RU2574277C1 - Fireproof heat protective composition - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: invention relates to heat protective coatings for surfaces of any shape, requiring heat protection, used in different industries: as heat protective coating (HPC) of pipelines in heating networks, boilers and other thermal devices, for processing of buildings, structures and internal premises in order to prevent high thermal losses and their increased fire safety. Fireproof heat protective composition on the basis of water dispersion of vinyl acetate includes titanium dioxide, modifying additive and filler. The composition additionally comprises a dispenser - quaternary ammonium salt Quartamin CO-86. As modifying additive - aluminium polyphosphate, and as filler - pearlite.

EFFECT: fireproof heat protective coating having higher heat and fire resistance.

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Description

The invention relates to heat-protective coatings for surfaces of any shape that require thermal protection, used in various industries: as a heat-protective coating (TZP) pipelines of heating networks, boilers and other thermal apparatuses; for the treatment of buildings, structures and internal premises in order to prevent large heat losses and increase their fire safety.

A fireproof heat-resistant coating is known (RU 2523818, IPC C09D 5/18, C09D 5/02, B82B 3/00, publ. 07.27.2014), including acrylic dispersion, glass hollow microspheres, kaolin, zinc borate, liquid sodium glass, silicon hydroxide titanium dioxide, perlite, aluminum hydroxide, decabromodiphenyl oxide, C-3 plasticizer, sodium silicofluoride, as well as water.

However, this coating has increased moisture absorption, which adversely affects the adhesion to metal and concrete.

A fireproof heat-resistant coating is known (RU 2215765, IPC C09D 161/14, C09D 5/18, C09D 127/06, C09D 163/02, publ. 10.11.2003), including a copolymer of vinyl chloride with acrylonitrile, phenolic-furfural-formaldehyde resin, epoxy Diane resin, hexamethylenetetramine in aliphatic alcohol, phosphopoliol, perlite, talc, mica, acetone.

The disadvantage of this coating is the use of organic solvents (acetone, aliatic alcohol), which increase the fire hazard in the manufacture and use of the composition.

A known method of producing a heat-insulating and fire-resistant multilayer combined polymer coating (RU 2352601, IPC C09D 5/18, C09D 5/02, V32V 27/20, publ. 04/20/2009), including polyvinyl acetate latex, a mixture of hollow microspheres, surfactants OP-7 and Neonol AF, titanium dioxide, zinc oxide, zinc borate, ammonium and sodium polyphosphate, fungicidal and biocidal additives and thickener.

However, the technical result is achieved through the use of several layers, which increases the complexity of its application and there is a possibility of delamination.

Known anti-corrosion and thermal insulation coating (RU 2304600, IPC C09D 5/02, C09D 5/08, publ. 08/20/2007), including polyvinyl acetate latex, titanium dioxide, lithopone, talc, chalk, mummies, thickener, sodium polyphosphate, sodium nitrite, OP-7, water, a mixture of hollow microspheres.

However, this coating is characterized by lower tensile strength at break, which can lead to a violation of the integrity of the coating, and consequently, to a decrease in the heat and fire resistance of the coating as a whole.

The closest to the achievement of the technical result is a heat-shielding composition (RU 2400506, IPC C09D 1/00, С08К 7/22, publ. 09/27/2010) containing aluminosilicon (30-77), an aqueous dispersion of vinyl acetate (6-50), hollow glass microspheres (12-30), auxiliary components in the form of coloring pigments, ammonium polyphosphate and hydrosil (5-20) and titanium dioxide (0-3).

A disadvantage of the known composition is that it is able to catch fire when exposed to an open flame.

The objective of the invention is to provide a composition for thermal protection coatings.

The technical result is a flame retardant heat-resistant coating having increased heat and flame resistance.

The technical result achieved is achieved by using a flame-retardant heat-shielding composition based on a polyvinyl acetate dispersion, including titanium dioxide, a modifying additive and a filler, the composition additionally containing a dispersant - Quartamin CO-86 quaternary ammonium salt, and aluminum polyphosphate as a modifying additive, and as a filler perlite in the following ratio of components, mass. %: polyvinyl acetate dispersion - 76.0; perlite - 14.0; aluminum polyphosphate - 5.0; the specified dispersant is 2.0; titanium dioxide - 3.0.

In the fire-resistant heat-shielding composition based on polyvinyl acetate dispersion, aluminum polyphosphate (GOST 3486-92) is used as a modifying additive, perlite (GOST 30566-98) as a filler, and titanium dioxide (GOST 9808-84) as coloring pigments. The dispersant used was Quartamin CO-86 quaternary ammonium salt: dialkyldimethylammonium chloride, where alkyl is the residue of tall acids C ₁₆ -C ₁₈ (US Pat. RU 2279450, IPC С08К 13/02, С08К 5/18, С08К 5/20, С08К 9/04, C08L 21 // 00, published on July 10, 2006). In particular, salts of the formulas:

The compositions of the prepared compositions and prototype are shown in table 1.

Aluminum polyphosphate in the composition is effective flame retardant flame retardant. Under the influence of the flame temperature on the surface of the protected material, polyphosphoric acid is formed, non-combustible gases are released and a foam heat-insulating layer is formed, which prevents the development of the flame. Perlite, containing constitutional water, also enhances heat and flame retardant performance. The quaternary ammonium salt used as a dispersant improves the quality of mixing the composition, ensures uniform distribution of heat and flame retardant components, and prevents its delamination.

The properties of the resulting coatings are presented in table 2.

The claimed amount of perlite and aluminum polyphosphate is optimal, since with a decrease in their amount, a decrease in the heat and fire resistance of the coating is observed, and an increase in their dosage is not practical, since this does not significantly affect the further improvement of the set of properties.

The combination of perlite and aluminum polyphosphate exhibits fire and heat protection characteristics in two directions: when exposed to fire, perlite ensures the expansion of the material, which allows dense coke with uniformly distributed fine porosity, which creates an effective heat-resistant protective layer, and aluminum polyphosphate provides self-extinguishing with a low smoke density.

A method of obtaining a heat-shielding composition.

A polyvinyl acetate dispersion is introduced into the mixer with constant stirring, then a titanium dioxide dispersant is added and modifying additives are added. Stirring is carried out at room temperature for 40-45 minutes until a homogeneous mixture is achieved. The finished heat-shielding composition is a homogeneous paste-like mass. The composition is easy to use, easily diluted with water and can be applied to the surface with a brush or spatula. Depending on the method used and the application tool, the composition can be diluted with water, the amount of which is determined by the required consistency of the mixture. After application to the surface and drying (water evaporates) at ambient temperature, a dense non-combustible heat-protective coating is formed. The thickness of the finished coating is 1-3 mm.

Thus, the use of the proposed fire-resistant heat-protective coating based on polyvinyl acetate dispersion allows to obtain coatings with increased heat and flame retardant properties while maintaining their physical and mechanical characteristics.

Claims (1)

Flame retardant heat-shielding composition based on polyvinyl acetate dispersion, including titanium dioxide, a modifying additive and a filler, characterized in that the composition further comprises a dispersant Quartamin CO-86 quaternary ammonium salt, as a modifying additive, aluminum polyphosphate, and perlite as a filler in the following ratio components, wt.% .:
Polyvinyl acetate dispersion - 76.0;
Perlite - 14.0;
Aluminum polyphosphate - 5.0;
The specified dispersant is 2.0;
Titanium Dioxide - 3.0.