RU1782994C - Composite fire-protective coating for wooden products and method for its application - Google Patents

Abstract

Usage: fire retardant coating technology for wood building materials. SUMMARY OF THE INVENTION: Wood is heat treated with a gas stream. Fireproofing material is applied to its surface. The material contains aluminum oxide (0.4-12 wt.%) And aluminum (the rest). Application of the material is carried out with tazoplane metallization. The Oxygen excess coefficient in the melting zone of the material is 1.2-1.4. 2 sp.p. f-ly, 2 tab.

Description

The invention relates to building materials.

Improving the fire resistance of building materials and wood products is ensured by their impregnation with inorganic solutions or the application of protective coatings. A coating containing layers of fire-retardant felt and a gas-tight metal foil is quite effective. The disadvantages of this coating include the complexity of the technology for its manufacture and deposition, due to the need to apply metal foil to the surface of the felt, and therefore this type of coating is not widespread.

A composite fire retardant coating for wood products is also known, containing a binder and a refractory filler, inorganic components being used as a binder, and as

filler - titanium oxides. A method of applying such a coating to a wood surface involves painting and heat treatment operations.

The disadvantages of this fire retardant coating and the method of its application include low fire resistance of wood materials and products.

The closest to the invention in technical essence and the achieved result is a composite fire retardant coating for wood products containing aluminum oxide and aluminum; the method of applying it involves preheating the surface of the products with a gas jet and applying a coating by flame metallization.

The disadvantages of this fire retardant coating and the method of its application include low fire resistance of wood materials and products.

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The purpose of the invention is to increase the fire resistance of wood materials and products.

This goal is achieved in that in a composite fire retardant coating for wood products containing aluminum oxide and aluminum, the components use the following ratio, wt.%: Aluminum oxide 0.4-12; aluminum 88-99.6.

In addition, in the method of applying a composite fire retardant coating for wood products, comprising preheating the surface of the article with a gas jet and applying flame coating, surface heating and metallization of the articles is carried out with an oxygen excess ratio of 1.2-1.4.

The choice of aluminum powder as a binder in a mass ratio of 88-99.6 is due to higher thermal conductivity, high processability during spraying, which provides a practically non-porous coating, as well as a high degree of chemical bonding with aluminum oxide, which is part of the mass coating the ratio of 0.4-12.

When using AI and A (20c with the above ratios, the effect of increasing fire resistance is most significant.

The upper limit (12%) of the content of alumina in the initial mixture is due to the requirements for coating quality (the need for a dense coating) .With an alumina content exceeding 12 msec.%, The porosity of the coating obtained by flame metallization increases sharply, and along with the increase in porosity Coating The overall fire resistance of the products is reduced.

The lower limit (0.4%) of the alumina content in the starting mixture is due to the high reactivity of the aluminum, which can cause intense burning of the coating when exposed to fire. With an alumina content in excess of 0.4%, no ignition of the coating was observed.

When implementing this method of coating, the coefficient of excess oxygen in the melting zone of the sprayed material is significant; in particular, optimum coating properties are achieved with an oxygen excess ratio of 1.2-1.4. With an increase in excess oxygen above 1.4, additional oxidation is observed

starting materials, which is accompanied by an increase in the content of alumina in the coating and, as a result, an increase in the porosity of the latter and a decrease in its fire resistance.

On the other hand, when the coefficient of excess oxygen is less than 1.2, the intensity of the heating of the sprayed powder particles is insufficient to form

low porous coating, which also leads to a decrease in the quality of the coating (increase in porosity) and a decrease in the fire resistance of coated wood. Example. Samples of wood with dimensions of 150 x 60 x 30 mm are subjected to heat treatment by heating the surface with a high-temperature gas jet until light brown tones appear on the surface to be treated.

The temperature of the gas stream is 800-1000 ° C.

The charge mixture of aluminum with aluminum oxide is fed into the gas stream of propane and oxygen products of combustion (calculated ratio 1: 5, coefficient of excess of cis / foolish 1.3). The distance from the cut-off of the catalyst nozzle to the machined surface area of 100-150 mm. Coating thickness 300-350 microns. The resulting samples are tested for fire retardant efficiency of coatings in accordance with GOST 16363-76 by the ceramic pipe method.

For comparison by the same method, uncoated wood samples are tested.

wood samples with a phosphate coating, as well as coated according to the prototype. The results are presented in table 1.

From the data of Table 1 it follows that the described composite coating and the method of applying it to wood provide wood conversion and a group of flame-retardant materials (group II flame retardants in accordance with GOST 16363-76).

The experimental results shown in Table 1 were obtained for a variant of the technological process implemented at a coefficient of excess oxygen in the gas mixture equal to 1.3 (the middle of the claimed

range).

The results regarding the fire-retardant properties of coatings obtained at boundary (1.2; 1.4) and transcendental (1.0; 1.5) values of the oxygen excess coefficient during heating of the product surface and its metallization are given in Table 2 .

Thus, the invention improves the fire resistance of wood and wood products.

Claims (2)

The claims 1, Composite fire retardant coating for wood products containing aluminum oxide and aluminum, characterized in that, in order to increase fire resistance, aluminum oxide and aluminum are used in the following ratio, wt.%: Alumina 0.4-12 Aluminum88-99.6. 2. A method of applying a composite fire retardant coating for wood products, comprising pre-heating the surface of the product with a gas jet and applying a flame metalization, characterized in that the surface is heated and the product is metalized with an excess of oxygen in the stream 1.2-1.4 . Table 1 table 2