RU2489465C1 - Double-package composition for protective and decorative floor coating - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention may be used for protection, without preliminary impregnation and pore filling of floors, floor covers of decorative paths and pavements, different rooms operated under extreme conditions of simultaneous effect of intensive dynamic and static loads, aggressive media and media that carry electrostatic danger. The double-package composition for a protective and decorative floor cover comprising a base of epoxide resins and a hardener, the base is epoxide oligomer with mass of not more than 370, phenoxy resin of equivalent mass of at least 3000, epoxidized vegetable oil, polymethyl diphenyl siloxane, monoethylene ether of ethylene glycol, nanoshell titanium dioxide, dry aluminium oxide, micronised specularite, nanostructured technical carbon, nanostructured graphite and hardener - modified polyamide.

EFFECT: high extent of impregnation, pore filling and adhesion, high mechanical strength with single-layer coating and provision of high speed of hardening, wear resistance, resistance to water effect and effect of different aggressive, softening and electrostatically dangerous media.

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Description

The invention relates to the field of industrial and civil construction, namely to floor structures, and can be used for protection without preliminary impregnation and pore filling of industrial, administrative, commercial, household and other premises, including garages. floor coverings of decorative paths and sidewalks, houses, cottages and summer cottages operating under extreme conditions of simultaneous exposure to intense dynamic and static loads, aggressive environments, environments that pose an electrostatic hazard, etc.

Bulk floors are widely known, for example, V. Freytag, D. Stoye. Paints, coatings and solvents. Composition, production, properties and analysis, trans. from English, Profession Publishing House, St. Petersburg, 2007, 528 pp., pp. 104-117, pp. 369-370 / section 13.9.2. Flooring. A typical epoxy coating system for floors usually involves the application of a thick coating with a total dry film thickness of 1-3 mm on previously impregnated porous inorganic (concrete. Gypsum, ceramics, etc.) or organic (wood, plastics, etc.) substrates . Exemplary formulations for thick epoxy coatings contain a film former - epoxy resin, pigments, inert fillers, solvents, target additives and hardener.

Such a coating must be applied in several layers, since when applied in one layer in bulk, the defectiveness of the coating is higher, and the higher the defectiveness, the worse the protective properties. A multilayer coating leads to an increase in the consumption and weight of the material, and therefore the cost of the coating. In addition, self-leveling floors have a high viscosity and a rough degree of milling, as a result of which the porous substrate is poorly impregnated.

A known composition for flooring, including epoxy-diane resin, amine hardener, flotation reagent-oxal, pigment and filler, flame retardant and epoxy chlorine resin in conjunction with an epoxyurethane oligomer PEF-3A and propylene carbonate, in the following ratio, wt.h .: epoxy Diane resin - 100.0; epoxyurethane oligomer - 12.5-26.0; epoxy chlorinated resin - 12.5-15.5; flotation reagent-oxal - 23.0-24.0; propylene carbonate - 7.5-8.5; flame retardant - 7.5-8.0; amine hardener - 14.9-18.2; pigment - 4.5; filler - 156.0 (US Pat. RU 2140950). This coating has good performance properties: high impact strength, low abrasion.

The disadvantages of the known composition are: the lack of deep impregnation function, in accordance with the specified brands of film-forming agents and viscosity values of the composition; lack of pore filling function due to coarse grinding of the composition due to its manufacture by mechanical stirring, performing only disaggregation of the mixture, and not providing mechanical-chemical fine dispersion; the tendency to sweat out the hardener of the amine type at temperatures below 25 ° C and in conditions when the relative humidity of the air and the substrate is above 55%, which limits the possibility of using this composition in garages, basements and in the field GOST 15150, matting the floor surface and does not provide proper crosslinking of the composition due to the natural loss of reactive amine groups of the hardener. In addition, the known composition does not have antistatic properties, and the necessary protective properties are provided only in a thick coating.

Also known is a two-pack polymer composition for coating with increased resistance to aggressive environments, which can be used to protect structural elements of buildings and structures made of metal and concrete, pipelines, metal assemblies and assemblies of various industries from corrosion when creating wear-resistant bulk floors resistant to solvents and petroleum products, as well as for decorative finishing of these surfaces (US Pat. RU 2351624).

