RU2167175C1 - Aqueous-dispersion dye - Google Patents

Abstract

FIELD: building industry, dyes. SUBSTANCE: invention relates to compositions used for preparing aqueous-dispersion dyes based on copolymeric acrylate dispersions used for internal and external buildings and structures staining. Dye has filling agent, pigment, water, film-forming agent based on polymeric acrylate dispersions as styrene acrylate or polyvinylacetate acrylate dispersion modified with versatic acid ester and dye has carbamido- -formaldehyde polymer as dispersion and/or paste, thickening agent and an antifoaming agent additionally taken in the definite ratio. Invention ensures to improve the composition, improve light-atmosphere resistance, enhance luster, stability to static effect of water. EFFECT: improved quality and properties, decreased cost for production. 2 tbl

Description

 The invention relates to compositions for producing water-dispersion paints based on copolymer acrylate dispersions for internal and external painting of buildings, structures.

Known aqueous composition for paints based on acrylic film-forming copolymer containing pigments, additives (alkyd resins, phthalates), water, and as a film-forming copolymer neutralized with amine or ammonia, containing 22-28% styrene, 22-28% methyl methacrylate, 37-43 % vinyloxazoline fatty acid esters, 3-7% (C ₆ -C ₁₂ ) alkyl methacrylate (lauryl methacrylate) and 3-7% olefinic, carboxylic, (meth) acrylic acid. [1. U.S. Patent No. 4,147,674, cl. 260/17 R, publ. 1979].

The disadvantages of this composition: the stickiness of the obtained coating, eliminated by prolonged drying (more than 5 hours) at a temperature of 20 ^o C (inconvenience with external staining).

 A known coating composition containing pigments, fillers, antifoams, water and an acrylic water-soluble copolymer is partially neutralized to a degree of 70-75% with acrylic, methacrylic acid, methacrylate, butyl acrylate, dimethacrylic ester of ethylene or triethylene glycol at a weight ratio of copolymers (1.0- 10.0) :( 0.5-10.0) :( 28.0-35.0) :( 55.0-62.0): (0.07-0.15) mol. wt. 100-300 thousand in the form of an aqueous 20% solution (in terms of dry matter). [2. A.S. USSR N 1748426, class C 09 D 133/04, 5/02, publ. 1990].

 Composition without rheological additives, low-filled, reducing the hiding power of the paint, difficult to work with a paint brush or roller; the use of acrylic copolymer partially neutralized to a degree of 70-75% determines the presence of residual acrylic acids, which increases the toxicity of the paint, limits the scope of its use, for example, for internal use.

 The closest in composition and compared properties is water-dispersion paint VD-AK-111 based on a copolymer acrylate dispersion, commercially available from the industry, containing a water-soluble acrylic copolymer brand MBM-5C (40% methyl methacrylate, 55% butyl acrylate, 5% methacrylic acid), pigment — titanium dioxide, filler — microcarbonate, emulsifier — ethoxylated p-tetrabutylphenol (OP-7), stabilizer — Na hexametaphosphate and Na pentachlorophenolate and water. [3. GOST 28196-89. Water-dispersive paints. Technical conditions - The prototype].

Although the paint has good technical and operational properties (hiding power, spreading - "filling", drying time), but the coating is not shiny (matte). The paint has insufficient weather resistance; low reflectivity with an angle geometry of 0-45 ^o (lightfastness); insufficient resistance to water for external coatings in a continental climate; pigment is scarce and expensive.

 The basis of the invention is the task of improving the consumer properties of the water-based dispersion paint "Aquagel" based on copolymer acrylate dispersions by introducing into the composition a combination of components in a ratio that can provide the finished product with an increase in gloss, whiteness, light, weather, resistance to static water and reduce paint production costs.

