RU2609468C2 - Water redispersible powder coating composition - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to coating compositions, among others, to powdery redispersible compositions for production of heat-resistant and protective/decorative coatings for metal, concrete and reinforced concrete substrates. The water redispersible coating contains portland cement, an inorganic pigment, hydrophobic additive, cement curing agent, silicate, diphenylol-propane-formaldehyde oligomer as an individual polymer binder or in combination with a redispersible polymer, curing agent for diphenylol-propane-formaldehyde oligomer, dispersant, anti-caking agent, defoamer, wetting agent, water retaining agent, thickener, mica and stabiliser. The said coating is stable, ready to use when mixed with water, and environmentally friendly as it does not contain any preservatives and toxic solvents.

EFFECT: coating composition of the invention provides good corrosion protection, good adhesion and has high mechanical strength.

16 cl, 2 tbl, 10 ex

Description

The invention relates to paints and varnishes, in particular to redispersible powder compositions intended for the production of heat-resistant protective and decorative coatings, mainly on metal surfaces, including metal pipelines.

When painting heat and water supply pipelines, an extremely important task is to obtain a high-quality corrosion-resistant coating on the pipeline that is resistant to elevated temperatures of hot heat supply pipelines, as well as to possible temperature differences in pipelines during repair work in winter. It should be noted that redispersible heat-resistant paints and varnishes for metal, which simultaneously have anti-corrosion, good adhesive and high physical and mechanical properties, are practically non-existent at present.

Known powder composition [CA 2555174], including cement, polymer, pigment and small additives in the following components,% wt.:

cement 5-40

polymer (sodium carboxymethyl cellulose) capable of forming a stable colloidal system in water 0.25-10

hydroxyalkyl cellulose 0.1-0.6

pigment 1-15

Also, latex in an amount of 5-60% by weight of the paint can be introduced as a polymer.

Paint and varnish material is obtained by adding water.

However, this composition is not chemically resistant and elastic.

Known for the closest in technical essence and selected for the prototype powder paint containing as an inorganic binder cement, with the following components,% wt. [US 5281271]:

Portland cement 12-2 5 calcium hydroxide 25-35 magnesium oxide 12-16 silica 25-32 zinc oxide 1-3 aluminum stearate 0.5-3 melamine formaldehyde 0.05-3 pigment 0.5-10

Paint and varnish material is obtained by adding water.

However, a coating based on this paint has a number of disadvantages: the tendency of coatings to crack; the use of lime reduces the mechanical properties of the coating and can lead to surface blooming, and also because of the causticity of the salts of calcium hydroxide included in its composition, it is preferable not to use lime; the presence of a large amount of silicon dioxide causes an extremely high viscosity of the paint (more than 4 minutes with a VZ-246 viscometer with a nozzle diameter of 4 mm); coatings do not have chemical resistance in acidic and alkaline environments; coatings are not resistant to elevated temperatures of the pipelines of hot heat supply.

The objective of the invention is the creation of a powder redispersible in water, intended primarily for metal surfaces that do not contain calcium hydroxide, providing high performance characteristics obtained using it coatings.

The technical result consists in obtaining a heat-resistant anti-corrosion non-cracking coating with high chemical resistance in alkaline and acidic environments and good physical and mechanical characteristics. At the same time, the composition of the paint (powder) is frost-resistant (up to -60 ° C), non-caking and stable (the properties of the paint remain for at least 5 years), which ensures that a low-viscosity, stable paint material is obtained when dissolved in water.

The object of the invention is achieved in that the powder composition of water-redispersible paint contains Portland cement as an inorganic binder, inorganic pigment, water-repellent additive, cement hardening accelerator, silicate, diphenyl propane-formaldehyde oligomer as an independent polymer binder or in combination with a redispersible dimer-desulfimer-diene polymer, , anti-caking agent, antifoam, wetting agent, water-retaining additive, seal Tel, mica and a stabilizer in the following ratio of components (parts by weight):

Portland cement one hundred inorganic pigment 5.0-30.0 water repellent additive 0.2-5.0 cement hardening accelerator 1.0-5.0 silicate 5.0-40.0 diphenylol propane formaldehyde oligomer 5.0-30.0 hardener diphenylol propane formaldehyde polymer (urotropin) 0.2-3.0 redispersible polymer 0-10,0 dispersant 0.1-0.7 anti-caking agent 5-17.0 antifoam 0.05-0.5 wetting agent 0.1-3.0 water retention additive 0.1-4.0 sealant 0.1-4.0 mica 1.0-3.0 stabilizer 0-10,0

