RU2812678C1 - Composition for facade paint - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention can be used to protect facades from atmospheric influences. Facade paint contains a copolymer-acrylic dispersion, a polyethylene wax emulsion, a preservative, coalescent-plasticizers, polymer additives, surfactants, emulsifiers, stabilizers and water. As a copolymer-acrylic dispersion, a dispersion or a mixture of dispersions of two different brands, selected from Acrilan 101, Acrilan 102, Acrilan 128, Arakril 250, Arakril 5650 or Arakril 561 is used.

EFFECT: invention makes it possible to increase the water-repellent properties, adhesion, elasticity, coverage and bioprotection of the dry coating film.

1 cl, 3 ex

Description

The invention relates to compositions for water-based paints intended to protect facades and structures made of brick, concrete, stone, wood, ceramics, and metal from atmospheric influences.

Recently, environmentally friendly and fireproof paints based on aqueous polymer dispersions have been widely used.

For example, a water-dispersion composition is known (RF patent No. 2208026, published July 10, 2003), intended for painting building structures made of wood and concrete, as well as pre-primed metal surfaces, which contains a film former (a copolymer of esters of acrylic and methacrylic acids or unplasticized polymer acrylic dispersion) 55-60 wt.%, pigment 14.0-23.7 wt.%, filler 3.8-10.0 wt.%, thickener 0.3-0.8 wt.%, emulsifier 0, 05-0.2 wt. %, biocide additive 0.1-0.2 wt.%, dispersant 0.7-1.0 wt. %, coalescing additive 2.7-6.5 wt.%, antifoaming additive 0.5-1.0 wt.%, structuring additive 0.15-0.3 wt.%, antifreeze 2.0-5.5 wt. .%, water – the rest.

The combination of these components in the given ratio makes it possible to increase the covering power, viscosity, adhesion, and elasticity of the composition.

However, this composition has low water-repellent properties and is not intended for use on surfaces made of stone, ceramics and brick.

A polymer-acrylic coating for the facade AKTERM Kristall is known (Internet resource: https://akterm.ru/gidroizolyatsiya/akterm-kristall, viewed 07/25/2022), taken as the closest analogue to the claimed solution and intended for surfaces made of brick, concrete, natural stone, ceramics, tiles, wood, metal. This coating contains acrylic, polyethylene wax and special polymers that repel water and dirt from the finishing layer, as well as a biocidal additive against fungus and mold.

After polymerization, this coating forms a durable and elastic film, which protects the facade surfaces from wind, rain, snow and UV radiation, and also permanently prevents the formation of cracks, drying out, aging, rotting and fading of surfaces. In addition, the coating allows you to emphasize the natural beauty of the texture and fiber pattern, giving it a glossy shine, which preserves the aesthetic appearance of the painted surface of the facade and its rich color. At the same time, the coating is environmentally safe for others and harmless to health.

However, this source of information does not disclose the full composition of the coating components, as well as their quantitative ratio, on which, as is known, the production of a composition that allows achieving the necessary properties of the surface to be painted depends.

The technical problem of the present invention is to create a composition for facade paint, expanding the line of similar products on the market, which can be used on any surface while providing water-repellent properties, adhesion, elasticity, hiding power, hardness and bioprotection of the dry film.

The technical result is the implementation of the specified purpose.

The technical result is achieved by using a composition for facade paint, which contains a copolymer-acrylic dispersion, a polyethylene wax emulsion, a preservative, coalescent-plasticizers, polymer additives, surfactants, emulsifiers and stabilizers, water in the following ratio of components, wt. %:

copolymer-acrylic dispersion or a mixture of dispersions of two different brands selected from Acrilan 101, Acrilan 102, Acrilan 128, Arakril 250, Arakril 5650, Arakril 561 – 60-65

polyethylene wax emulsion – 0.5-0.8

preservative – 0.2-0.5

coalescent-plasticizers – 1.05-2.0

polymer additives – 1.0-2.5

Surfactants, emulsifiers, stabilizers – 0.2-0.5

water - everything else.

In particular cases, NOPCOMUL MS-40, AQUACER 501 emulsions can be used as a polyethylene wax emulsion.

