RU2093357C1 - Method of manufacturing protective/decorative coatings - Google Patents

Abstract

FIELD: manufacture of building materials. SUBSTANCE: invention places attention on coatings for building concrete, reinforced concrete, and metal structures. Method includes preparation of surface of building structure and applying composition containing 1-10 wt % phosphate salt, 30-50 wt % hydrophlogopite, 5-10 wt % swelled perlite, and liquid glass with density 1.36-1.41 - the balance. According to invention, composition is applied by layers being alternated with mica layers: the first composition layer is coated by 0.5-1 mm fraction of mica, and the second one by 5-15 mm fraction. A mica layer is fixed by way of being covered with varnish. Composition layer thickness is 2-4 mm. EFFECT: improved strength, service life, fire resistance, and decorative characteristics of coating. 2 cl, 1 dwg, 1 tbl

Description

 The invention relates to the production of building materials and can be used to obtain protective and decorative coatings on the surfaces of building concrete, reinforced concrete and metal structures manually and mechanically.

A known method of obtaining a fire retardant coating on building structures, including applying to the protected surface of beacons staggered from a flame retardant composition based on liquid glass, curing the beacons and the subsequent application of fire-resistant hardening material based on liquid glass and vermiculite. Lighthouses cure when heated to a temperature of 60,200 ^o C, while the height of the beacons is less than the thickness of the fire retardant coating [1]
The known method provides adhesive strength of the coating, but has a low fire resistance and decorativeness at sufficiently high labor costs for obtaining the coating.

The closest analogue to the claimed invention is a method of obtaining a fire retardant coating on building metal structures, including cleaning the surface of the structure, preparing a coating composition containing in wt. vermiculite ore concentrate 4 6, ground waste of polyurethane or expanded polystyrene foam 5 9, chrysotile asbestos serpentine 5 12, sodium polyphosphate 4 6, liquid glass remaining, applying the composition to the surface by shotcreting or manually and drying, after drying, a solution of chlorosulfonated polyethylene in organic solvent with a layer thickness of 0.5 mm or more, and then produce the final drying of the coating [2]
The disadvantages of this method include the low mechanical strength of the coating, low fire resistance and decorativeness.

 The problem that the invention solves is to eliminate the above disadvantages of the known method.

 To achieve the solution of the problem in a method of obtaining a protective-decaritive coating on the surface of reinforced concrete structures, including surface preparation, applying to it a composition containing liquid glass, phosphate salt and a mineral filler, and a varnish layer, the composition is applied to the surface in layers, alternating with layers mica, moreover, 0.5 1 mm fraction mica is applied to the first layer of the composition, 5-15 mm fraction mica is applied to the second layer of the composition, after which a varnish layer is applied, while the composition contains As a mineral filler, the hydrophlogopite has a fineness of 0.63 mm and the expanded perlite has a fineness of 0.50 mm, as a phosphate salt is a salt from the group: sodium or potassium polyphosphate, or magnesium, sodium or potassium metaphosphate, or magnesium, sodium or potassium hexametaphosphate, or magnesium in the following ratio of components, wt.

Phosphate salt 1 10
Hydrophlogopite 30 50
Expanded Perlite 5 10
Liquid glass with a density of 1.36 1.41 the rest.

 The composition is applied in 2-4 mm thick layers.

 The invention consists in the following.

 Prepare the surface of the building structure. Reinforced concrete structures clear of dust and loose particles. Metal surfaces remove rust and dirt. A composition is prepared comprising a binder, liquid or soluble glass, which, in terms of chemical composition and physico-mechanical characteristics, meets the requirements of TU 13073/81, mineral fillers, hydrophlogopite and expanded perlite refractory additives with a dispersion of up to 0.63 mm and up to 0.50 mm, respectively, and phosphate salt water glass hardener. As the phosphate salt, a salt is selected from the group: sodium or potassium polyphosphate, or magnesium, sodium or potassium metaphosphate, or magnesium, sodium or potassium hexametaphosphate, or magnesium. The composition is applied to the surface of the structure using a mechanized or manual method. After applying the first layer of the composition, a layer of mica of a fraction of 0.5 to 1 mm is applied, then a second layer of the composition is applied and the mica is sprayed again with the size of crumbs and flakes 5-15 mm. A layer of mica is fixed with a varnish layer KP-734 / TU 6-02-1152-82 /, which is a solution of chlorosulfonated polyethylene ChSP in xylene, toluene and solvent with the addition of a turpentine stabilizer.

 After applying the coating layers, its formation occurs. Liquid glass interacts with the hardener with a phosphate compound, and silica gel is formed, and the heat generated accelerates its polycondensation. In this case, liquid glass also interacts with oxides of divalent and trivalent metals that are part of the chemical composition of perlite hydrophlogopite, and a strong structure of the material is formed from insoluble silicates by its mica particles. The upper layer of mica creates a high decorative effect with high mechanical strength and water resistance after fixing it with varnish. The coating has the appearance of iridescent scales of silver or gold. At the same time, fire-retardant properties increase, the fire resistance of the coating and its mechanical strength increase.

 A comparative analysis of the invention with the prototype allows us to conclude that the inventive method of obtaining a protective and decorative coating differs from the known order and number of operations, the composition of the protective composition upon receipt of a given technical result. Thus, the invention meets the conditions of patentability: it is new, has an inventive step and is industrially applicable.

 Examples of compositions are shown in the table.

 The invention is illustrated by a graphic image, which shows the coating / in section / obtained by the claimed method. Layer 2 of the composition according to the example of Table 1 is applied to the substrate 1 — metal or reinforced concrete, a layer 3 of mica with a dispersion of 0.5 1 mm is applied to a layer of the composition having a thickness of 3 mm, then a second layer 4 of the composition of mica 3 is 3 mm thick. A layer 5 of mica of a fraction of 5 to 15 mm was applied to layer 4 and fixed with a varnish layer 6.

 The protective and decorative coating obtained according to the invention is distinguished by high performance with minimal labor costs in manufacturing, has high strength, water resistance and high decorative effect, as well as an increased fire resistance.

Claims (1)

 1. A method of obtaining a protective and decorative coating on the surface of reinforced concrete and metal structures, including surface preparation, applying to it a composition containing water glass, phosphate salt and a mineral filler, and a varnish layer, characterized in that the composition is applied to the surface in layers, alternating with mica layers, moreover, 0.5 to 1.0 mm fractions are applied to the first layer of the composition, 5-15 mm fractions are applied to the second layer of the composition, and then a varnish layer is applied, while the composition contains as e of the mineral filler, hydrophlogopite with a dispersion of up to 0.63 mm and expanded perlite with a dispersion of up to 0.50 mm, as a phosphate salt, a salt from the group: sodium or potassium or magnesium polyphosphate, sodium metaphosphate, or potassium, or magnesium, sodium hexametaphosphate, or potassium, or magnesium in the following ratio of components, wt. Phosphate salt 1 10
Hydrophlogopite 30 50
Expanded Perlite 5 10
Liquid glass with a density of 1.36 1.41 Else
2. The method according to claim 1, characterized in that the composition is applied in layers of 2 to 4 mm thick.

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