The polymer composition for the protective type of barrier coating on various surfaces includes epoxy Dianova resin, basalt filler in the form of andesitic basalt flakes with a fraction size of 0.001-0.4 mm, hardener - aromatic oligoamide type ETAL and aliphatic epoxy resin, while the composition is a two-pack and is formed by combining component A containing, wt.%:

epoxy diane resin 60-62 aliphatic epoxy resin 12-13 indicated andesitic basalt scales 26-27

and component B, containing, wt.%:

specified oligoamide hardener 71-73 indicated andesitic basalt scales 27.0-29.0

and with a ratio of component A and component B from 1: 0.01 to 1: 100.

However, this known composition has the following disadvantages: lack of function of pore filling due to coarse grinding of the composition due to its manufacture by mechanical stirring, performing only disaggregation of the mixture, and not providing mechanical-chemical fine dispersion; the tendency to uneven color change (yellowing and browning) of the surface of the composition due to the high phototropy of the aromatic oligoamide hardener ETAL-45M, especially when applying and forming floor coverings in the field of open atmospheres GOST 15150, leading to the lack of a decorative coating function; lack of antistatic function; the ability to provide the necessary protective properties only in a thick coating.

The objective of the invention is the creation of a multifunctional finely dispersed composition for the protection and decorative finish of surfaces of various floors, with a high degree of impregnation, pore filling and adhesion, in particular to concrete, high mechanical strength with a single layer coating while providing high speed hardening, wear resistance, resistance to water and various aggressive, softening and electrostatically hazardous environments, allowing you to use it for repair, restoration and Transition defects on the surface.

This object is achieved in that the two-pack composition for protective and decorative flooring, containing a base based on epoxy resins and a hardener, according to the claimed invention, as a base contains an epoxy oligomer of mass no more than 370, phenoxy resin of equivalent mass at least 3000, epoxidized vegetable oil , polymethyldiphenylsiloxane, ethylene glycol monoethyl ether, nanoshell titanium dioxide, anhydrous alumina, micronized, nanostructured carbon black, and nanostructured graphite in the following ratio of components, wt.%:

epoxy oligomer of mass no more than 370 5-10 phenoxysmol equivalent weight of not less than 3000 20-10 epoxidized vegetable oil 2-3 polymethyldiphenylsiloxane 0.5 ethylene glycol monoethyl ether 29.5-25.5 titanium dioxide nano-shell 20-30 anhydrous alumina 10-13 speculative micronized 10-5 nanostructured carbon black 1-2 nanostructured graphite 2-1,

and as a hardener - a modified polyamide with a ratio of base to hardener 10: 1.

The basis of the claimed two-pack composition as an epoxy oligomer, which is an impregnating component and an adhesive sizing, contains YD-128; as a phenoxy resin, which is a film former of increased elasticity, contains EOOS; as the epoxidized soybean oil, which is a plasticizing component, the base contains epoxidized vegetable oil, for example, brand C soybean oil or castor oil; as polymethyldiphenylsiloxane, which is an antifoam-hydrophobizing agent, one of the grades KO-921, K-9, K-42 can be used as the basis. K-47; as a monoethyl ether of ethylene glycol, the base contains ethyl cellosolve GOST 8313-88; as the titanium dioxide nano-shell base contains TEONA 60-2; as anhydrous aluminum oxide, which is a filler that provides increased strength, hardness and wear resistance of the composition, the base contains A 1203; as micronized specularite used in the claimed composition as an insulating waterproof filler, the base contains "Feomica"; as a nanostructured carbon black, which is a color reinforcing and antistatic pigment in the claimed composition, the base may contain P-366-E or P-367-E; as nanostructured graphite, which is a relaxer of the coating internal stresses in the claimed composition, the base contains EGK-1 m.

As a hardener, the claimed composition contains a modified polyamide ANCAMIDE ™ 2353.

The process of obtaining the claimed composition is as follows.

The basis of the composition is obtained by simultaneously thoroughly dispersing all the components of the composition in a chemically inert ball-type uralite grinder with ceramic grinding bodies to a milling degree of not more than 60 microns at a temperature of 50 ° C without air.

Table 1 shows examples of compositions with different proportions of components.