In particular cases, the preservatives Acticide MKE, Neomid ECO, Preventol D6, Preventol D7, Preventol A17 can be used as preservatives.

In particular cases, Texanol, UCAR Filmer IBT, and Butyl diglycol acetate can be used as coalescent-plasticizers.

In particular cases, Hisol 307, Acrisol TT935, BYK 1610, SN-Defoamer NXZ can be used as polymer additives.

In particular cases, Hidis 40A, Orotan 4045, Dextrol OC-180, Neonol, Strodex FT-428 can be used as surfactants, emulsifiers, stabilizers.

Copolymer-acrylic dispersion (or a mixture of dispersions from two different brands selected from Acrilan 101, Acrilan 102, Acrilan 128, Arakril 250, Arakril 5650, Arakril 561) in the range of 60-65 wt.% in total relative to the total composition of the components provides adhesion, elasticity, water-repellent properties, the required degree of surface gloss, hardness of the formed film. When the amount of dispersion in the overall composition of the components is reduced, adhesion, elasticity and water resistance become significantly worse, and when its amount is exceeded, the vapor permeability of the coating and the hardness of the film deteriorate.

An emulsion of polyethylene wax in the range of 0.5-0.8 wt.% relative to the total composition of the components provides water-repellent properties, film hardness, and stickiness to the tool during application. With a smaller amount of this component, the water-repellent properties and hardness of the film will deteriorate, the stickiness to the tool will increase during application, and if its amount is exceeded, the adhesion, degree of surface gloss and color rendition will deteriorate.

A preservative in the range of 0.2-0.5 wt.% relative to the total composition of the components ensures long-term storage of the paint and bioprotection of the dry coating film. A lack of preservative leads to faster deterioration of the paint composition, and an excess of it leads to the fact that the coating becomes unecological.

Coalescent-plasticizers in the range of 1.05-2.0 wt.% relative to the total composition of the components provide elasticity of the coating, fast drying time after application to the surface, water resistance, and coordination of two acrylic copolymer dispersions. With a decrease in the amount of this component, the elasticity of the composition significantly deteriorates, the drying time increases, and with an increase, the water resistance and synergistic effect of polymer dispersions deteriorate.

Polymer additives in the range of 1.0-2.5 wt.% relative to the total composition of the components ensure the achievement of the required viscosity and elasticity, act as foam suppressors, and help reduce the stickiness of the composition to the tool during application. A lack of polymer additives leads to a deterioration in the stability of paint during storage, an increase in foaming during application, and their excess leads to a deterioration in workability, elasticity, water resistance, adhesion, and coating strength.

Surfactants, emulsifiers and stabilizers in the range of 0.2-0.5 wt.% ensure wettability of the substrate, flow of paint, viscosity, water resistance, adhesion, stability of the finished composition, and its ability to be tinted. A lack of these components leads to a violation of the uniformity of the entire system and the inability to use paint in principle, and an excess of these components affects a significant deterioration in water resistance and adhesion, and an increase in foaming.

The combination of the given components of the composition in the specified quantitative ratio leads to a synergistic effect when each component mutually enhances the functionality of each of the other components.

Below are examples of using a facade paint composition with different quantitative ratios of components: example 1, when all components are taken in the required quantitative ratio; example 2, when some of the components have a lower quantitative ratio compared to the declared range of values; example 3, when some of the components have a higher quantitative ratio compared to the declared range of values.

Example 1.

The inventive composition for facade paint was taken with the following ratio of components, wt. %:

copolymer-acrylic dispersion Acrilan 101 – 62

polyethylene wax emulsion NOPCOMUL MS-40 – 0.6

preservative Acticide MKE – 0.4

coalescent plasticizer Texanol – 1.5

polymer additives Hisol 307– 2.0

Surfactants, emulsifiers, stabilizers Hidis 40A – 0.4

water - everything else.

At a temperature of 22°C, the first layer of façade paint composition was applied to the surface. After 24 hours, a second coat of paint compound was applied on top of the first coat.

During the study, drying time was determined in accordance with GOST 19007-73, the elasticity of the film in bending was in compliance with GOST 6806-73, resistance to static action of water was in compliance with GOST 9.403-80, Brookfield viscosity was in compliance with GOST 25271-93.

