RU2342415C1 - Liquid-ceramic insulation finish - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention refers to protective filming finishes on various surfaces and materials, specifically applied for pipelines and building structures. Liquid ceramic insulation finish represents water-suspension composition including mixed air-filled hollow ceramic and silicon microspheres, plastic binder that is acrylic latex, defoaming agent Sotro-145 representing waterless composition of nonionic surface-active substances, silicon organic liquid and active admixtures, preserving agent that is germicide representing reaction product of monoethanolamine and paraform, pigment that is titanium dioxide, anticorrosive pigment that is zinc phosphate, polymeric additive Verowett 8004 as dispersant, aqueous emulsionof acrylic copolymer as thickening agent, water, with added fractal aggregates that are highly-loosened porous structure in the form of aerogel, expanded vermiculite and Circulite, hydrophobisator and bulking agent that is carbon white.

EFFECT: production of finish with improved thermal protective, noise absorbing and wear-resistant properties.

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Description

The invention relates to coatings having the ability to form a protective film on surfaces of any shapes and materials, primarily for coating pipelines, and also, in particular, for coating building structures of buildings and structures, etc.

The protective coating should provide a set of operational functions: heat and waterproofing, noise absorption, corrosion protection, fire resistance, wear resistance. To one degree or another, these protective functions are achieved by the use of compositions containing polymers and their latexes and fillers, in particular carbon and silicon-containing microspheres.

It is known liquid heat-insulating coating having the ability to form films used in construction and other fields to obtain a coating on the surface of walls, ceilings and roofs of buildings, pipelines and boilers, vehicles, which is a composition comprising evenly distributed in it and comprising at least , 51 wt.% Of the total mixture of air-filled ceramic and silicon microbeads in a 1: 1 ratio and carbon microfibers with fibrils, a mixture of styrene-butadiene rubber ka and acrylic polymer and at least one pigment, while the mixture of microbeads is 70-75 wt.%, microfibers 5-7 wt.% and rubber 30-70 wt.% of the total amount of styrene-butadiene rubber and acrylic polymer , in the ratio of the components that make up the composition, wt.%: a mixture of styrene-butadiene rubber and acrylic polymer 26-30, a mixture of micro beads and microfibers with fibrils 19.5-24.6, pigment or pigments 3.75-5.5, the rest water [RF Patent No. 2206550 dated 06/14/2001, IPC C09D 109/00, С04В 41/48, ЕВВ 1/76, publ. 06/20/2003]. The disadvantage of the coating is its low fire resistance.

Known fire-resistant coating applied to the surface in succession with layers of a heat-insulating composition containing, wt.%: Siloxane rubber 30-60; glass microspheres 40-70, and a flame retardant composition containing, wt.%: siloxane rubber 20-79.5; glass microspheres 20-60; boron nitride 0.5-20 [RF Patent No. 2039070 of 05/18/1993, IPC C09D 5/18, C09D 183/04, publ. 07/09/1995]. The disadvantage of this coating is the low ductility of adhesion to the surface, increased fragility.

Known: anticorrosion and thermal insulation coating based on hollow microspheres, representing a water-suspension composition with a viscosity of 1 to 100 Pa · s, including a polymer binder of 5-95 vol.% And hollow microspheres of 5-95 vol.%, Moreover, as a polymer binder is used aqueous emulsion polymer latex composition containing from 10 to 90 vol.% (co) polymer selected from the group comprising acrylate homopolymer, styrene-acrylate copolymer, styrene-butadiene copolymer, polystyrene, butadiene polymer, polyvinyl chloride polymer, a polyurethane polymer, a polymer or copolymer of vinyl acetate or a mixture thereof, and from 10 to 90 vol.% a mixture of water and a surfactant, as hollow microspheres, the composition contains a mixture of hollow microspheres with different sizes from 10 to 500 microns and different bulk density from 650 up to 50 kg / m ³ selected from the group consisting of hollow glass microspheres, hollow ceramic microspheres, hollow polymer microspheres, hollow man-made (ash) microspheres or mixtures thereof [RF Patent No. 2251563 from 04.24.2003, IPC C09D 5/02, C09D 5/08, publ. 05/10/2005], and a thermal insulation coating consisting of a polymer binder containing latex selected from the group comprising modified acrylate latex, 33-38% latex copolymer of butadine, acrylonitrile and methacrylic acid, a copolymer of styrene and n-butyl acrylate in a ratio of 1 : 1 by weight, and a uniformly distributed filler of hollow ceramic microspheres with a particle size of 5-350 microns with a specific gravity of 450-750 kg / m ³ , with the following ratio of components, wt.%: Microspheres 60-80; a binder 20-40 [RF Patent No. 53667 of 12/23/2005, IPC SB04/24, publ. May 27, 2006]. The disadvantages of these coatings include the limited operational functions, low wear and fire resistance, sound absorption.

