RU2500703C2 - Fire retardant composition "lider" - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: fire retardant composition contains epoxy resin, a curing agent, aluminium hydroxide, a fire retardant system consisting of ammonium polyphosphate, melamine and pentaerythritol, titanium dioxide as a UV filter, melamine borate and a solvent.

EFFECT: obtaining a fire-retardant coating intended for use in chemically aggressive conditions of the industrial atmosphere.

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Description

The invention relates to fire retardant coatings, in particular to building fire retardant materials, and is intended for applying a fire retardant coating on the surface of load-bearing metal structures during the construction of various buildings and structures to provide the required limit of their fire resistance and stability when working in an aggressive atmosphere.

Various flame retardants and their combinations are known from the prior art, for example, melamine borate and pentaerythritol in combination with ammonium polyphosphate (EA 6144 B1, 10.27.2005), however, this known coating, providing good fire retardant properties, does not provide resistance to atmospheric aggressive factors.

Closest to the proposed invention is a composition for producing a fire retardant coating based on epoxy resin (100%) including intercalated graphite (20-50%), tricresyl phosphate (25-40%), aluminum hydroxide (30-45%), zinc borate (10 -35%), organobentonite (1.5-3.0%) and hardener (30-35%) (RU 2387693 C1 IPC S09K 21/14 (2006.01) C09D 5/18 (2006.01).

The disadvantage of this composition is the unsatisfactory fire retardant properties and the lack of resistance to atmospheric influences such as UV radiation. In addition, this composition does not provide chemical resistance of the coating.

This is because the main emphasis in the composition for ensuring fire-retardant efficiency is placed on intercalated graphite (an expandable component) and low-effective flame retardant - zinc borate (decomposing with an endothermic effect).

Prior to the present invention, a balanced qualitative and quantitative composition of the composition has not been developed, at the same time providing both improved fire retardant properties and the ability to operate the coating in chemically aggressive conditions of an industrial chemically aggressive atmosphere.

The technical result of the present invention is the creation of a flame retardant composition containing a chemically stable composition with a highly effective flame retardant in combination with protective components, which allows the coating to be operated in chemically aggressive conditions of an industrial chemically aggressive atmosphere.

The technical result is a fire retardant coating composition containing epoxy resin, hardener, aluminum hydroxide, flame retardant and borate, characterized in that it contains a flame retardant system consisting of ammonium polyphosphate, melamine and pentaerythritol, the solvent, as borate, contains melamine borate and additionally contains dioxide titanium as a UV filter in the following ratio of components, wt.%:

Epoxy resin - 30-40;

Titanium dioxide - 2-3;

Melamine - 10-20;

Melamine borate - 5-10;

Aluminum hydroxide - 5-10;

Pentaerythritol - 15-25;

Ammonium polyphosphate - 15-25;

Polyethylene polyamine - 2-5;

Xylene - the rest.

The essence of the invention lies in the fact that, unlike the prototype, the fire retardant composition, including epoxy resin, hardener, aluminum hydroxide, instead of zinc borate contains melamine borate, and instead of intercalated graphite it contains a flame retardant system consisting of ammonium polyphosphate, melamine and penta-erythritol, as well tricresyl phosphate and organobentonite were removed from the system and titanium dioxide was introduced as a UV filter.

A significant difference of the present invention is the use of a highly effective flame retardant system in a flame retardant composition which, in combination with other components of the composition at elevated temperatures, ensures the occurrence of endothermic reactions with the release of gas combustion inhibitors and intensive foaming of the coating, which increases the heat and flame retardant properties of the resulting foam coke.

Example 1

The composition is prepared as follows: in a mixing container, epoxy resin (epoxydianine) is diluted with a solvent (xylene, toluene) to the required consistency, and dry components are successively loaded into the resulting solution and mixed for 150 minutes. Immediately before use, the calculated amount of PEPA hardener is added to the composition.

The composition is taken in the following amount, wt.%:

Epoxy resin - 40;

Titanium dioxide - 2;

Melamine - 10;

Melamine borate - 5;

Aluminum hydroxide - 5;

Pentaerythritol - 15;

Ammonium polyphosphate - 15-25;

PEPA hardener - 5;

Xylene - the rest.

The viability of the composition is 90 minutes.

The composition was applied to the surface by airless spraying. When applied, in two doses, an interlayer exposure of 24 hours under normal conditions.

The final drying of the coating was 7 days.

On the prepared (primed) surface of metal structures, the composition was applied in a thin layer, the thickness of the wet layer was 600 μm.

Evaluation of the flame retardant effectiveness of the composition was carried out in accordance with GOST R 53295 and GOST 30247.1 and showed an excess of fire resistance by 15% compared with the prototype.

The total fire resistance of metal structures with the claimed coating is at least R90.