CaCl ₂ or urea can be used as a cement hardening accelerator; as silicate - potassium or sodium silicates; as a diphenylol propane formaldehyde oligomer, an oligomer with a molecular weight of Mn = 500-850, containing 10-20 wt.% methylol groups, 10-25 wt.% butoxyl groups, which can be synthesized according to the procedure described in patent materials RU 2264416 or RU 2,318,835; as a hardener of diphenylol propane formaldehyde oligomer - urotropine; as a redispersible polymer - redispersible polymers of the brand "Vinnapas 8031 N" and "Vinnapas 8034 N", which is a copolymer of ethylene, vinyl laurate and vinyl chloride manufactured by Wacker Chemie AG; the redispersible polymer of the ELOTEX® SEAL80 brand, which is a silane polymer manufactured by Elotex AG; "Neolith NP50", which is a homopolymer of vinyl acetate manufactured by FAR SPA, as a pigment - titanium dioxide, red iron oxide pigment, yellow iron oxide pigment or any other alkali-resistant inorganic pigment; as a wetting agent, products of the OP-7 and OP-10 grades, which are products of processing a mixture of mono- and dialkylphenols with ethylene oxide; as a dispersant, sodium polyphosphate or sodium hexamethophosphate, or a product of the brand Orotan 731 K based on sodium salts of polycarboxylic acids manufactured by Rohmand Haas, or a product of the brand Tego Dispers 740 W based on derivatives of fatty acids manufactured by Evonik Tego Chemie; as an anti-caking agent - zeolite, silica; as a hydrophobizing additive - calcium stearate, aluminum stearate; as defoamer - silicone defoamers of the BYK 024, BYK 037 brands produced by BYK-Chemie; as a water-retaining additive, ethyl cellulose, methyl cellulose, methyl hydroxyethyl or methyl hydroxypropyl cellulose; as a sealant, hydroxyalkyl cellulose, products of the DEG-1 and TEG-1 brands, which are diethylene glycol and triethylene glycol resins, respectively; as a stabilizer, polyvinyl alcohol or stearic acid heptyl ether.

The powder composition of redispersible paint is prepared as follows: the above components are loaded into a ball mill and ground to a dispersion level of 60-100 microns.

The preparation of ready-to-use paints and varnishes is carried out by adding water to the powder composition in the ratio powder: water 1: 1 - 1: 1.4 (by weight) and thoroughly mixing until a homogeneous mass is obtained. Why mixing is carried out first for at least 60 s, and then after a fifteen-minute break for another 5 minutes to ensure uniform crystallization of cement in volume.

The preparation of water-redispersible paint is illustrated by the following examples, where Example 1 is the composition of the paint obtained according to the prototype, Examples 2-10 describe the composition of the paints according to the claimed solution. The paint compositions of examples 1-10 are presented in table 1, the properties of the resulting coatings are presented in table 2.

The adhesion of coatings was determined according to GOST 32299-2013 (ISO 4624: 2002) by the method of fungal tearing.

Chemical resistance was determined on rods by immersion in a 25% solution of sulfuric acid according to GOST 9.403-80.

Elasticity (bending strength around a cylindrical rod) was determined according to GOST R 52740.

Impact strength was determined at the U-1 installation according to GOST R 53007.

Hardness was determined by the pendulum device according to GOST 5233-89

Example 1. Portland cement, calcium hydroxide, magnesium oxide, zinc oxide, a hydrophobizing additive, aluminum stearate, in the amount shown in Table 1 (parts by weight) are loaded into a high-energy ball mill. The loaded components are ground to a fineness of 65 microns. To obtain paint, the powder is diluted with water to a powder: water ratio of 1: 1.5.

Example 2. Portland cement, sodium silicate, cement hardening accelerator — CaCl ₂ , diphenylol propane-formaldehyde oligomer with a molecular weight of Mn = 650, 10% methylol groups, 20% butoxyl groups, urotropin, redispersible polymer — Vinnapas31, are loaded with Vinnapas31, into a high-energy ball mill; - TiO ₂ , wetting agent - OP-7, dispersant - sodium polyphosphate, anti-caking agent - zeolite, water-repellent additive - calcium stearate, antifoam agent - BYK 024, water-holding additive - ethyl cellulose, sealant - hydroxyethyl cellulose, saliva do stabilizer - polyvinyl alcohol, in the amount shown in Table 1 (parts by weight). The loaded components are ground to a fineness of 65 microns. The powder formed after grinding in a ball mill is the required form of water redispersible paint.

