RU2160296C1 - Fireproof composition - Google Patents

Abstract

FIELD: fireproof composite materials for application to article metal surfaces to protect from effect of open fire; applicable in construction, transport, various industries and everyday life. SUBSTANCE: fireproof composition contains binder in form of water glass with 2.65-3.40 module, nonburnt vermiculite, reinforcing filler in form of glass fiber and heat-resistant additive. Fireproof composition is distinguished by the fact that heat-resistant additive is used in form of graphite of GkhO-140 grade as dust waste of electrocarbon production composition has the following amounts of components, wt.%: water glass 27-44; glass fiber 15-18; vermiculite 25-35; graphite 15-20. Invention ensures multiple increase of fire resistance of coating made from available raw materials with no harmful effect on human organism in processing and operation of fireproof composition, reliable insulation of protected metal article. Offered material is made from relatively low-cost components, simple in preparation and universal in process of its application to metal surface of protected articles. EFFECT: higher efficiency. 1 tbl

Description

 The invention relates to fire-resistant composite materials intended for application to metal surfaces of products in order to protect against exposure to open fire, and can be used in construction, transport, industry and everyday life.

 The prior art is characterized by intumescent fire retardant compositions containing polymeric synthetic materials, solvents, vulcanizers, heat-resistant additives, flame retardants, stabilizers, plasticizers and reinforcing agents, binders (see, for example, patents RU 2105030 and 2120956, C 09 K 21/14, 1998 .; US 5247005, nat. CL 524-496, 1993 and GB 1408133, 1975 and 149718, 1978, CL 3 P; application EP 0245779, C 08 K 3/04, 1987 )

 These multicomponent compositions provide sufficient fire resistance and thermal protection of protected products, but their production is characterized by the complexity of a multi-stage technology for the preparation of expensive ingredients, the high complexity of the manufacture of coatings from them, which makes serial production difficult. Moreover, the compositions are heterogeneous due to poor compatibility of structural elements, which does not provide adequate physicomechanical properties of the compositions and destination indicators for fire resistance.

 In addition, the disadvantage of these compositions is the volatility of toxic substances, limiting their processing and use.

 Fire-retardant compositions for coating metal products from compatible ingredients on a silicate base are more advanced and technologically advanced, containing unbaked hydrated mica (vermiculite), liquid glass - a binder, filler - burnt (foamed) vermiculite, alkaline earth metal carbonates, asbestos-cement waste and technological additives to provide specified service characteristics of mechanical strength, heat resistance, hiding power, etc., described in inventions by A.S. 509563, C 04 B 3/00, 1973 and 512225 from 04.30.76, 715607 from 15.02.80, 722928 from 25.03.80, 850644 from 07.30.81. all C 09 K 21/02.

 The disadvantages of the known analogues are the unsatisfactory fire resistance of materials, which provides guaranteed protection of metal products from the high-temperature action of the flame for less than 1 h, which is lower than the established fire resistance of plates, flooring and other supporting structures of floors and attics, as well as insufficient coating strength during fire exposure.

According to the number of signs and technical essence that coincide with the proposed composition, the “Fire-retardant mixture” was selected as the closest analogue. 610851, C 09 K 21/02, publ. 06/15/78 in bull. N 22, which contains the following components in a ratio, wt.%:
Liquid glass (binder) - 35 - 60
Unburnt vermiculite - 25 - 35
Fiberglass (filler) - 5 - 10
Dissolved asbestos (heat-resistant additive) - 10 - 20
As unburnt vermiculite, the known fire-retardant composition contains powder of particle size distribution of fractions in the range 0.15 - 1.20 mm.

 The mixture of fully compatible silicate-based components is a homogeneous mass of a given consistency for application to the protected products on the metal surface.

 When fired, unbaked vermiculite swells, increasing the volume by 15-20 times, which has a developed porous surface, and water vapor is released that reduces the temperature at the surface of the coating.

 A coating 10 mm thick insulates the product metal well and provides fire resistance for at least 1 hour, required by SNiP P-A. 5-70 for slabs, flooring and other supporting structures of floors and attics.

 However, the insufficient fire resistance of the known coating limits its technological capabilities and the field of use for protecting critical products for a longer time with a smaller thickness of the protective layer.