The purpose of the invention is the creation of a protective (insulating) coating with improved operational functions of thermal insulation, noise absorption, fire and wear resistance.

This goal and technical result are achieved in that the liquid-ceramic insulating coating having the ability to form a film on surfaces of various shapes and materials, is a water-suspension composition comprising a mixture of hollow ceramic and silicon microspheres filled with air, a polymer binder - acrylic latex, antifoam, preservative , pigment - titanium dioxide, anti-corrosion pigment, dispersant, thickener, water, according to the invention further comprises fractal aggregates - highly loosened porous structures in the form of airgel, expanded vermiculite and expanded perlite, water repellent, filler - soot white, zinc phosphate as an anticorrosive pigment, Sotro-145 antifoam as an antifoam, which is an anhydrous composition of nonionic surfactants, silicon and active additives, as a preservative, a bactericidal preparation, which is a product of the interaction of monoethanolamine and paraform, as a dispersant polymer Verowett 8004 additive, as a thickener, an acrylic copolymer emulsion in water, in the following ratio of components, wt.%:

titanium dioxide 1-3 zinc phosphate 1-3 white soot 1-3 water repellent 0.5-3 defoamer Sotro-145 0.1-0.5 a mixture of these microspheres 20-40 specified preservative 0.2-1.0 acrylic latex 30-45 specified thickener 0.2-1 specified dispersant 0.5-3 expanded perlite 1-5 expanded vermiculite 1-5 airgel 5-16 water rest.

The proposed coating ceramic insulating has the following ingredient composition:

As an acrylic latex, the composition according to the invention may contain a non-plasticized acrylic dispersion, preferably Finndisp A 1100 (containing 62 wt.% Dry matter, free of organic solvents), as well as Finndisp A 6000, Finndisp A 10 based on a copolymer of N-butyl acrylate and styrene, and others.

To stabilize the dispersion, the composition contains a filler — carbon black, preferably BS 120 grade according to GOST 18307-78, finely dispersed amorphous silicon dioxide, which is a reinforcing filler of synthetic and polymeric materials, and a dispersion stabilizer.

Pigment titanium dioxide is preferably a brand R-706 manufactured by Du Pont, characterized by good gloss, a blue tint and excellent wettability, containing, wt.%, Titanium dioxide (TiO ₂ ) - 93.7%, alumina (Al ₂ O ₃ ) - 2 5, silica (SiO ₂ ) - 3.0, density 4 g / cm ³ , average particle size 0.27 μm.

Anticorrosive pigment - zinc phosphate - white pigment, preferably ZP-M brand manufactured by Waardals, technical requirements ISO 6745, 1990, compatible with polymers, with a base substance concentration of 99.3 wt.%, A density of 3.4 g / cm ³ , pH is 7.

The antifoam used is Sotro 145 antifoam, manufactured by Veresk Company LLC in accordance with TU 2999-015-48082823-02, which is an anhydrous composition of nonionic surfactants, a silicon-organic liquid, and active additives.

Physical and chemical quantities according to TU.

physical state opaque liquid color light yellow to yellow smell specific water emulsion ethanol partially soluble toluene and petroleum ether soluble pH of a 10% aqueous solution at 20 ° C 5.0-9.0 recommended concentrations 0.01-0.2 g / l

Sotro 345 antifoam can also be used.

