CS230615B1 - Heat resistantant coating composition and cement with retarder of burning on tin compound base - Google Patents

Description

FIELD OF THE INVENTION The present invention relates to a flame-retardant paint and sealant with a flame retardant based on tin compounds and solves the problem of the composition of the paint and sealant which prevent fire from affecting painted objects and which do not produce toxic gases.

U.S. Pat. No. 2,590,211 is known to use arsenic, antimony, and bismuth as flame retardants in a fireproof composition of oxides and sulfides. U.S. Pat. No. 3,741,893 protects for the same purpose the use of antimony trioxide which is deposited on an inert support.

U.S. Pat. No. 3,951,822 recommends zinc, antimony, stannous and copper salts of higher fatty acids as retarders, U.S. Pat. 4,079,033 zinc and iron oxalate and octoate. According to U.S. Pat. No. 652,898 serves as a retarder chloride and bismuth bromide or crude. čs. AO no. 215,275 protects a composition consisting of a mixture of 0.002%, 44% to 44% non-combustible gas, 0.004% to 53%, carbonaceous, and 0.07% to 65% phosphate based carbonation catalyst.

The results of previous tests have shown that only arsenic, antimony and bismuth compounds appear to be effective as fire retardants. Their common disadvantage is that they react with hydrogen in the state of birth that can form in the smoldering fire to form extremely toxic compounds such as hydrogen arsenic and others. The effect of other flame retardants, in particular stannous fatty acid salts, is small and incomparable to that of the aforementioned compounds.

It does not have the above drawbacks and is similar to arsenic, antimony and bismuth flame retardant compositions according to the invention, comprising 2 to 50% by weight of film-forming substances from the group of high-oil oils, natural resins and their modifications, polysaccharides and their derivatives, bituminous materials, rubber and its derivatives, synthetic polycondensation resins, synthetic polymeric resins, singly or in admixture, 2 to 40% by weight of aliphatic and alicyclic polyols of at least trivalent, non-film forming polysaccharides, proteins and aminoaldehyde condensates, 1 to 30% by weight of carbonic amides and derivatives thereof, cyanamide and oligomers thereof, carboxylic acid azoamides, 3 to 40% by weight of carbonization catalysts containing boric acid, phosphoric acid and their derivatives 1 to 30% by weight of halogenated aliphatic, alicyclic and aromatic hydrocarbons and their oxygenated compounds, and 0.02 to 12% by weight of tin (IV) acid having a particle size of up to 4 .mu.m.

The advantage of the coating and sealant according to the invention is that it effectively protects objects from the effects of fire and does not produce highly toxic fumes.

Film formers from the group of drying oils such as varnish, natural resins and their modifications such as rosin, polysaccharides and their derivatives such as ethylcellulose, bituminous materials such as asphalt dispersions can be used to form the coating composition and sealant of the invention , rubber and its derivatives, e.g. chlorinated rubber, synthetic polycondensation resins such as polyesters and synthetic polycondensation resins, such as styrene acrylate dispersions.

The stannic acid retarder is added to the paint and sealant of the invention in the form of a tin acid gel or formed in situ from suitable compounds such as tin (II) chloride, sodium hexahydroxotinate and the like.

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The assembly of the paints and sealants according to the invention can be seen from the attached non-limiting examples. Parts are by weight.

He did

100 parts of pentaerythritol, 120 parts of chlorinated rubber, 30 parts of dextrin, 25 parts of dicyandiamide, 50 parts of ground slate, 80 parts of flake dust, 30 parts of titanium dioxide, 340 parts of urea glyphosphate and 20 parts of water were mixed in a kneader. 20 parts of additives consisting of dispersant, defoamer, coalescing and preservative and corrosion inhibitor were added to the mixture, and 55 parts of a 50% acrylate dispersion were gradually introduced.

After complete mixing, 70 parts of tin acid dispersion were added and 60 parts of asbestos were gradually mixed. The prepared coating material could be applied well in a thick layer and dried well. The foam was highly foamed by fire, insulating the resulting foam well from the fire.

Example 2

50 parts of chlorparaffin (40% chlorine), 30 parts of urea, 70 parts of ammonium hydrophosphate, 20 parts of chopped glass fibers, 10 parts of sodium hexahydrate, and finally 430 parts of coal-coal fly ash from the electric filters were mixed in 390 parts of the asphalt dispersion. The hole in the lightweight fireclay 75 mm thick was sealed. The dried putty was heated by Bunsen burner, the putty swelled, gradually burned out, but even after 10 minutes the fire did not penetrate to the other side.

Example 3

The paint was prepared by dissolving 160 parts of ethyl cellulose in 240 parts of an ester-alcohol solvent, then 80 parts of pentaerythritol, parts of powdered polyvinyl chloride, 160 parts of ammonium polyphosphate, 40 parts of chlorparaffin (50% chlorine), 60 parts of crystalline borax, were gradually dispersed in the binder. castor oil, 60 parts titanium dioxide, 110 parts precipitated limestone and 40 parts tin acid gel and finally 20 parts mica.

Made paint adhered well to the metals, heating foaming to eight times the height of the original. Foam protected the metal from the effect of fire and by insulating effect lowered the temperature of the metal against the temperature of the fire.

Claims (1)

SUBJECT OF THE INVENTION Flame retardant paint and sealant based on tin compounds containing film-forming binder, heat-decomposing substances to form carbon and / or non-combustible gases, carbonation catalysts, solvents and diluents, additives and optionally fillers and pigments, characterized in that they contain 2 to 50% by weight of film-forming substances from the group of drying oils, natural resins and their modifications, polysaccharides and their derivatives, bituminous materials, rubber and its derivatives, synthetic polycondensation resins, synthetic polymeric resins, 2 to 40% by weight of aliphatic and alicyclic polyols by weight of tribasic, non-film-forming carbohydrates and polysaccharides, proteins and aminoaldehyde condensates, 1 to 30% by weight of carbamides and their derivatives, cyanamide and its oligomers, carboxylic acid azoamides, 3 to 40% by weight 1 to 30% by weight of a group of halogenated aliphatic, alicyclic and aromatic hydrocarbons and their oxygenated compounds; and 0.02 to 12% by weight of tin (IV) acid having a particle size of up to 4 .mu.m.