The problem is solved due to the fact that the water-dispersion paint based on copolymer acrylate dispersions containing a film-forming, filler, pigment - titanium dioxide, water, according to the invention, the composition further includes a thickener - high viscosity hydroxyl methyl cellulose or sodium carboxymethyl cellulose (CMC glue) and antifoam, film-forming as a copolymer acrylate dispersion contains a dispersion of styrene acrylate or polyvinyl acetate-acrylate, modified with versatic acid ester s, and additionally urea-formaldehyde polymer - dispersion (KFP-dispersion) and / or urea-formaldehyde polymer-paste (KFP-paste), as a filler - natural chalk, enriched, in the following ratio of components (wt.%): Film-forming:
The dispersion of styrene acrylate (DSA) - 8-20
or Polyvinyl acetate-acrylate dispersion modified with versatic acid ester (DPVDA) - 30-55
Urea-formaldehyde polymer - KFP dispersion - 12-45
and / or KFP paste - 30-35
Thickener:
High viscosity hydroxymethyl cellulose - 0.3-0.5
or Sodium carboxymethyl cellulose (Clay CMC - Na CMC) - 0.3-1.0
Medium: Titanium Dioxide - 8-18
Filling: Natural enriched chalk - 10-25
Anti-foaming agent - 0.2-0.5
Water - Else
The proposed water-dispersion paint "Aquagel", in comparison with the well-known VD-AK-111, due to the addition of urea-formaldehyde polymer to the film-forming polymer, achieves increased whiteness, light and weather resistance of the coating, and the consumption of scarce and expensive titanium dioxide (highly dispersed with a minimum content of water-soluble salts) , it is well wetted by water, chemically stable in a wide range of pH values). The use of an integrated system: film-forming-pigment-filler in the claimed component ratio, leads to an increase in gloss, resistance to static effects of water. A more reactive film-forming reduces the drying time of the coating, the thickener and antifoam make the paint easy to prepare and paint.

 It is not possible to achieve such indicators by adding to the composition of the prototype components in the claimed ratio.

The invention is illustrated by the following examples of the production of water-dispersion paint "Aquagel", which uses such raw materials:
- Dispersion styrene acrylate brand Mowilith DM 611 company Clariant: solids content of 50%, particle size - 0.15 μm, Brookfield / Spindle viscosity - 7500/5 MPa • s.

 - Dispersion of polyvinyl acetate-acrylate, modified with versatic ester of Mowilith LDM 24M brand from Clariant. The solid residue is 50%, the particle size is 0.15 μm, the Brookfield / Spindle viscosity is 400/2 MPa • s.

 - Urea-formaldehyde polymer (TU of Ukraine 05761614.021-99) is used in the form of a dispersion containing at least 25% of the polymer particles in water (KPP dispersion) and in the form of a paste containing at least 40% of the polymer particles in water (KPP paste). The particle size of the polymer is up to 20 microns.

 - Titanium dioxide grade R.02 GOST 9808-84.

 - Natural enriched chalk MMS-2 GOST 12085.

 - Sodium carboxymethyl cellulose (Clay CMC - Na CMC, Na-carboxymethyl cellulose) grades 75/400 or 85/700 1st grade TU 6-55-40-90.

 - Hydroxymethyl cellulose grade H 4000YP from Clariant or another brand providing a delay in swelling and a viscosity of at least 4000 MPa • s (2% solution, according to Hepper).

 - Antifoam Tego Foamex K3 of Blang Bonsomer brand KE-10-26.

 The procedure for preparing paint is as follows.

Desalted water, KPP dispersion and / or KPP paste are loaded into a container with a mixer, and the mixer mixer is turned on. After stirring, the carboxymethyl cellulose sodium salt (Na-CMC) or hydroxymethyl cellulose is loaded and dissolved, and titanium dioxide and chalk are sequentially charged. Mixing is carried out until a homogeneous mass. The resulting mixture is dispersed and crushed using special equipment (Dissolver, bead or ball mill, etc.). After dispersion and grinding, the pigment paste is fed into the mixer, where half of the antifoam, KPP dispersion and / or paste are loaded and the mass is mixed at low revs until a stable composition is obtained. 10 minutes before the end of mixing, load the other half of the antifoam. Before testing, the prepared paint is diluted to a viscosity of 20-30 s with a VZ-246 or VZ-4 viscometer with a nozzle diameter of 4 mm at a temperature of 20 ± 0.5 ^o C, filtered through mesh No. 1 according to GOST 6613 and applied to the prepared plates with a brush. Plates for application are prepared according to GOST 8832, distrib. 3. Drying time to degree 3 at a temperature of 20 ± 2 ^o C according to GOST 19007.

