RU2129106C1 - Composition for protective and decorative coating of facades - Google Patents

Abstract

FIELD: building industry, more particularly finishing facades over concrete, brick and plastered surfaces. SUBSTANCE: composition comprises ingredients (wt %): butadiene-styrene or acrylate latex or acremos, 23-30; fillers such as coarse sand or granite or marble crumb (0.63-5.0 mm fraction), 25-40 and building sand (0.1-1.25 mm fraction), 18-35; kaolin, 6-15; carboxymethyl cellulose or hydroxyethyl cellulose, 0.05- 0.4; pigments, e.g. titanium dioxide, or red ferric oxide, or yellow or other pigments of different colors, 0.1-8.0; chloroparaffin, 0.4-1.0; oil-soluble polyethylene glycol ethers of alkyl phenols, 0.04-0.1; preservative (phenoxyethyanol, 0.1-0.5; microsilica (aerosil), 0.03-0.1; and the water balance, up to 100. EFFECT: greater sedimentation stability of the composition and cheaper fillers used. 2 tbl

Description

 The invention relates to water-based finishing materials used for protective and decorative coatings of building facades having brick, concrete or plastered surfaces.

 Known (RF patent N 2050390, class C 09 D 109/08, 1995), a water-dispersion composition for protective and decorative coatings, including styrene butadiene latex, novolac resorcinol-formaldehyde resin, filler, pigments and sodium carboxymethyl cellulose. The composition is characterized by a high content of film-forming agents over 55% latex and up to 9% resorcinol-formaldehyde resin, a high stabilizer content over 1% and a relatively low filler content up to 11.5%. When the composition is applied to the surface, intense foaming is observed, which leads to the formation of caverns and cracks upon drying and reduces the protective properties of the coating. The use of filler and pigments of similar fractional composition impairs the decorative properties of the coating.

The closest in technical essence and the achieved result is a composition (USSR AS N 1327465, class C 04 B 26/04, 1985), consisting of the following components, wt.%:
Styrene butadiene latex - 18 - 45.0
Brick fight or shell rock battle, or cellular concrete battle, fractions 0.31 - 3.0 mm - 23.3 - 55.0
The same fractions of 0.01 - 0.3 - 7.7 - 17.4
Magnesium or calcium carbonate - 3 - 7.5
Casein glue - 1.3 - 3.3
Water - The rest is up to 100
One of the drawbacks of this composition, as well as other fillers containing a low degree of dispersion (0.31 - 3 mm), is low sedimentation stability - the composition exfoliates within a few hours of storage, and during storage for several days, a dense precipitate is formed. This complicates the practical use of the composition during finishing work - the liquid part is prepared at the factory, and mixing with the filler directly at the facility, while the finished composition must be constantly mixed. Another disadvantage is that when the composition is applied to the surface, intensive air entrainment occurs, which leads to the formation of caverns on the surface to be protected, and upon drying and complete curing of the cavity, cracks can also form, which not only impairs the decorative properties of the coating, but mainly reduces its protective properties, for example, with respect to the action of water.

 The essence of the invention lies in the fact that to prevent separation of the composition is introduced kaolin, as a structuring additive in combination with a stabilizer such as carboxymethyl cellulose or hydroxyethyl cellulose. High sedimentation stability of the composition is ensured at relatively low concentrations of cellulose ethers of 0.05-0.4 wt.%. After the introduction of fillers, the composition retains the necessary fluidity.

To prevent the formation of caverns, as well as craters, smallpox, etc. shells, when applying the composition to the surface, modifying additives are included in it:
- chloroparaffin, a nonionic oil-soluble surfactant, for example, Neonol AF-9-4 (polyoxyethylene glycol ether of alkyl phenol containing 4 moles of ethylene oxide) and silica fume, for example, aerosil grade MAS-200c.

 To prevent biodeterioration of the composition during long-term storage, it contains preservative-fetoxyethinol (phenol monoethylene glycol ether).

