.

 The composition is prepared as follows. The estimated amount of high-impact polystyrene or its waste with stirring is poured with a solvent, which is taken from the calculation of a ratio of 1: 4. The resulting mixture was incubated for a day for swelling and subsequent dissolution of polystyrene by stirring for about an hour. Stirrers may be used for mixing. The mixture is brought to the working state of complete dissolution of polystyrene granules. The calculated amount of rosin glycerol ether is dissolved with stirring for 0.5 hours in the selected solvent. With stirring, a solution of high-impact polystyrene or its wastes is added with stirring a solution of rosin glycerol ester, dimethyl phthalate and carbonic diethyl ether (diatol). Part of the ready-to-use composition at a ratio of 1: 4 of the content of high-impact polystyrene or its waste to the solvent is adjusted to a concentration of 1:10 by increasing the solvent content and applied to the surface, mainly concrete, for the application of a primer-impregnating layer (substrate), then at intervals The required amount of basic layers with a concentration of polystyrene in a solvent of 1: 4 is applied for 20-30 minutes.

 The optimal number of main layers for the waterproofing device, depending on the operating conditions of the structure, is assumed to be 3-6. The thickness of the waterproofing coating is 1-2 mm. When installing a waterproofing coating, the polystyrene composition is applied to the surface with a brush, air or airless spraying.

 In the table. 6 summarizes the ratio of the starting components of the polystyrene composition, entered into the claims and shown in three boundary variants (min, max, cf.) of the formulation. These data are completely consistent.

 For various technical means and methods of coating (air, airless, spraying, etc.), polystyrene compositions are made in various concentrations, i.e. with different viscosity. The working viscosity of the polystyrene composition according to GOST 8420-74 is selected by adjusting the dosage of the solvent using a VZ-4 viscometer according to GOST 9070-75. For the vast majority of brands of high-impact polystyrene (OST 6-05-406-80) and their industrial waste (TU-6-05-1918-82) with a ratio in the polystyrene-toluene solution of 1: 4, the viscosity of the composition according to VZ-4 corresponds to 140- 220 s, which meets the requirements for applying polystyrene coatings, for example, airless spraying units of type 2600N and 7000N (the possibility of up to 300 s), which are widely used in waterproofing coatings of hydraulic structures.

 Rosin glycerol ester is dissolved in toluene in a ratio of 1: 1, taking into account the total solvent consumption in the composition.

 Other types of solvents can be used to coat non-potable water to dissolve polystyrene.

 In the table. 7 shows data on the basic physical and mechanical properties of waterproofing coatings based on the proposed compositions, proposed and control compositions.

The created polymer composition meets high physical, mechanical and other special requirements:
in terms of adhesion to the concrete surface of a water-bearing structure;
on the waterproofness of the concrete-polymer coating fragment for various conditions of trouble-free operation of the structure;
to meet the requirements of SNiP 2.04.02-84, GOST 2874-82, the requirements of the main sanitary and epidemiological department of the USSR Ministry of Health on sanitary-chemical and sanitary-hygienic indicators for drinking water supply;
on the maximum mechanization of coating operations.

 The influence of individual components on the physicomechanical and other special properties of this polymer composition in coatings for the minimum, average and maximum contents of each component in the control examples, in this optimal composition and in the known composition is shown in Tables 6 and 7. From Table 7 it is seen that the selected optimal composition meets the highest requirements of current standards compared to the known composition and in coatings shows adhesion to concrete after lengthy tests for frost resistance 3-5 times higher and water resistance is 2-3 times higher than a coating with a known composition.

Claims (1)

 A waterproofing composition for coating capacitive structures, including polystyrene, plasticizer, rosin ester and an organic solvent, characterized in that it contains high-impact polystyrene or its wastes as polystyrene, dimethyl phthalate as a plasticizer, rosin glycerol ester as an organic solvent, and an organic solvent toluene and additionally diethyl ether of carbonic acid in the following ratio of components, wt. High impact polystyrene or its waste 20 50
Dimethylphthalate 3 6
Rosin glycerin ester 2 7
Carbonic acid diethyl ether 5 15
Toluene Else

Images