RU2574271C1 - Epoxy-diane resin based fire-resistant composition - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: epoxy-diane resin based fire-resistant composition contains a polyethylene polyamine curing agent and filler. The filler is crosslinked polyacrylamide POLYSWELL, which first swells in an ammonia-neutralised 20% aqueous solution of phosphorus-boron-containing methacrylate (PBM) in a weight ratio POLYSWELL: neutralised PBM solution equal to 1:10. The composition contains components in the following ratio (pts. wt): epoxy-diane resin 100.0; polyethylene polyamine 15.0; the said filler, which first swells in the ammonia-neutralised 20% aqueous solution of PBM 5.0-20.0.

EFFECT: invention improves the fire-resistance of epoxy-diane resin based composites.

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Description

 FIRE RESISTANT COMPOSITION BASED ON EPOXY DIANA RESIN

The invention relates to the field of production of flame retardant compositions based on a polymer binder and can find application as adhesive compositions and protective coatings.

A fire-resistant composition is known containing epoxy diane resin, polyethylene polyamine, low molecular weight polybutadiene rubber, trichlorociphenyl, chloroparaffin, tetrabromophenol chlorohydrin ether, α-ferrocene and a mineral filler (USSR Author's Certificate 1543196, C08DL 63/02; Op.

However, this composition is multicomponent, which complicates the cooking process. The chlorine-containing compounds play the fire-retardant role, the effect of which is manifested in the gas phase. In this case, the formation of volatile halogen-containing toxic products.

A fire-resistant composition is known, including an epoxy diane resin, a plasticizer - dibutyl phthalate, a hardener - polyethylene polyamine, a filler, a product of the interaction of magnesium hydroxide and dimethylphosphite, with a phosphorus content (16.1-24.1%) (Pat. 2056444 Russia, C08L 63/02, С08К 13/02; publ. 03.20.1996).

However, the effectiveness of the specified flame-retardant composition is confirmed only by applying the latter to fiberglass, which is an additional component that increases fire resistance.

Closest to the invention in technical essence is a fire-resistant composition comprising an epoxy diane resin, a plasticizer is dibutyl phthalate, a hardener is polyethylene polyamine, a filler is a product of the interaction of aluminum hydroxide and dimethyl phosphite with phosphorus content (6.4-19.4%) (Pat. 2056445 Russia) , C08L 63/02, C08K 13/02; publ. 03.20.1996).

The effectiveness of the specified flame-retardant composition is confirmed only by applying the latter to fiberglass, which is an additional component that increases fire resistance.

The objective of the invention is to develop a flame retardant composition based on epoxy resin.

The technical result is to increase the fire resistance of composites based on epoxy Dianova resin.

The technical result is achieved in a fire-retardant composition based on epoxy Dianova resin containing a hardener - polyethylene polyamine and a filler, while the composition as a filler contains cross-linked polyacrylamide POLYSWELL, previously swollen in a neutralized ammonia 20% aqueous solution of phosphorus-containing methane FBWWWELL in mass ratio: a neutralized solution of FBM equal to 1:10, in the following ratio of the components of the composition, parts by weight: epoxy diane resin - 100.0; polyethylene polyamine - 15.0; the specified filler, previously swollen in neutralized with ammonia 20% aqueous solution of FBM - 5.0-20.0.

Epoxy Dianova resin brand ED-20 is the main binder in the composition (GOST 10587-84).

Polyethylenepolyamine is a hardener of epoxy compositions (TU 6-02-594-75).

As a filler, crosslinked POLYSWELL polyacrylamide is used, which has previously been swollen in a 20% aqueous solution of phosphorus-containing methacrylate FBM neutralized with ammonia at a mass ratio of POLYSWELL: neutralized FBM solution equal to 1:10.

POLYSWELL cross-linked polyacrylamide is a white granule that swells well in water, with a density of 0.8-1.0 g / cm ³ . GLO POLYSWELL LCM brand polyacrylamide is used to combat mud loss and is manufactured by Global Drilling Fluids and Chemical Limited Global: [GLO POLYSWELL [electronic resource] // GLOBAL DRILLING FLUIDS & CHEMICALS LTD. Access mode: http://www.globaldrillchem.com/ products / index / polyacrylamide-lcm_3951.html (accessed July 18, 2014)].

Phosphorus-containing methacrylate FBM increases fire resistance, heat resistance, resistance to thermal oxidative degradation of synthetic fibers (Pat. No. 2435890 Russia, D06M 13/282; publ. 10.12.11).

To neutralize a 20% solution of phosphorus-containing methacrylate FBM, ammonia was used (GOST-6221 -90) with a mass ratio of 20% solution of phosphorus-containing methacrylate FBM: ammonia 10: 1.3.

