RU2521999C1 - Fire-retardant composition - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to building materials and can be used in applying fire-retardant coatings on building structures. The fire-retardant composition in form of a water-tempered dry mixture for applying coatings is characterised by that it contains, wt %: portland cement 20.0-60.0, expanded vermiculite 10.0-40.0, chrysotile asbestos 5.0-25.0, chamotte 5.0-25.0, expanded pearlite 10.0-30.0, polyfunctional concrete modifier 0.1-1.0, fine water-soluble adhesive 2.0-8.0 and a water-retaining additive 0.1-3.0.

EFFECT: improved crack resistance owing to strain redistribution on the whole material.

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Description

The invention relates to building materials and can be used for applying flame retardant coatings to building structures.

The level of technology is characterized by flame retardants containing polymer synthetic materials, solvents, vulcanizers, heat-resistant additives, flame retardants, stabilizers, plasticizers and reinforcing binders (see RU 2105030 and 2120956, 1998, US 5247005, 1993, GB 1408133, 1975 G. and 149718, 1978, EP 0245779, 1987).

These multicomponent compositions provide fire resistance and thermal protection, but their production is characterized by the complexity of the multi-stage technology for the preparation of expensive ingredients and the complexity of manufacturing coatings from them. In addition, the compositions are heterogeneous due to poor compatibility of structural elements, which does not provide sufficient physical and mechanical properties of the compositions and fire resistance indicators.

Fire retardants from compatible ingredients on Portland cement, gypsum, water glass, alumina cement with various additives, in which expanded vermiculite and perlite are used as fillers, are more advanced and technologically advanced (see RU 893944, 1981, 2173309, 2001, 2249608 , 2005, 2372314, 2009, and JP 7002559, 1005).

The closest in composition and the achieved result is a fire retardant composition that does not require mixing at the construction site of individual components before coating the protected structure according to patent RU 2415806, op. 02/26/2009 - a prototype.

The composition of the prototype in the form of a factory-made dry mixture, sealed with water for application on the surface, contains Portland cement, kaolin, redispersible organic polymer, cellulose ether and foamed vermiculite in the following ratio, wt.%:

Portland cement 25.0-50.0 Kaolin 8.0-18.0 Redispersible Organic Polymer 1,5-3,5 Cellulose ether 0.1-0.8 Foamed Vermiculite Rest

The resulting coating using the composition of the prototype has sufficient fire resistance and weather resistance, its service life, as described, in operating conditions at ambient temperatures from -60 to + 70 ° and air humidity up to 70% is 25 years. However, a coating of the specified composition does not withstand vibrations and working deformations of the treated structures, which lead to its cracking and delamination. In addition, the composition contains quite expensive components.

The task underlying the invention is to obtain an economical fire retardant composition, which improves the strength characteristics of coatings.

The technical result consists in obtaining a high-strength flame retardant composition, ensuring the absence of cracks in the hardening process and during operation of the coating of structures under vibration and significant deformations.

The technical result is achieved by a flame retardant in the form of a dry mixture, shuttered with water for coating, containing Portland cement, expanded vermiculite, chrysotile asbestos, chamotte, expanded perlite, multifunctional concrete modifier, finely dispersed water-soluble adhesive and a water-retaining additive in the following ratio of components, wt.%.

Portland cement 20.0-60.0 Expanded Vermiculite 10.0-40.0 Chrysotile Asbestos 5.0-25.0 Fireclay 5.0-25.0 Expanded Perlite 10.0-30.0 Multifunctional concrete modifier 0.1-1.0 Fine water-soluble glue 2.0-8.0 Water retention additive 0.1-3.0

The optimal combination of low-cost components of the composition ensures the achievement of a technical result for improving crack resistance due to the redistribution of deformations over the entire mass of material.

The choice of the content of ingredients and their amount in the composition is due to the following:

- Portland cement. A lower (less than 20%) content leads to unacceptably low mechanical strength of the hardened composition, and a higher (more than 60%) content leads to a high bulk weight of the hardened composition, which leads to low thermal insulation properties.

- Expanded vermiculitis. Lower (less than 10%) of its content leads to an increase in bulk weight (decrease in thermal insulation properties) and a decrease in fire resistance, as vermiculite is the main fire-resistant aggregate, and its higher (over 40%) content leads to a decrease in the mechanical strength of the hardened composition and an increase in cost.

- Chrysotile asbestos is a reinforcing fiber. The main positive difference between asbestos and artificial fibers in relation to flame retardants is the presence of bound water in the composition of asbestos, for which thermal energy is additionally consumed during a fire, which leads to an increase in the fire resistance limit of the composition in comparison with compositions in which artificial fibers (basalt , mullite-siliceous, kaolin, fiber, etc., not containing moisture). A decrease in the content of chrysotile asbestos below 5% leads to the disappearance of the fiber reinforcement effect, and an excess of 25% leads to a deterioration in manufacturability in the manufacture of a dry mixture and a decrease in its homogeneity, which is reflected in the diffraction of the mixture during transportation.

- Fireclay refers to heavy refractory aggregates. It performs the function of increasing fire resistance (its fire resistance over 1500 degrees Celsius) and reducing shrinkage and cracking especially at high temperatures (over 700 degrees), when a lightweight aggregate begins to soften. A decrease in the chamotte content of less than 5% actually leads to the disappearance of the above properties of the fire retardant composition, and an excess of the chamotte content of more than 25% leads to a significant increase in bulk weight, which, in turn, leads to an increase in thermal conductivity, i.e. reduce fire retardant properties.

