RU2689527C1 - Fire-resistant filler for fire barriers screen curtain walls - Google Patents

Abstract

FIELD: fire safety.SUBSTANCE: invention relates to multilayer heat-insulating materials and can be used in fire barriers, such as sliding screen curtain walls. Fire-resistant aggregate contains two layers of basalt fiber 1, wherein each of said layers is coated on one side with foil 2. Layers of basalt fiber 1 are glued to each other with non-foil sides over the entire thickness using a layer of adhesive composition 3. Adhesive composition 3 contains liquid alkali metal silicate 65–69 % and mineral powder containing mica 2–8 % and serpentinite 22–30 %. Fire-resistant filler is fixed in metal frame 4.EFFECT: fire-resistant filler allows fire barriers screen curtain walls in which it is used to have fire resistance limit of not less than 150 minutes, and also expands range of fire-resistant aggregates used in fire barriers.1 cl, 3 dwg

Description

The invention relates to multilayer insulating materials and can be used in fire barriers, such as retractable screen non-load-bearing walls.

Known placeholder - heat-resistant insulation used in fire doors, which includes pressed plates of basalt fibers, mounted on the surface of the door leaf and on the surface of the door frame composition consisting of heat-resistant mastic and liquid glass, taken in a 1: 1 ratio (RF Patent No. 2301873, 2007).

The disadvantage of this aggregate is its low thermal stability, due to which the fire resistance limit of the fire door in which it is used is only 62 minutes.

Also known fire resistant aggregate used in the door leaf, which is made of slag wool and using a layer of adhesive composition is connected with other elements of the door leaf. While the adhesive composition has a composition, wt.%: Liquid alkali metal silicate - 70-80, mineral powder - 20-30, and the ratio of components in the mineral powder the following - chalk: kaolin: fly ash = 1: 1: 0.5 (RF patent №2158817, 2000).

The disadvantage of this filler is also low heat resistance, which determines the limit of fire resistance of the door leaf, in which it is used, at 1 o'clock.

The technical problem solved by the claimed invention is to create a fire-resistant aggregate with high heat resistance, allowing the fire screen curtain wall in which it is used, to have a fire resistance limit of at least 150 minutes, as well as expanding the range of fire-resistant fillers used in fire barriers.

The technical result provided by the claimed invention, is to implement the invention of its purpose.

This technical result is achieved due to the fact that the fire-resistant aggregate for a fireproof screen non-bearing wall containing an adhesive composition layer containing liquid alkali metal silicate and mineral powder comprises two layers of basalt fiber foiled on one side and glued together by non-folded sides using a layer of adhesive composition, and the mineral powder in the composition of the adhesive composition contains mica and serpentinite, and the adhesive composition has a composition, wt. %: liquid alkali metal silicate - 65-69 mica - 2-8 serpentinite - 22-30

The invention is illustrated in the drawings, which depict:

- in FIG. 1 - a general view of fire-resistant aggregate for fire-proof screen curtain walls;

- in FIG. 2 is a section A-A in FIG. one.

According to FIG. 1-2, a fire-resistant aggregate for a fireproof screen curtain wall contains two layers of basalt fiber 1 5 mm thick, each of these layers being covered on one side with foil 2, for example, using firmware. Basalt fiber is an artificial inorganic material derived from natural minerals by melting them and then converting them into fiber. Basalt fiber foil prevents the occurrence of heat loss and contributes to the reflection of thermal energy. The layers of basalt fiber 1 are glued together among themselves by non-foiled sides throughout the entire thickness with the aid of a layer of adhesive composition 3. The consumption of adhesive composition is 8.0-8.7 kg / m ² . Fire-resistant aggregate is mounted in a metal frame 4, made of rack and guide profiles of corrosion-resistant material, such as galvanized steel. Profile wall thickness is 0.6 mm. Rack-mount profiles are installed with a pitch of 500 mm in guide profiles and fastened together with fasteners, for example, self-tapping steel screws. Fastening of fire-resistant aggregate to the metal frame 4 is carried out "overlap" by means of fasteners, for example, self-tapping steel screws.

The adhesive composition is a homogeneous pasty mass of gray color with a density of 1.3-1.9 g / ml and contains a liquid alkali metal silicate, for example, sodium silicate, and mineral powder, and the mineral powder includes mica, for example, muscovite, and serpentinite.

The selected limits of the ratios of the components of the adhesive composition due to the physico-chemical properties of substances. So, below the minimum limit, the required fire protection is not provided, and exceeding the maximum limit leads to a weighting of the material.

When creating the adhesive composition, the following functional characteristics of the components used were taken into account.

Liquid alkali metal silicate is a solution with astringent properties and high temperature resistance with the content of SiO ₂ 30-32% and Na ₂ O 9-12%. In this case, the silicate module is 2.5-3, the density is 1.4-1.5 g / cm ³ , the fluidity is 85-110 seconds.

Mica is used in the form of fine powder with a residue on a sieve of 0.1% not more than 10%. Mica is a unique natural dielectric with high electrical, chemical, thermal and mechanical strength.

Serpentinite is used in the form of a powder (the finest flexible fibers) with a particle size according to the hydro-classifier Bauer Mac-Net of more than 1.18 mm - 0%, less than 0.075 mm - 96%. Serpentinite has high heat resistance, is insoluble in water, is chemically inert. The finest flexible fibers of serpentinite are easily fluffed in air and water environment, possessing high adsorption capacity, and show active adhesion to most binding and dispersed ingredients, due to the large inner surface of the pores between the fibers and the emergence of strong topochemical bonds.

All components of the adhesive composition, acting in synergy, complement each other.

An adhesive composition is prepared as follows. Mica and serpentinite are poured into liquid alkali metal silicate and mixed thoroughly until a homogeneous mass at room temperature.

Examples of adhesive compositions are shown in the table in FIG. 3

Fire-resistant filler for fire screen curtain wall operates as follows. If a fire occurs, the screen curtain wall is exposed to heat. In the process of heating, physical water begins to be released from the aggregate, which was contained in mica and serpentinite, and with an increase in temperature — chemical water from liquid alkali metal silicate. At a temperature of more than 300 ° C, crystallohydrate water begins to be released from mica, and at a temperature of more than 500 ° С, crystallohydrate water is released from serpentinite. Gradually, the water migrates to the layers of basalt fiber 1 and cools their surface. The evaporation of water is prevented by a foil coating 2, due to which water feeds the aggregate for a long time and inhibits heating.

The test sample fire screen curtain wall with the claimed fire-resistant filler to determine the limit state on the basis of loss of insulating ability was carried out according to GOST 30247.1-94 “Building construction. Fire test methods. General requirements ", as well as GOST R 53307-2009" Building structures. Fire doors and gates. Fire test method ". The test site is the test base of the IL SIC PB FGBU VNIIPO EMERCOM of Russia.

The essence of the test was to determine the time from the beginning of the thermal effect on the structure (in accordance with this standard) before the occurrence of one or several consecutive limiting fire resistance states, taking into account the functional purpose of the structure. The sample has reached a fire resistance of 150 minutes.

Claims (4)

Fire-resistant filler for fireproof screen curtain wall containing a layer of adhesive composition containing liquid alkali metal silicate and mineral powder, characterized in that it includes two layers of basalt fiber foil on one side, glued together by non-folded sides using a layer of adhesive composition mineral powder in the composition of the adhesive composition contains mica and serpentinite, and the adhesive composition has a composition, wt. %: liquid alkali metal silicate - 65-69; mica - 2-8; serpentinite - 22-30.

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