POLYSWELL impregnated with neutralized ammonia with a 20% aqueous solution of phosphorus-containing methacrylate PBM POLYSWELL gives increased fire resistance of the composition based on epoxy Dianova resin. When the flame acts on the filler, specific microexplosions and water are injected into the flame zone, as well as intense coke formation, which leads to a slowdown in combustion and heating of the material due to the absorption of a significant amount of heat. The use of ammonia - the neutralization of a 20% aqueous solution of FBM - can increase the fire resistance of the composition, due to the presence of nitrogen atoms, which also contribute to increased fire resistance.

The claimed composition allows to obtain composites based on epoxy Dianova resin with high fire resistance. The use of 5-20 mass. including filler most optimally. With an increase in the filler content, the uniformity of the distribution of filler in the composition decreases, and the cure time increases, which creates technological difficulties in the manufacture of the epoxy composite. The use of a lower filler content leads to a decrease in fire resistance.

Fire retardant composition is prepared as follows.

Epoxy Dianova resin and hardener - polyethylene polyamine are loaded into containers and mixed for 5-10 minutes. Then, the cross-linked polyacrylamide POLYSWELL is introduced, which has previously been swollen in a 20% aqueous solution of phosphorus-containing methacrylate FBM neutralized with ammonia with a mass ratio POLYSWELL: neutralized FBM solution equal to 1:10. The total cooking time is 20 minutes.

The invention is illustrated by the following example.

First, a 20% aqueous solution of phosphorus-containing methacrylate FBM is prepared, which is then neutralized with ammonia to pH 7 at a weight ratio of a 20% solution of phosphorus-containing methacrylate FBM: ammonia 10: 1.3.

To prepare the filler in a laboratory glass load 1 wt.h. POLYSWELL crosslinked polyacrylamide granules and 10.0 parts by weight neutralized with ammonia 20% aqueous solution of phosphorus-containing methacrylate FBM, mix until a homogeneous mass. Then kept at a temperature of 23 ° C for 20 minutes.

In a container containing 100.0 parts by weight epoxy Dianova resin and 15 parts by weight hardener - polyethylene polyamine, pre-swollen cross-linked polyacrylamide POLYSWELL is introduced, and the contents are mixed for 10-15 minutes until a homogeneous mass is obtained, then the composition is cured for 24 hours at room temperature 23 ° C.

For comparative tests, 4 versions of the compositions were prepared (by the method described in the example) and the composition according to the control example, the formulations of which are presented in table. one.

The composition is a beige viscous liquid.

In order to determine the effectiveness of the developed flame retardant compositions, they were tested by exposing the sample to an open fire source. The test setup is assembled on the basis of a laboratory chemical tripod and installed in a well-ventilated room. Samples for measurements have the following dimensions: diameter - 50 mm, thickness - 5 mm. The sample prepared for testing is fixed vertically in a tripod. Use a universal gas burner Bunsen, equipped with a nozzle with a hole diameter of 7 mm. A gas burner (using household gas) located in a horizontal position at a distance of not less than 200 mm from the sample is ignited and adjusted so that the flame height is 150-180 mm. The flame is directed exactly to the center of the fixed sample. The air supply is regulated until the yellow tip of the flame disappears.

The proposed compositions were tested for combustibility in accordance with GOST 28157-89 by the method of assessing the rate of horizontal flame propagation over the surface.

Temperature measurements are carried out by the device - S-300.3 pyrometer (GOST 28243-96 "Pyrometers. General technical requirements"). The principle of operation of the pyrometer is based on measuring the thermal radiation power of the measurement object mainly in the ranges of infrared radiation and visible light.

Using a pyrometer, a temperature change is recorded on the unheated surface of the test sample over time until the limit state of the test sample is reached. For the limiting state of the material, the appearance of a black spot on the unheated side of the prototype was taken - loss of integrity of the material.

Various contents of POLYSWELL crosslinked polyacrylamide, which had previously been swollen in a 20% aqueous TSF aqueous solution neutralized with ammonia, were investigated. The research results are shown in table 2.

From table 2 it is seen that the proposed composition exhibit greater fire resistance and provide a significant increase in fire resistance compared to the control example. For example, the time to reach the ultimate state of prototypes increases 10 times. The linear burning rate according to the control example is 18 mm / min, and using the indicated filler 1.18 mm / min (composition 3).

Thus, the introduction of an epoxy resin composition as a filler, previously swollen in a 20% aqueous solution of phosphorus-containing methacrylate neutralized with ammonia, crosslinked POLYSWELL polyacrylamide can increase the fire resistance of epoxy composites.

Claims (1)

Fire-retardant composition based on epoxy Dianov resin containing a hardener - polyethylene polyamine and a filler, characterized in that the composition as a filler contains cross-linked polyacrylamide POLYSWELL, previously swollen in ammonia-neutralized 20% aqueous solution of phosphorus-containing methacrylate FBWW with a mass ratio of POLELL: equal to 1:10, in the following ratio of components of the composition, parts by weight:
Epoxy Dianova Resin 100.0 Polyethylene polyamine 15.0 The specified filler, pre-swollen in neutralized with ammonia 20% aqueous FBM solution 5.0-20.0