The ready-to-use paint material is obtained by adding water to the powder in a powder: water ratio of 1: 1.1 (by weight) and thoroughly mixing first for at least 60 seconds and then after another fifteen-minute break for another 5 minutes.

The material is applied (with a brush, roller, paint sprayer) to metal substrates. After curing, the resulting coatings are evaluated by appearance, adhesion, and washability.

Example 3 is similar to example 2. However, potassium silicate is used as a silicate, diphenylol propane formaldehyde oligomer is charged with 5 parts by weight, a polymer of the brand Vinnapas 8034 N is used in a quantity of 10 parts by weight of a redispersible polymer, sodium hexamethophosphate is used as a dispersant, aluminum stearate is used as a hydrophobizing additive, BYK 037 is used as a defoamer, methyl cellulose is used as a water-holding additive, polyvinyl alcohol is not charged. The ratio of the components are shown in table 1.

Example 4 is similar to example 2. However, potassium silicate is used as a silicate, diphenylolpropane-formaldehyde oligomer with a molecular weight of Mn = 500, a content of methylol groups of 20%, butoxyl groups of 10% is used as a redispersible polymer, the polymer brand ELOTEX®AL is used ”, OP-10 is used as a wetting agent,“ Orotan 731 K ”is used as a dispersant, silica is used as an anti-caking agent, BYK 037 is used as an antifoam, as Most water-retaining additives use methyl hydroxyethyl cellulose, DEG-1 is used as a sealant, and stearic acid heptyl ester is used as a stabilizer. The ratio of the components are shown in table 1.

Example 5 is similar to example 2. However, urea is used as an accelerator for cement hardening, potassium silicate is used as a silicate, diphenylol propane formaldehyde oligomer is used as diphenylol propane formaldehyde oligomer with a molecular weight of Mn = 650, a content of methylol groups of 20%, butoxyl groups of 10%, as a redisperse the polymer used is a Neolith NP50 brand polymer, a red iron oxide pingment is used as a pigment, Tego Dispers 740 W is used as a dispersant, and foam foam is used Using BYK 037, methylhydroxypropyl cellulose is used as a water-retaining additive, and TEG-1 is used as a sealant. The ratio of the components are shown in table 1.

Example 6 is similar to example 2. However, a diphenylol propane formaldehyde oligomer with a molecular weight of Mn = 850, a content of 10% methylol groups, 25% butoxyl groups is used as a diphenylol propane formaldehyde oligomer, potassium silicate is used as a silicate, OP-10 is used as a wetting agent, and a dispersant is used sodium hexamethophosphate is used, silica is used as an anti-caking agent, aluminum stearate is used as a hydrophobic additive, hepties are used as a stabilizer stearic acid l ester. The ratio of the components are shown in table 1.

Example 7 is similar to example 2. However, the polymer ELOTEX® SEAL80 is used as a redispersible polymer, yellow iron oxide pigment is used as a pigment, sodium hexamethophosphate is used as a dispersant, polyvinyl alcohol is not charged. The ratio of the components are shown in table 1.

Example 8 is similar to example 2. However, a diphenylol propane formaldehyde oligomer with a molecular weight of Mn = 750, a content of methylol groups of 15%, butoxyl groups of 15% is used as a diphenylol propane formaldehyde oligomer, urea is used as an accelerator for cement hardening, potassium silicate is used as a dispersant the polymer used is a Neolith NP50 brand polymer, sodium hexamethophosphate is used as a dispersant, BYK 037 is used as a defoamer, the polymer is not redispersible Rouge. The ratio of the components are shown in table 1.

Example 9 is similar to Example 2. However, a diphenylol propane formaldehyde oligomer with a molecular weight of Mn = 650, a content of methyl groups of 15%, butoxyl groups of 20%, urea is used as a cement hardening accelerator, potassium silicate is used as a silicate, and a redispersible polymer is used as a diphenylol propane formaldehyde oligomer. . The ratio of the components are shown in table 1.

Example 10 is similar to example 2. However, urea is used as a cement hardening accelerator, potassium silicate is used as a silicate, and a polymer of the brand Vinnapas 8034 N is used as a redispersible polymer. The ratio of the components are shown in table 1.

As can be seen from the table of data on operational properties, coatings obtained on the basis of the proposed redispersible in water powder compositions at low cost have high values of chemical resistance, adhesion and resistance to direct impact compared with the compositions obtained by the prototype. Operating temperature range of coatings from -60 to 200 ° C.