Weather resistance is determined according to GOST6992-68 (Art. SEV1767-79). Varnish-and-paint coatings. Test method for resistance to atmospheric conditions. Decorative and protective characteristics are determined according to GOST 9.407.84 (Art. SEV 5731-86). Varnish-and-paint coatings. Appearance Assessment Method. The gloss of the film is in accordance with GOST 896. The color of the coating is determined visually with natural or artificial daylight diffused light by comparison with the color of the standard. The opacity is determined on the glass for photographic plates in accordance with GOST 8784. The mass fraction of non-volatile substances is determined in accordance with GOST 17537. The film resistance to the static influence of water is in accordance with GOST 9.403, method A and GOST 28196. The degree of milling is determined in accordance with GOST 6589. The diffuse reflection coefficient is determined by geometry angle 0-45 ^o according to GOST 8784.

 The recipes for examples of known paint, the proposed paint and transcendental values are shown in table 1. The test results are in table 2.

 From the above table 1, 2 shows that the proposed composition (examples 1-12), compared with the prototype (example 13), provides improved light fastness, weather resistance on decorative and protective indicators from 2 to 1 point, reduces the consumption of titanium dioxide (cost KPP dispersions and KPP pastes are significantly lower than the cost of acquiring titanium dioxide), the film resistance to static exposure to water is increased 1.4–2 times, the degree of milling is increased by 2 times, and the reflection coefficient is increased from 82 to 91% due to light resistance , shine of the film - from 5 to 35%, drying time is reduced from 1 to 0.5 hours.

 Outrageous examples show that when the concentration of styrene acrylate dispersion is reduced to 5% (examples 14, 16, 22), the film resistance to static action of water decreases to 18 hours, with an increase in the concentration of styrene acrylate dispersion to 25% (examples 15, 17, 23) the properties remain unchanged or the coating dries quickly - increases hiding power; a decrease in the concentration of the dispersion of polyvinyl acetate-acrylate to 25% (examples 18, 20) reduces the gloss of the film to 25% and resistance to static exposure to water for up to 24 hours, with an increase in the concentration of the dispersion of polyvinyl acetate-acrylate to 60% (examples 19, 21), the composition is not technologically advanced, dries too quickly. An increase in the concentration of CFP paste up to 40% (Example 24) when a paint is applied to the surface, a thick layer forms, which increases consumption, and the decorative index worsens. A decrease in the concentration of KFP paste to 25% (Example 25) reduces gloss, exposure to water, etc. An increase in the concentration of KFP paste to 50% (Example 26) makes the composition non-technological; when the concentration of the KFP dispersion is reduced to 8% (Example 27), the weather resistance of the coating decreases, and the drying time increases. If the filler is reduced to 8%, to obtain the necessary hiding power, it is necessary to increase the consumption of titanium dioxide, which is more expensive. When the filler increases to 27%, the coating acquires a yellow tint. When the thickener is reduced to 0.2%, the paint becomes too rare, which complicates its application with a paint brush or roller. With an increase in the thickener - hydroxymethyl cellulose - up to 0.8%, the paint becomes thick, which is not technologically advanced in its manufacture, increasing costs. When anti-foaming agent is reduced to 0.1%, foam is formed during the preparation of paint, decorative properties deteriorate; with an increase in antifoaming agent up to 0.7%, the properties do not change, the component is overused.

 Thus, the proposed water-dispersion paint "Aquagel" expands the range of paints based on copolymer acrylate dispersions for interior and exterior painting.

Claims (1)

A water-dispersion paint containing a film-forming agent based on copolymer acrylate dispersions, a filler, a pigment — titanium dioxide, water, characterized in that the composition additionally includes a thickener — high-viscosity hydroxymethyl cellulose or sodium carboxymethyl cellulose — CMC glue and an anti-foaming agent that includes a film-forming acrylate as a copolymer styrene acrylate or polyvinyl acetate acrylate dispersion, modified with versatic acid ester, and in addition urea-formaldehyde Leamer as a dispersion - CFP-dispersion and / or paste - CFP-paste, as the filler - natural chalk enriched in the following ratio, wt.%:
Styrene acrylate dispersion - 8 - 20
or
Dispersion of polyvinyl acetate-acrylate, modified with versatic acid ester - 30 - 55
Urea-formaldehyde polymer -
KFP - dispersion and / or - 12 - 45
KFP - paste - 30 - 35
Thickener:
High viscosity hydroxymethyl cellulose or - 0.3 - 0.5
Sodium carboxymethyl cellulose - CMC adhesive - 0.3 - 1.0
Pigment:
Titanium Dioxide - 8 - 18
Filler:
Enriched natural chalk - 10 - 25
Anti-foaming agent - 0.2 - 0.5
Water - Else

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