Table 1 BASIC COMPONENTS The content of components, wt.% I II III 1. Epoxy oligomer of molecular weight not more than 370 5 7.5 40 2. Phenoxysmol of epoxy equivalent mass of not less than 3000 twenty fifteen 10 3. Epoxidized Castor Oil 2 2,5 3 4. Polymethyldiphenylsiloxane 0.5 0.5 0.5 5. Ethylene glycol monoethyl ether 29.5 27.5 25.5 6. Titanium Dioxide Nano-Shell twenty 25 thirty 7. Alumina anhydrous 10 11.5 13 8. Speculates micronized 10 7.5 5 9. Nanostructured carbon black one 1,5 2 10. Nanostructured graphite 2 1,5 one TOTAL: one hundred one hundred one hundred HARDENER: 11. Modified polyamide 10 10 10

Table 2 presents the main characteristics of the above compositions.

table 2 indicators Song Data I II III 1. Adhesion to concrete after exposure to distilled water for 1000 h, point one one one 2. The strength of the coating upon impact, cm fifty fifty fifty 3. The elasticity of the coating in bending, mm one one one 4. The condition of the coating after 1000 h exposure in distilled water, 3% NaCl solution, gasoline Without changes Without changes Without changes 5. Water absorption of the coating film after 1000 hours,% 0.2 0.1 0.3 6. The relative indentation in the coating,% 0.05 0.05 0.03 7. The hardness of the coating according to the pendulum device M-3. father 0.5 0.6 0.6 8. The specific volume resistance of the coating, Ohm.m 8 × 10 ⁹ 3 × 10 ⁸ 6 × 10 ⁷ 9. Depth of concrete impregnation (by cut), mm 6 8 12 10. Coating condition after UV irradiation for 12 hours Without changes Without changes Without changes 11. Conventional viscosity of the composition according to the VZ-246 viscometer (4 mm) at (20 ± 0.5) ° С, s 62 67 65

Component 1 (see table 1) used in the inventive composition by a foaming agent - adhesive sizing agent, an impregnating component for porous substrates (concrete, wood, plywood, asbestos cement, drywall, etc.)

Component 2 - is in the inventive composition a film former of increased elasticity, which ensures the stability of the composition to the deformation movements of the painted surfaces.

Component 3 used in the claimed composition is a plasticizing component.

Component 4 in the claimed composition serves as antifoam-water repellent.

Component 5 is a low odor filling modifier solvent.

As component 6, the claimed composition uses a coloristic pigment chemically treated with hydrophobic nanoparticles.

Component 7 is a filler that provides increased strength, hardness and wear resistance of the composition.

Component 8 serves as an insulating waterproof filler.

Component 9 is a coloristic, reinforcing and anti-static pigment.

Component 10 is a relaxer of internal stresses of the coating.

Used as a hardener component 11 (table 1) has reduced toxicity for curing the composition in vivo.

The inventive two-packaging composition for protective and decorative flooring with a predetermined composition of components in a stated percentage to each other provides the claimed properties of the coating: a high degree of impregnation, pore filling and adhesion, in particular to concrete, high mechanical strength with a single-layer coating while providing high speed of solidification, wear resistance, resistance to water and various aggressive, softening and electrostatically hazardous environments. These properties allow you to use the claimed composition for repair, restoration and elimination of defects on the surface. Moreover, when using such a coating it is enough to apply one layer of the composition to the surface to be protected, the application process itself does not require special skills and tools, in addition, in case of defects during operation, such a coating can be easily repaired.

The inventive coating can be used in cases where the application of the classical technology of applying bulk floors is difficult or impossible. In particular, with limited weight loads on the base to be coated and a limited coating time.

The coating can also be used with acrylic chips, which are applied to its surface, which give the coating decorative properties, as well as prevent slipping and at the same time hide irregularities and small surface defects.

The claimed composition was obtained using the latest developments of new materials: titanium dioxide nano-shell, nanostructured technical carbon grader, nanostructured graphite obtained on the basis of advanced technologies, including nanotechnology.

Claims (1)

A two-pack composition for protective and decorative floor covering, containing a base based on epoxy resins and a hardener, characterized in that the base contains an epoxy oligomer of a mass of not more than 370, a phenoxy resin of an equivalent mass of not less than 3000, an epoxidized vegetable oil, polymethyldiphenylsiloxane, ethylene glycol monoethyl ether, titanium dioxide nano-shell, anhydrous alumina, speculates micronized, nanostructured carbon black and nanostructured graphite in the next the ratio of components, wt.%:
epoxy oligomer of mass no more than 370 5-10 phenoxysmol equivalent weight of not less than 3000 20-10 epoxidized vegetable oil 2-3 polymethyldiphenylsiloxane 0.5 ethylene glycol monoethyl ether 29.5-25.5 titanium dioxide nano-shell 20-30 anhydrous alumina 10-13 speculative micronized 10-5 nanostructured carbon black 1-2 nanostructured graphite 2-1
and as a hardener - a modified polyamide with a ratio of base to hardener 10: 1.