Research has shown that:

- drying time to degree 3 was 22 hours, which corresponds to the standard established by GOST 19007-73;

- the elasticity of the film during bending was 1 mm, which corresponds to the standard established by GOST 6806-73;

- resistance to static effects of water corresponds to the standard established by GOST 9.403-80 (methods A and B);

- Brookfield viscosity was 30,000 mPa×s, which corresponds to the standard established by GOST 25271-93.

Visually, the coating after drying is a uniform matte surface without pores, wrinkles or other defects.

Example 2.

The inventive composition for facade paint was taken with the following ratio of components, wt. %:

a mixture of dispersions of two different brands Akrilan 102 and Akrilan 128 - 50

polyethylene wax emulsion AQUACER 501– 0.5

Preventol D6 preservative – 0.2

coalescent-plasticizer UCAR Filmer IBT – 0.5

polymer additives Acrisol TT935 – 0.5

Surfactants, emulsifiers, stabilizers Orotan 4045 – 0.2

water - everything else.

At a temperature of 22°C, the first layer of façade paint composition was applied to the surface. After 24 hours, a second coat of paint compound was applied on top of the first coat.

During the study, drying time was determined in accordance with GOST 19007-73, the elasticity of the film in bending was in compliance with GOST 6806-73, resistance to static action of water was in compliance with GOST 9.403-80, Brookfield viscosity was in compliance with GOST 25271-93.

Research has shown that:

- drying time to degree 3 was 26 hours, which does not correspond to the standard established by GOST 19007-73;

- the elasticity of the film during bending was 0.5 mm, which does not correspond to the standard established by GOST 6806-73;

- resistance to static water does not meet the standard established by GOST 9.403-80 (methods A and B);

- Brookfield viscosity was 51500 mPa×s, which does not correspond to the standard established by GOST 25271-93.

Visually, the coating after drying presents a thickened, heterogeneous surface with wrinkles.

Example 3.

The inventive composition for facade paint was taken with the following ratio of components, wt. %:

copolymer-acrylic dispersion Arakril 250– 75

polyethylene wax emulsion NOPCOMUL MS-40 – 1.0

preservative Neomid ECO – 0.5

coalescent-plasticizer Butyl diglycol acetate – 3.0

polymer additives BYK 1610 – 2.0

Surfactants, emulsifiers, stabilizers Dextrol OC-180 – 0.6

water - everything else.

At a temperature of 22°C, the first layer of façade paint composition was applied to the surface. After 24 hours, a second coat of paint compound was applied on top of the first coat.

During the study, drying time was determined in accordance with GOST 19007-73, the elasticity of the film in bending was in compliance with GOST 6806-73, resistance to static action of water was in compliance with GOST 9.403-80, Brookfield viscosity was in compliance with GOST 25271-93.

Research has shown that:

- drying time to degree 3 was 29 hours, which does not correspond to the standard established by GOST 19007-73;

- the elasticity of the film during bending was 1.1 mm, which corresponds to the standard established by GOST 6806-73;

- resistance to static water does not meet the standard established by GOST 9.403-80 (methods A and B);

- Brookfield viscosity was 22000 mPa×s, which does not correspond to the standard established by GOST 25271-93.

Visually, the coating after drying presents a thin, heterogeneous surface with small cracks.

Thus, the claimed component composition for facade paint makes it possible to provide reliable protection and impart an aesthetic appearance to any façade surface made of stone, wood, metal, tiles, ceramics and other materials.

Claims (8)

Composition for facade paint, characterized in that it contains a copolymer-acrylic dispersion, a polyethylene wax emulsion, a preservative, coalescent-plasticizers, polymer additives, surfactants, emulsifiers and stabilizers, water in the following ratio of components, wt.%: copolymer-acrylic dispersion or a mixture of dispersions of two different brands selected from Acrilan 101, Acrilan 102, Acrilan 128, Arakril 250, Arakril 5650, Arakril 561 - 60-65, polyethylene wax emulsion – 0.5-0.8, preservative – 0.2-0.5, coalescent-plasticizers – 1.05-2.0, polymer additives – 1.0-2.5, Surfactants, emulsifiers, stabilizers – 0.2-0.5, water - everything else.