Preservative - a bactericidal preparation, which is a product of the interaction of monoethanolamine and the paraform of empirical formula С ₉ Н ₂₁ N ₃ О ₃ , preferably of the brand Remacid-145 manufactured by LLC Veresk Company according to TU 2484-004-22427740-02 or other manufacturers of Baktsid brands , "Remacid V", as well as fractal aggregates - highly loosened porous structures:

- expanded perlite according to GOST 10832-91, representing granules of white color, has high soundproofing properties, fireproof;

- expanded vermiculite in accordance with GOST 12865-67, representing silver-yellow granules, has high fire resistance and sound absorption, low heat conductivity (less than 0.05 W / (m · K) at 25 ° C), has much less compared to expanded perlite bulk bulk density not exceeding 0.15 g / cm ³ , increased strength, durability, used at temperatures from - 260 to + 1100 ° C; as well as an airgel, preferably based on SiO ₂ , Nanogel brand manufactured by Cabot Corp. (USA), macroscopic solids consisting of interconnected microparticles forming a rigid frame, 95% of its volume and more is occupied by air (pore surface area from 600 up to 800 m ² / g), has low thermal conductivity (0.018 W / (m · K) at 25 ° C) in a wide temperature range and high noise absorption.

Dispersant brand Verowett 8004 manufactured by Eurocolori S.r.l. Specialty Chemical. Verowett 8004 is a polymer additive made from high molecular weight modified fatty acids with a high affinity pigment group. Solvent free and alkyl phenol ethoxylate free (AREO free, VOC free). Verowett 8004 has a high affinity for pigments, is well compatible with acrylic binders, is capable of forming polyanions in water, binding polyvalent metal ions, thus providing a dispersing effect, has a high deflocculating effect and the ability to significantly reduce the viscosity of the system.

Physical and chemical properties

Form: pasty / semi-liquid.

Color: light, depends on the color of the pigment used.

pH 7.50-8.0.

Boiling point: not certified.

Ignition temperature: tests to identify this criterion after testing for a boiling point indicator.

Relative density: 1.0 g / ml.

Solubility in water: completely soluble.

Viscosity: 3-5 Poise.

The thickener is an acrylic copolymer emulsion in water, preferably Viscalex HV 30 thickener, which is an aqueous emulsion of an alkaline swellable acrylic polymer manufactured by Eurocolori S.r.l. Specialty Chemical, which provides a rheological effect, swelling of a high molecular weight mass in the presence of water, imparts the thixotropic properties of the composition, is well compatible with acrylic latex or Viscalex LO 30 brand, other thickeners can be used: RHEOVIS 112 (aqueous emulsion of polyacrylate).

Water repellent is an aqueous emulsion of a mixture of silicon-containing compounds of silanes and siloxanes, preferably of the brand Wacker BS 1001 (a mixture of triethoxy (2,4,4-trimethylpentyl) silane and alpha-iso-tridecyl-omega-hydroxy-polyglycol ether), manufactured by WACKER Chemie GmbH containing 50 wt.% silanes and siloxanes, a means of reducing moisture and water absorption, which has a water-repellent property, serves as a hydrophobizing additive.

Aqueous dispersions of alkylpolysiloxane, oligovenyl (isopropoxy) acetoxyximoxysiloxane, methyltriethoxysilane, methyl (ethoxy) di (methylethylmoxoxy) silane can also be used. The physicochemical principles of hydrophobization of organosilicon compounds are described in the book of the authors A.A. Pashchenko, M.G. Voronkov, L.A. Mikhailenko, V.Ya. Kruglitskaya, E.A. Lasskaya. Hydrophobization. - Kiev: Naukova Dumka, 1973.

A mixture of hollow ceramic and silicon microspheres (microbeads), usually having a size of from 15 μm to 50 mm, preferably microspheres, grade K 15 ranging in size from 15 to 125 μm and a density of from 700 to 100 g / cm ³ .

The composition is prepared as follows.

A polymer binder, a thickener, a water repellent, a dispersant, and expanded perlite are loaded into a dispersed system of titanium dioxide, zinc phosphate, and white carbon in the calculated amount of water, made in a mixer with a high-speed milling anchor, for 30–40 min at a temperature not exceeding 50 ° C. and expanded vermiculite, antifoam, preservative, add airgel, the mixture is stirred in a frame or anchor slow-moving mixer for 1 h at a temperature of no higher than 35 ° C, a mixture of these microspheres is introduced, the mixture is additionally mixed for 30-40 in, then the resulting homogeneous mass was passed through a filter mesh, final composition shown in the sample to determine the quality indicators.

The finished composition is transferred to packaging.