The claimed invention allows to obtain the following advantages:

- It is possible to prepare the required amount of paint at the moment;

- The paint contains no toxic organic solvents;

- Uses simpler and cheaper packaging - paper bags (simplifies the disposal of containers);

- During transportation there is no need to transport water (transportation and storage are cheaper);

- Storage and transportation are possible even in extremely difficult climatic conditions (for example, in cold weather) without compromising the quality of the paint;

- The simplicity of preparing paint on a construction site by mixing the dry mixture in water (the ability to prepare the paint in the quantity necessary for work);

- No special equipment for application is required - paint is applied to the surface with rollers or a brush;

- Due to the low temperature of coating formation, such paints are applicable for various construction and repair work, for example, for painting pipelines.

Claims (17)

1. The powder composition of water-redispersible paint containing Portland cement as an inorganic binder, inorganic pigment, water-repellent additive, cement hardening accelerator, silicate, diphenylol propane formaldehyde oligomer as a separate polymer binder or in combination with a redispersible polymer, an anti-agglomerant, an anti-agglomerant, an agglomerant, an agglomerative antifoam, wetting agent, water-retaining additive, sealant, mica and stabilizer in the following ratio SRI components pbw .: Portland cement one hundred inorganic pigment 5.0 - 30.0 water repellent additive 0.2 - 5.0 cement hardening accelerator 1.0 - 5.0 silicate 5.0 - 40.0 diphenylol propane formaldehyde oligomer 5.0 - 30.0 diphenylol propane formaldehyde oligomer hardener 0.2 - 3.0 redispersible polymer 0 - 10.0 dispersant 0.1 - 0.7 anti-caking agent 5 - 17.0 antifoam 0.05 - 0.5 wetting agent 0.1 - 3.0 water retention additive 0.1 - 4.0 sealant 0.1 - 4.0 mica 1.0 - 3.0 stabilizer 0 - 10.0 2. The composition according to p. 1, characterized in that CaCl ₂ or urea is used as an accelerator for cement hardening. 3. The composition according to p. 1, characterized in that the silicate used is a potassium or sodium silicates. 4. The composition according to claim 1, characterized in that an oligomer with a molecular weight of Mn = 500-850 is used as the diphenylol propane formaldehyde oligomer. 5. The composition according to p. 1, characterized in that urotropine is used as a hardener of diphenylol propane formaldehyde oligomer. 6. The composition according to p. 1, characterized in that as a redispersible polymer used redispersible polymers brand "Vinnapas 8031 N" and "Vinnapas 8034 N", which is a copolymer of ethylene, vinyl laurate and vinyl chloride manufactured by Wacker Chemie AG; and / or a redispersible polymer of the brand "ELOTEX® SEAL80", which is a silane polymer manufactured by Elotex AG; and / or "Neolith NP50", which is a homopolymer of vinyl acetate manufactured by FAR SPA. 7. The composition according to claim 1, characterized in that an alkali-resistant pigment is used as an inorganic pigment. 8. The composition according to p. 7, characterized in that titanium dioxide, red iron oxide pigment, yellow iron oxide pigment are used as an alkali-resistant pigment. 9. The composition according to p. 1, characterized in that products of the grades OP-7 and OP-10 are used as a wetting agent, which are the products of processing a mixture of mono- and dialkylphenols with ethylene oxide. 10. The composition according to p. 1, characterized in that the dispersant used is sodium polyphosphate or sodium hexamethophosphate, or a product of the brand "Orotan 731 K" based on sodium salts of polycarboxylic acids manufactured by Rohmand Haas, or a product of the brand "Tego Dispers 740 W" based on derivatives of fatty acids manufactured by Evonik Tego Chemie. 11. The composition according to p. 1, characterized in that as an anti-caking agent used zeolite, silica. 12. The composition according to p. 1, characterized in that as a hydrophobizing additive used calcium stearate, aluminum stearate. 13. The composition according to p. 1, characterized in that as defoamer used silicone defoamers brands BYK 024, BYK 037 manufactured by BYK-Chemie. 14. The composition according to claim 1, characterized in that ethyl cellulose, methyl cellulose, methyl hydroxyethyl or methyl hydroxypropyl cellulose are used as a water-retaining additive. 15. The composition according to p. 1, characterized in that hydroxyalkyl cellulose, products of the DEG-1 and TEG-1 brands, which are diethylene glycol and triethylene glycol resins, respectively, are used as a sealant. 16. The composition according to p. 1, characterized in that the stabilizer used is polyvinyl alcohol or heptyl ester of stearic acid.