RU2086596C1 - Hydroinsulating composition for coatings - Google Patents

Abstract

FIELD: paint industry, more particularly protection of foundations, pipelines and roofings from atmospheric effects, aqueous salt solutions and alkalis. SUBSTANCE: hydroinsulating composition comprises, %: chlorosulfonated polyethylene, 13-17.5; mineral filler, 4.05-8.9; mixture of 1-aminoethyliminoethyl-2-haptadecenyl-2-imidazoline with oleic acid monoamide, 0.2-0.4; styrene- indeneresin, 12.5-16.8; epoxydiane resin, 0.8-1.2; rubber crumb, 2.9-7.4; and organic solvent, the balance. EFFECT: improved properties. 2 tbl

Description

 The invention relates to paints and varnishes, in particular to compositions based on chlorosulfonated polyethylene (HSPE) for waterproofing and anti-corrosion coatings of pipelines, foundations, roofs.

 Known bitumen mastic for insulation of concrete, reinforced concrete, metal structures. However, coatings based on them are characterized by low rates of heat resistance and frost resistance / 1 /.

 The closest in technical essence and the achieved result to the claimed invention is a known composition for roofing, including CSPE, bitumen, filler, hardener, polyvinyl chloride, organic solvent / 2 /. However, coatings based on a known composition have insufficient weather, heat and chemical resistance in aggressive environments.

 An object of the invention is to increase the heat, chemical and weather resistance of the coating, improve its physical and mechanical properties, as well as increase the dry residue of the composition, which can significantly reduce the number of layers applied, forming a coating, while not compromising water resistance.

 The technical result is achieved in that the waterproofing composition, including chlorosulfonated polyethylene, mineral filler, hardener, organic solvent, characterized in that it contains "Olazole" as a hardener, which is a mixture of 1-aminoethyliminoethyl-2-heptadecynyl-2-imidazoline with monoamide oleic acid in a mass ratio (9: 1), respectively, and additionally styrene-indene resin, epoxidian resin and rubber crumb in the following ratio of components, wt.

Chlorosulfonated Polyethylene 13-17.5
Styrene-indene resin 12.5-16.8
Epoxydian resin 0.8-1.2
Rubber crumb 2.9-7.4
A mixture of 1-aminoethyliminoethyl-2-heptadecenyl-2-imidazoline with oleic acid monoamide (9: 1) Olazole 0.2-0.4
Mineral filler 4.05-869
Organic solvent Else
The following commercially available components are used in the composition of the invention.

 Chlorosulfonated polyethylene KhSPE-20 according to TU 6-01-1-438-91; KhSPE-20 "I" according to TU 6-55-9-90; KhSPE-M according to TU 6-01-1-415-90, produced in the form of elastic flakes.

 As a hardener "Olazol" mixture - 1-aminoethyliminoethyl-2-heptadecenyl-2-imidazoline with oleic acid monoamide in the ratio (9: 1) in wt. hours in accordance with TU-6-01-03-71-87, which is a honey-like mixture. "Olazol" performs in the composition not only the role of hardener, but also an inhibitor, and allows to obtain heat-resistant coatings with high protective properties.

 Styrene-indene resin petroleum resin in the form of plates according to TU 14-6-89-73.

 Low molecular weight epoxidian resin ED-20 in accordance with GOST 10587-84.

 It is possible to use microtalc, marshallite, silica, etc. as a mineral filler.

 Rubber crumb is also an active filler that improves the physicomechanical properties of the coating, and represents a waste of the rubber industry in the form of scraps of vulcanized rubber based on various synthetic rubbers subjected to crushing and sieving to a fraction of 0.1-0.7 mm.

 Toluene, xylene, solvent, etc. are used as an organic solvent.

The composition is prepared as follows: ChSPE is dissolved in an organic solvent for 4-6 hours at 60 ^o C, an epoxy resin, for example, ED-20, is introduced into the obtained varnish of 15-22% concentration and dissolved for 15-20 minutes until uniform condition. Separately, a 10-50% solution of Olazole in an organic solvent is prepared.

Before using the composition, styrene-indene resin is introduced into the mixture based on ESPE and epoxy resin with stirring, after its complete dissolution, rubber crumb, mineral filler are added, then the 10-50% Olazole solution is thoroughly mixed to a homogeneous state. The viability of the composition is not more than two days. It is applied to the surface both manually by pouring, followed by leveling with a spatula or doctor blades, and mechanized in 3-4 doses with inter-layer drying at 15-20 ^o C for 2-3 hours and dried before commissioning for 3-5 days.

 In the table. 1 presents the formulation of the proposed waterproofing composition, table 2 illustrate the properties of coatings based on it.

Claims (1)

 Waterproofing composition for coating, including chlorosulfonated polyethylene, mineral filler, hardener and organic solvent, characterized in that it contains "Olazole" as a hardener, which is a mixture of 1-aminoethyliminoethyl-2-heptadecenyl-2-imidazoline with oleic acid monoamide in bulk the ratio of 9 to 1, respectively, and additionally styrene-indene resin, epoxy resin and rubber crumb in the following ratio of components, wt. Chlorosulfonated Polyethylene 13.0 17.5
Styrene-indene resin 12.5 16.8
Epoxy resin 0.8 1.2
Rubber crumb 2.9 7.4
Olazole 0.2 0.4
Mineral filler 4.05 8.9
Organic solvent Else

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