SU1058951A1 - Composition for making heat insulating products - Google Patents

Abstract

COMPOSITION FOR THE MANUFACTURE OF HEAT-INSULATING PRODUCTS,; comprising expanded perlite, fiber component i and organosilicon additive, characterized in that, in order to increase the strength, hydrophobicity and fire resistance of the products, it contains, as the organosilicon additive, organosilicon silicone emulsion based on polyethylsiloxane and additionally in α-aminopropylgrythoxysilane: with the following ratio: .%: Bulk perlite 60-80 Fiber component 19.45-39.92 Silicone emulsion based on polyethylsiloxane (in terms of dry residue) 0.07-0 , 5 U-Aminopropyltriethoxy (N force 0,0i-0,05

Description

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The invention relates to building materials and, in particular, can be used for the manufacture of products, used for insulating air, advertising, and industrial buildings. A known building material is containing expanded perlite, a fiber component (non-coated fiber of corrugated cardboard) and bitumen additives 1. The building material contains 0-15 wt.% Bitumen additives. For mothers, a / j has sufficiently high strength pockets for any composition. However, when there is no B1x in the composition of the material of bitumen additives (the lower limit is 0%), the material does not possess | high physical properties. At the maximum content of bitumen additives (15%), the material has good hydrophobic properties, however, the thermal conductivity of the material deteriorates and its flammability increases sharply. The known composition for the manufacture of organic products, containing urea-formaldehyde resin, expanded perlite sand, paraffin emulsion, diammonium phosphate, sodium pentachlorophenolate, aluminum sulfate and pulped paper waste paper 2. Insulation products from a known aluminum sulphate aluminum sizing and recycled paper waste paper 2. Insulation products from a known aluminum sulphate alumina and shredded waste paper 2. Insulation products from a known aluminum sulphate alumina and shredded waste paper 2. Insulation products from a known aluminum sulphate alumina and shredded waste paper 2. Insulation products from a known aluminum sulphate aluminum sulphate and sulphate aluminum 2. Used insulation material from a known aluminum sulphate alumina GOST for flammability, but the hydrophobic properties of the products are unsatisfactory. The closest technical solution to the invention is a composition for the manufacture of heat insulating plates, including expanded perlite, fiber component — fiber cellulose, organosilicon compounds — alkyl, arip or alkylaryl-substituted polysiloxane, and acidic aluminum salts. 3. The heat insulating plate has | bulk weight good thermal insulation properties. However, it has low strength properties, high durability and fire resistance ... The aim of the invention is to increase the hydrophobicity and fire resistance of products .-. f The goal is achieved by the fact that the composition for the manufacture of heat-insulating products, including sprittered perlite, a fiber component and a silicon-organic additive, contains a silicone-based emulsion based on polyistilidrosiloxane and, in addition, γ-aminopropyltriethoxysilane, in the following ratio of components, and in addition, γ-aminopropyltriethoxysilane, in the following ratio of components, and the ratio of the components, in the following ratio of the components, by means of the composition of the components, perlite60-80 Fibrous component 19,45-39,92 Kremšshorgank emulsion on the basis of polyp splegs (for dry residue) 0.07-0.5 u -Aminopropcltriz oksisilai0, 01-0,05 composition as volokgagetogo component comprises milled-py recovered paper (paper, cardboard). The composition and products are prepared as follows. Mixed perlite and crushed fiber components. Then, an organosmid on the basis of polystilgilrosiloxane and y-aminoprostroxy-1lan is added. The slurry is thoroughly mixed. The silicone emulsion is used as a 50% aqueous emulsion 1u. Both the organosilicon emulsion and AND-aminopropyltristoxysilane, due to small amounts of the best mixtures, are diluted with water before being introduced into the composition. Next, the finished slurry is poured into a mold with a sedate and squeezed with a punch to remove excess water. Samples are removed from the mold with a humidity of 60-75% and dried at 120-1-50 ° C to a residual moisture content of 3-5%. To compare the physicomechanical parameters, a sample is prepared from the composition according to the prototype: first mixed methylphenyl polysiloxane diluted with water is added to the mixed dry ingredients, the slurry is thoroughly mixed, then the acid salt is added and mixed again. Technological parameters izgotovl. products are the same as for the manufacture of products from the proposed composition. The specific formulations of the proposed composition and the prototype are listed in table 1. In table. 2 shows the physicomechanical properties of the compositions of the proposed composition and the prototype. Comparing the physicomechanical parameters of formulations 3 and 5 of the species, with the same volumetric mass of the product of the composition according to the invention (3), they have greater compressive strength, greater hydrophobicity and fire resistance than the product of the composition of the prototype (5). . Thus, the introduction of a silicone emulsion on the basis of polystilhydrosiloxane and J-aminopropyltriethoxysilgsha to the composition of the material in the specified limits leads to a k-rate increase in strength and improves the hydrophobic properties of the material and flame retardant. The economic effect from the use of 1 1 products according to the invention will be 6 rubles. 50 kopecks Components, wt.% YolvatnggdVspuchen, Fiber; ocean roxyl, lump perlite ponent 160.00 280.00 374.30 469.00 Proto-i: TYPE 573.49

"Table -1 our sish

Table 2 MethlfeshKnSLa non-propolisnloxane salt ajmgrnettokshnn an

191,146,152,160

151

1.7

9.2 0.63 5.2 0.97 6.1 0.94 7.0

, 10.1

1.9

Claims (1)

COMPOSITION FOR MANUFACTURE OF HEAT-INSULATING PRODUCTS,; including * expanded perlite, fibrous j component and an organosilicon additive, / {characterized in that, in order to increase the strength, hydrophobicity and fire resistance of products, it contains an organosilicon emulsion based on polyethyl hydrosiloxane and additionally γ-aminopropyltriethoxysilane in the following ratio of components, wt .%: Expanded Perlite 60-80 Fibrous component 19.45-39.92 Organosilicon emulsion based on polyethylsiloxane (calculated on the dry residue) 0.07-0.5 U-aminopropyltriethoxysilane 0.01 - 0.05 SU ,,,, 1058951