 In addition, the known composition has a harmful effect on the human body due to the presence of carcinogenic asbestos loose fiber.

 The problem to which the present invention is directed, is to increase the effectiveness of the composition in terms of fire resistance and functional reliability of the protective coating from it.

The required technical result is achieved by the fact that in the known fire-retardant composition for coating metal products containing a binder - liquid sodium glass with a module of 2.65 - 3.40, unfired vermiculite, reinforcing filler - fiberglass and a heat-resistant additive, it contains graphite grade as a heat-resistant additive GHO-140 in the form of dust - waste from coal production - in the following ratio of components, wt. %:
Sodium liquid glass - 27 - 44
Unburnt vermiculite - 25 - 35
Fiberglass - 15 - 18
Specified Graphite - 16 - 20
Distinctive features provide a noticeable improvement in the technological properties of the composition while expanding the field of use for more effective fire and thermal protection of metal structures.

The introduction of GHO-140 grade graphite dust into the composition ensured the distribution of the heat-resistant additive in the volume and increased the fire resistance of the coating from it due to ablation, since graphite burns in the presence of oxygen at temperatures above 700 ^o C, and the oxidation of graphite is accompanied by foaming, during which For a long time, a large amount of a gas-vapor phase (water, carbon dioxide) is released that does not support combustion.

 The expansion of graphite particles distributed in the mass of the coating layer of the fire retardant composition during oxidation increases its volume many times, increasing its heat-insulating properties.

 In addition, graphite is a solid lubricant, which allows the composition to be applied to the protected metal surface with a spatula, as well as by spraying with a spray gun, roller and brush, ensuring a uniform layer and surface.

 The use of carbonaceous waste as a heat-resistant additive reduces the cost of the flame retardant composition and allows the disposal of graphite dust, solving the environmental problem.

 When graphite is introduced into the composition of less than 16 wt.%, The thermal stability of the coating is unsatisfactory from exposure to a high-temperature open flame.

 A graphite content of more than 20 wt.% Degrades the mechanical strength and frame structure of the coating, which may crumble.

The choice of the type of liquid glass with an alkaline Na cation specifying the technological properties of the coating from the composition (speed, time and curing temperature) is determined to be relatively low compared to K, Li cations or their mixtures by the module (2.65 - 3.40) - the ratio of the number of moles SiO ₂ to the number of moles of Me ₂ O, which also provides greater resistance to decomposition in air, that is, the functional reliability of the material as a whole.

 The content of liquid sodium glass of less than 27 wt.% Does not provide the necessary technological properties of the composition during stirring, which complicates its industrial preparation in automatic mixers, as well as the required adhesive adhesion to the protected metal surface.

 When the content of liquid sodium glass is more than 44 wt.%, The composition crumbles because of its astringent properties, the preparation time of a composition of a uniform consistency, which has an unsatisfactory hiding power, increases, which complicates the coating on vertical surfaces and does not ensure its equal thickness.

 The range of boundaries of unfired vermiculite content is optimized by a combination of qualities: the required mechanical strength of the coating and the necessary degree of reduction in bulk density of the composition during expansion, which are guaranteed to provide thermal protection of the resulting cellular, porous structure without its destruction, and the upper limit of the content is limited by the possible loss of frame and destruction of the coating, which reduces fire resistance.

 The lower limit of the fiberglass content of 15 wt.% As a reinforcing filler defines the permissible minimum coating strength, and its content above 18 wt.% Does not increase the service characteristics of the coating for thermal protection and fire resistance.

 Therefore, each essential feature is necessary, and their stable relationship is sufficient to achieve the novelty of quality, not the sum of the expected effects, but a new super-effect that is not inherent in the signs of disunity.

The proposed composition for a fire retardant coating is prepared by mechanical stirring in a paddle mixer at a temperature of at least 5 ^o C for 5-10 minutes each operation.