- Expanded perlite belongs to light fusible aggregates and performs heat-insulating functions up to 700-800 degrees without changing physical properties. At higher temperatures, its softening begins (a change in the state of aggregation) with the absorption of thermal energy, which leads to an additional increase in the fire resistance of the flame retardant. When the content of perlite is less than 10%, its heat-insulating properties appear insignificantly, and with an increase in the content of over 30%, the mechanical and thermal insulation properties at high temperatures deteriorate.

- The multifunctional concrete modifier is a concrete modifier. It includes the PFM-NLK multifunctional concrete modifier, manufactured in accordance with TU 5745-022-58042865-2007 by the Polyplast company in Pervouralsk, Sverdlovsk Region, RF. In terms of its consumer properties, it meets the requirements of GOST 24211-91 and is a mixture of sodium salts of polymethylene naphthalene sulfonic acids of various molecular weights with the addition of air-entraining and hydrophobizing components selected in the optimal ratio (SP-1 polyplast, technical lignosulfonate LST, GKZh-10.11 water repellent). A close analogue of the same manufacturer are additives "Linamix" and "S-3". A decrease in the content of the additive below 0.1% leads to the disappearance of the effect of plasticization of concrete, which creates technological problems when applying a flame retardant at the construction site. Exceeding 1% of the additive content leads to a deterioration in workability of the mixture and an increase in the cost of the composition.

- Fine water-soluble glue. It is a technological additive that provides initial adhesion of the composition to the protected structure, as well as a set of mechanical strength by the flame retardant in the first hour after its application before the start of the active work of the main hydraulic binder - cement. The following brands belong to them: "Dairen modifications from 1220 to 1450", are issued by DCC China; Movinil LDM 1646, manufactured by Nichigo Movinil Japan; "Vinnapas RE 5044N", manufactured by the company "Wacker" Germany-China and others. These adhesives from the point of view of chemistry are a copolymer-vinyl acetate-ethylene. Another common name is redispersible latex or latex redispersible powder. An adhesive content of less than 2% does not significantly affect the initial set of strength and adhesion, especially at low temperatures, and an excess of 8% begins to block the work of cement.

- Water retention additive. The structure of the flame retardant composition includes two highly porous substances: vermiculite and perlite, which have a high water absorption but low water retention, which leads to an uncontrolled change in the consistency during mixing and, as a result, problems when applying the composition to the protected structure (poor adhesion, sliding). Its particular forms are: “Bermocoll CCA 425, CCA 662, M30” manufactured by AkzoNobel Sweden; Tylose H 30000 YP2 is manufactured by Clariant GmbH Germany and others. From a chemical point of view, this is ethyl hydroxyethyl cellulose. The common name is cellulose ether. When the content of the additive decreases below 0.1%, its presence in the composition is not felt, and an increase of more than 3% leads to an unjustified increase in the cost of the material.

Due to the indicated content of the components and their ratio, the coating is a non-combustible heat-insulating system with high strength characteristics and heat-shielding properties that can reliably protect building structures from the effects of heat flow and flame.

The invention is implemented as follows.

At the construction site, all components of the flame retardant within the claimed ratios are loaded into the mixer, closed with water and, mixed, brought to the required consistency. The resulting composition using special equipment, equipment or manually applied to the protected surface of the structure. In the process of hardening during drying of the flame retardant, it sets in with the formation of a fire retardant coating with the required consumer above properties.

Examples of compositions and their characteristics are shown in Table 1, in which 1-3 and 6-8 are examples of the prototype composition "Ograks-NSh", 4 - "Neosprey" - domestic analogue according to TU 5767-011-20942052-05, 5 - " Newsprey "- foreign counterpart (Projiso), POZ-V - the claimed flame retardant. The first examples are given by parameters for 150 min. fire protection, and starting from 6 - according to parameters for 240 min. fire protection. Various particular forms of the implementation of the signs of a multifunctional concrete modifier, finely divided water-soluble glue and a water-retaining additive indicating the grades and the achieved result are shown in Table 2.

The use of the inventive composition, in comparison with the prototype, allows to reduce the dry layer thickness, especially by 240 minutes of fire protection, on steel structures coatings for 1 group from 44 to 40.7.

The inventive flame retardant composition prevents shrinkage cracks in the hardening process after its application in a wide temperature and humidity range, as well as during operation of the coating under vibration and significant deformations of the structures treated with the composition.

The fire-retardant composition provides high strength to the coatings of protected structures, including those working at elevated deformations (for example, metal trusses and floor beams), because prevents the appearance of large cracks due to the redistribution of deformations over the entire mass of material.

The indicated positive effect is achieved in fire retardant coatings of vibrating structures located near escalators, heaters, fans, elevators, etc.

Claims (1)

Fire retardant composition in the form of a dry mixture, shuttered with water for coating, characterized in that it contains Portland cement, expanded vermiculite, chrysotile asbestos, chamotte, expanded perlite, a multifunctional concrete modifier, finely dispersed water-soluble adhesive and a water-retaining additive in the following ratio of components, wt.
Portland cement 20.0-60.0 Expanded Vermiculite 10.0-40.0 Chrysotile Asbestos 5.0-25.0 Fireclay 5.0-25.0 Expanded Perlite 10.0-30.0 Multifunctional concrete modifier 0.1-1.0 Fine water-soluble glue 2.0-8.0 Water retention additive 0.1-3.0