 The decorative properties of the coating are ensured by the presence in the composition of fillers, differing in fractional composition, and pigments of various colors. As a filler with a low degree of dispersion (0.63 - 5 mm), coarse sand or granite screenings, or marble chips, or other inorganic or organic filler of this dispersion is used. Construction sand is used as a finely dispersed (0.1-1.25 mm) filler, in contrast to similar compositions for a finely dispersed filler, it approaches the amount of finely dispersed sand. The protective properties of the composition are fully preserved with the introduction of pigments of various colors; titanium dioxide, red iron oxide, yellow iron oxide, yellow and other pigments of various colors.

The composition has the following ratio of components, wt.%:
Latex BS-65 or acrylic dispersion MBM-5s, or acremos 101 - 23 - 30
Coarse sand or granite screenings, or marble chips or other material fraction 0.63 - 5 mm - 25 - 40
Sand building fractions 0,1 - 1,25 - 18 - 35
Kaolin - 6 - 15
Carboxymethyl cellulose or hydroxyethyl cellulose, or other water-soluble cellulose esters - 0.05 - 0.4
Pigments:
Titanium dioxide or red iron oxide, or yellow iron oxide, or other pigments of various colors - 0.1 - 8.0
Preservative, e.g. phenoxyethanol - 0.1 - 0.5
Chloroparaffin - 0.4 - 1.0
Oil-soluble polyethylene glycol esters of alkyl phenols, e.g. Neonol AF-9-10-4 - 0.04 - 0.1
Silica fume, for example aerosil MAS-200ts - 0.03 - 0.1
Water - The rest is up to 100
The above composition is produced in the factory and delivered to construction sites in the required quantity and color range provided by architects for individual building facades. When stored for up to 6 months, there is no stratification of the composition or formation of sediment at the bottom of the containers in which it is stored, which allows you to prepare in advance for seasonal finishing works.

The composition is applied to the surface of the facades using standard equipment: paint mugs, graters, etc. Finishing work can be carried out at an ambient temperature of +5 ^o C to +4 ^o C, while the curing time is from 8 hours to 1 hour, respectively, and fully set with the substrate from 12 to 24 hours. When applied to concrete, brick and plastered surfaces, a uniform and durable coating of the corresponding color and texture is formed. According to climate tests, the coating retains its properties on a brick or concrete surface for 7 years. The experience of observing the facades of 9 story buildings treated with this composition shows that for more than 2 years, including two seasonal transitions autumn-winter-spring, the coating retains its protective and decorative properties. The following describes the method of obtaining the composition.

In a clean container with a volume of 0.5 m ³ to 1 m ³ equipped with a stirrer and a lower layer, the calculated quantities of latex and a pre-prepared 10% solution of carboxymethyl cellulose or a 2% solution of hydroxyethyl cellulose are loaded at room temperature. Then, modifying additives - chloroparaffin - are loaded. Neonol AF-4, Aerosil. After that, when the stirrer is on, the required amount of kaolin is introduced and the mixture is thoroughly mixed for 5-6 minutes. Then, over a period of 12-15 minutes, the calculated quantities of a finely dispersed filler fraction (0.1-1.25 mm), pigments and a finely dispersed (0.63-5.0 mm) fraction of the missing filler and preservative are successively loaded into the container.

The system is stirred for 8-10 minutes, the mixer is turned off, selected and applied to the substrate. After drying, check the coating for compliance with the required color standard and, if necessary, carry out adjustment by adding the necessary amount of pigment. Unloading is carried out through a sieve with an average cell diameter of 5 mm into plastic buckets with lids of 25 dm ³ or another container.