 An example embodiment of the invention is illustrated based on the calculation of obtaining 10 kg of the finished composition. For 3.3 kg of liquid sodium glass according to GOST 13078-81, 1.6 kg of silicate, aluminosilicate glass fiber is added and stirred until uniform distribution in volume. Then, KVK-05 grade vermiculite is introduced unburnt in accordance with TU 21-25-75-87 of the Kovdor deposit in the amount of 3.3 kg (the main aqueous magnesium and iron aluminosilicate is a mineral from the hydromica group) and 1.8 kg of GHO-140 grade graphite dust - waste from coal production - and mixed until a paste-like state, a homogeneous wet mass of dark gray color with a mobility of 10-11 cm, determined by the draft cone TsNIL, GOST 5802-86.

 The bulk density of the material is 800-900 kg / cu. m

 The composition is applied by spraying with compressed air onto a previously cleaned, defatted metal surface of the protected product, from the CO-150 unit at a pressure of 3-4 atm.

The thickness of the crude layer should be no more than 3 cm. Drying is carried out in natural conditions (temperature 18-22 ^o C with a relative humidity of not more than 75%) for 24 hours.

 To accelerate the formation of a coating of a given thickness, forced drying with heating can be used.

 The consumption of the flame retardant composition to obtain a dry coating on the surface of a metal product with a thickness of 10 mm is 8-10 kg / sq.m.

 Physico-mechanical characteristics of the material were evaluated by standard methods. Fire tests were carried out in accordance with the requirements of ST SEV 1000-78 "Method for testing building structures for fire resistance" and ST SEV 3973-63 "Doors and gates. Test method for fire resistance".

 The test results are shown in the table.

 Compared to analogues, the fire resistance of the coating increased by a factor. The proposed material has a fire resistance of 3 hours

 Thermal protective insulating properties of the coating are not less than 13 min, determined on the device VNIIPO, in accordance with the "Instructions for the determination of thermal insulating properties of intumescent fire retardant coatings for metal".

 The tests were carried out on steel plates of 08 KP grade, GOST 16523-70, dimensions 140x80 mm and a thickness of 0.8 mm. At the same time, 40 g of material applied with a spatula was consumed per layer.

 Drying under natural conditions was checked according to GOST 19007-73, and peeling was evaluated according to the results of dropping samples from a height of 2 m on a horizontal surface with the coating facing up. No chips, flaking, cracking was found.

The temperature on the back surface of a sheet metal sample after 15 minutes of exposure to a flame of a blowtorch with a temperature of 950-1050 ^o C at a distance of 50 mm from the coating was less than 100 ^o C, which experimentally confirms the excellent thermal insulation properties of the proposed composition.

When rapidly heated to 800-1000 ^o C, unbaked vermiculite swells with an increase in the coating volume by 15-20 times, forming a porosity of at least 60%, and between the mica flakes there are very thin layers of air that cause a low density of the expanded coating and high heat-insulating properties.

Oxidation of graphite at temperatures above 700 ^o C provides the entrainment of most of the input thermal energy, which is spent on its ablation during sublimation. The formation of a gas harmless layer of water vapor and carbon dioxide, which do not support combustion, creates additional thermal resistance to the action of an open flame on the protected surface, preventing overheating.

 The proposed composition for the protective coating of the surface of metal products is a mounting material with improved destination and basic technical characteristics, which is made from available raw materials in the confidential technological range of the ingredients in the composition, ensuring the adequacy of the required properties for fire resistance and thermal insulation of the protected metal products.

 A comparative analysis of the proposed technical solution with well-known analogues showed that the composition is not known from the available sources of information of the prior art, which clearly does not follow for specialists in construction and fire safety, it can be industrially manufactured in serial production on conventional factory equipment, that is, corresponds to patentability criteria.

 The proposed material from relatively cheap components is easy to prepare and versatile by the technology of applying construction products, transport containers with combustible cargoes, hangars and warehouses, deck superstructures of ships, garages, etc. to metal surfaces. products.

Claims (1)

Fire-retardant composition for coating metal products containing a binder - liquid sodium glass with a module of 2.65 - 3.40, unfired vermiculite, reinforcing filler - fiberglass and a heat-resistant additive, characterized in that it contains graphite grade GHO-140 as a heat-resistant additive dust-waste of coal production in the following ratio of components, wt.%:
Sodium liquid glass - 27 - 40
Unburnt vermiculite - 25 - 35
Fiberglass - 15 - 18
Specified Graphite - 16 - 201

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