The resulting liquid ceramic insulating composition is a white suspension. When applying the composition to the surface, after 24 hours of drying, the coating has a uniform, uniform white color appearance, with an average density of 590-600 kg / m, strength 45-50 kg · cm upon impact on the device U-1, water absorption no more 0.03 g / cm ³ , adhesion to steel is not less than 1 MPa, tensile strength not less than 2 MPa, thermal conductivity not more than 0.001 W / (m · K), heat transfer not more than 2-5 W / (m · K), heat resistance of the coating 600-650 ° C.

The tests were carried out by applying the composition in four to seven stages (total layer thickness of about 2-2.5 mm) on the flat and curved surfaces of the steam pipeline with a temperature of the passing coolant 170-180 ° C. At the same time, the surface temperature decreased to 50-70 ° C, the sound intensity was 3-4 times, and durability on ungrounded metal substrates was ensured.

Examples of compositions for the preparation of liquid ceramic insulating coatings are presented in the table. The composition of the examples is obtained as described above.

The coating is quite light, provides adhesion to the surface, does not spread, which creates ease of use, the coating film on the surface is durable and has enhanced performance properties.

Table The composition of the ceramic insulating coating Name of components The content of the components according to the examples, wt.% Prototype, vol.% one 2 3 four one 2 3 four 5 6 Polymer binder: 20-60 - latex acrylic - 45 35 39 thirty Finndisp A 1100 copolymer dispersion (62%) - polyvinyl acetate latex (50%) 37-60 - - - - - latex dimethylmethacrylate DMMA-1 -65-GP 30-50 - - - - Pigments and fillers: - titanium dioxide 33 one 2 1,5 3 - zinc phosphate - one 1.5 2 2 - white soot - 2 1,5 1,0 3 lithopone fifteen - - - - - yellow iron oxide pigment 2,5 - - - - - talc 2,5 - - - ~ - dispersant Verowett 8004 brands - 0.5 2 0.5 3 sodium polyphosphate 1-4 - - - - - thickener Brand Viscales HV 30 - 0.3 0.5 0.2 0.8 ethyl cellulose / carboxymethyl cellulose 3 - - - - preservative brand Remacid-145 - 0.3 1,0 0.2 0.5 sodium pentachlorophenolate 2 - - - - - corrosion inhibitor (sodium nitrite) 3 - - - - - coalescing additive 3 - - - - antifoam Sotro 145 brands - 0.1 0.3 0.5 0.4 OP-7 brands 3-10 - - - - - water repellent brand Wacker BS 1001 - 0.5 1,0 1,5 3 Fractal aggregates: - expanded perlite - 2 5 2 one - expanded vermiculite - one 5 1,0 2 - airgel - 5 10 12 16 A mixture of hollow microspheres 80-40 - a mixture of hollow microspheres 8-48 40 thirty 23 twenty (ceramic / silicon) - polymer microspheres, mixture 5-20 - - - - polystyrene, mixture thirty - - - - Water 7-67 Rest

Claims (1)

A liquid ceramic insulating coating having the ability to form films on surfaces of various shapes and materials, which is a water-suspension composition, comprising a mixture of hollow ceramic and silicon microspheres filled with air, a polymer binder - acrylic latex, antifoam, preservative, pigment - titanium dioxide, anti-corrosion pigment dispersant, thickener, water, characterized in that it further comprises fractal aggregates - highly loosened porous structures in the form of an airgel, expanded ermiculite and expanded perlite, water repellent, filler - white carbon, anti-corrosive pigment - zinc phosphate, anti-foaming agent - Sotro-145 antifoam, which is an anhydrous composition of nonionic surfactants, organosilicon liquids and active additives, as a preservative a bactericidal preparation, which is a product of the interaction of monoethanolamine and paraform, as a dispersant - a polymer additive Verowett 8004, as a thickener - acrylic with polymeric emulsion in water in the following ratio, wt.%: titanium dioxide 1-3 zinc phosphate 1-3 white soot 1-3 water repellent 0.5-3 defoamer Sotro-145 0.1 -0.5 a mixture of these microspheres 20-40 specified preservative 0.2-1.0 acrylic latex 30-45 specified thickener 0.2-1 specified dispersant 0.5-3 expanded perlite 1-5 expanded vermiculite 1-5 airgel 5-16 water rest