The invention is illustrated by examples of compositions obtained by the above method and differing in the number and type of components of the composition (table. 1). The properties of the compositions and coatings were determined as follows. Drying time at 20 ^o C to degree 3 was determined according to GOST 19007-73. The resistance to the static action of water was determined as follows: three coating strips with dimensions of 70x150 mm were applied to the surface of silicate or red brick and the sample was dried for 3-4 hours at a temperature of 20 ± 2 ^o С, after which it was immersed in distilled water. After 4 hours, the sample is removed, the remaining water is removed and an external pitchfork is inspected - it should remain unchanged. The film washability was determined according to GOST 20833-75 clause 3.8. The presence of craters and cracks in accordance with GOST 9.407-84. Samples of coatings for these tests were prepared as described above.

The stability of the composition during storage was determined as follows. Part of the product after receipt was placed in standard polyethylene containers. Stratification was assessed visually, the presence of a complete precipitate was recorded by lowering a wooden stick to the bottom of the vessel after one day and then 5, 10, 20, 30, 90 and 180 days. The determination was carried out in parallel on three samples. The loss of fluidity was characterized by the fact that the product was not unloaded from the tank under the action of its own weight when the vessel was tilted at 45 ^o .

 The results are shown in table 2.

 The composition prepared according to the recipe of the prototype exfoliates for several hours with the formation of a dense, hardly mixed precipitate. At the same time, with the optimal number of stabilizers - kaolin and carboxymethyl cellulose - examples 1-4, 6, 7, 10, 11, 21-24, or kaolin - hydroxyethyl cellulose - examples 13-20, the composition can be stored without visible separation and without precipitation in for six months. With a relatively low content of kaolin (example 5) with an optimal content of carboxymethyl cellulose, the composition exfoliates during the first day. The same effect is observed if the amount of added kaolin is optimal, and carboxymethyl cellulose is contained in smaller quantities than is due to the claims (example 9). The quality of fillers and pigments, as can be seen from the above examples, does not significantly affect the stability of the composition.

 When the content of kaolin (example 5) or carboxymethyl cellulose (example 12) is higher than the declared values, the composition loses fluidity and its use using standard mechanisms (for example, paint mugs) becomes impossible.

 The group of modifying additives is chloroparaffin, Neonol AF-4. Aerosil - at their optimal amounts provides high-quality coatings (examples 1-4, 5-12, 14-16, 20, 22, 23).

 When reducing the content of chloroparaffin (example 13), Neonol (example 18) and aerosil (example 21) below the declared values, the quality of the coatings deteriorates sharply.

 To obtain a satisfactory quality coating, the content of film-forming agents should be in the range of 23-30 wt.%. The increase in the number of film former over 30% is impractical for economic reasons.

 Thus, the above examples fully substantiate the claims.

Claims (1)

Composition for protective and decorative coating of building facades, containing a foaming agent based on synthetic latexes, fillers, stabilizers, pigments and modifying additives, water, characterized in that the composition contains a preservative (phenoxyethanol), and as stabilizers it contains a mixture of an inorganic stabilizer - kaolin and water-soluble esters: carboxymethyl cellulose or hydroxyethyl cellulose, and as modifying additives - chloroparaffin, silica fume (aerosil), oil-soluble polyethylene glycol ethers alkylphenols ry (AF Neonol 9-10-4) in the following ratio, wt.%:
Styrene butadiene latex, for example BS-65, or acrylate, for example MBM-5C, or acremos 101 - 23 - 30
Fillers: coarse sand, or granite screenings, or crushed marble fr. 0.63 - 5.0 mm - 25 - 40
Building sand 0.1 - 1.25 mm - 18 - 35
Kaolin - 6 - 15
Carboxymethyl cellulose or hydroxyethyl cellulose - 0.05 - 0.4
Pigments, for example titanium dioxide, or red iron oxide, or yellow, or others of different colors - 0.1 - 8.0
Chloroparaffin - 0.4 - 1.0
Oil-soluble polyethylene glycol ethers of alkyl phenols (Neonol AF 9-4) - 0.04 - 0.1
Preservative (phenoxyethanol) - 0.1 - 0.5
Silica fume (aerosil) - 0.03 - 0.1
Water - The rest is up to 100%

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