Resistance to UV and aggressive substances during testing of the finished coating showed an increase of 15% and 20%, respectively, compared with analogues.

The temperature range for the operation of the coating is from plus 50 ° C to minus 30 ° C and relative humidity up to 100%.

The fire-retardant composition is intended for the operation of the coating in chemically aggressive conditions of an industrial atmosphere in accordance with GOST 9.403-80.

The composition has adhesion to the substrate 1 point according to GOST 15140.

Example 2

The composition was prepared as in example 1, but in the following amount, wt.%:

Epoxy resin - 30;

Titanium dioxide - 2;

Melamine - 10;

Melamine borate - 5;

Aluminum hydroxide - 5;

Pentaerythritol - 15-;

Ammonium polyphosphate - 25;

Hardener PEPA - 2;

Toluene is the rest.

The viability of the composition is 60 minutes.

The composition was applied to the surface by airless spraying. When applied in two or more steps, an interlayer exposure of 25 hours under normal conditions.

The final drying of the coating was 14 days.

On the prepared (primed) surface of metal structures, the composition was applied in a thin layer, the wet thickness was 500 μm.

The temperature range for the operation of the coating is from plus 50 ° C to minus 30 ° C and relative humidity up to 100%.

The fire-retardant composition is intended for the operation of the coating in chemically aggressive conditions of an industrial atmosphere in accordance with GOST 9.403-80.

Evaluation of the flame retardant effectiveness of the composition was carried out in accordance with GOST R 53295 and GOST 30247.1 and showed an excess of fire resistance by 15% compared with the prototype.

The total fire resistance of metal structures with the claimed coating is at least R90.

Resistance to UV and aggressive substances during testing of the finished coating showed an increase of 15% and 20%, respectively, compared with analogues.

The temperature range for the operation of the coating is from plus 50 ° C to minus 30 ° C and relative humidity up to 100%.

Example 3 (comparative).

The composition was prepared as in examples 1 or 2, but in an amount different from the declared, wt.%:

Epoxy resin - 40;

Titanium dioxide - 2;

Melamine - 9;

Melamine borate -11;

Aluminum hydroxide - 4;

Pentaerythritol - 12;

Ammonium polyphosphate - 15;

PEPA hardener - 1.5;

Xylene - the rest.

The viability of the composition is 20 minutes.

The composition was applied to the surface as in Example 1.

The temperature range for the operation of the coating is from plus 250 ° C to minus 10 ° C and relative humidity up to 90%.

The fire-retardant composition cannot be intended for use in accordance with GOST 9.403-80, adhesion to the substrate is also lower and does not comply with GOST.

Example 4

In the mixing tank, the epoxy is diluted with a solvent (toluene), the dry components are sequentially loaded and mixed for 150 minutes. Immediately before use, the calculated amount of PEPA hardener is added to the composition. The composition is taken in the following amount, wt.%:

Epoxy resin - 35;

Titanium dioxide - 2.7;

Melamine - 10.5;

Melamine borate - 6;

Aluminum hydroxide - 6;

Pentaerythritol - 18;

Ammonium polyphosphate - 17;

Hardener PEPA - 2;

Toluene is the rest.

The viability of the composition is 85 minutes.

On the prepared (primed) surface of metal structures, the composition was applied by airless spraying in 3 layers, the thickness of the wet layer was 400 μm and kept in the interval of 26 hours under normal conditions.

The final drying of the coating was 10 days.

Evaluation of the flame retardant effectiveness of the composition was carried out according to GOST R 53295 and GOST 30247.1 and showed an excess of fire resistance by 16% compared with the prototype.

The total fire resistance of metal structures with the claimed coating is at least R90.

Resistance to UV and aggressive substances during testing of the finished coating showed an increase of 12% and 23%, respectively, compared with analogues.

The temperature range for the operation of the coating is from plus 50 ° C to minus 30 ° C and relative humidity up to 100%.

The fire-retardant composition is intended for the operation of the coating in chemically aggressive conditions of an industrial atmosphere in accordance with GOST 9.403-80.

The composition has adhesion to the substrate 1 point according to GOST 15140.

Claims (1)

Fire-retardant coating composition containing epoxy resin, hardener, aluminum hydroxide, flame retardant and borate, characterized in that it contains a flame retardant system consisting of ammonium polyphosphate, melamine and pentaerythritol, a solvent, contains melamine borate as borate and additionally contains titanium dioxide as UV filter in the following ratio, wt.%:
Epoxy resin 30-40 Titanium dioxide 2-3 Melamine 10-20 Melamine Borate 5-10 Aluminum hydroxide 5-10 Pentaerythritol 15-25 Ammonium polyphosphate 15-25 Hardener 2-5 Solvent Rest