RU2771645C1 - Polymer composition - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: present invention relates to a polymer composition for use as an adhesive-active coating of highly filled polymer compositions (energy condensed systems). This composition contains components, wt. %: epoxy polyurethane resin 80-120, hardener 15-65, melamine polyphosphate 10-100, curing accelerator 1-5. Epoxy urethane resin is obtained by mixing and heating the epoxy component with polyisocyanate. The epoxy component includes an epoxy resin based on 4,4'-dioxydiphenylpropane with a molecular weight from 340 to 600, a technical diglycidyl ether of polyepichlorohydrin and a technical laproxide, which is an oligomer of propylene oxide with terminal epoxy groups with a molecular weight from 250 to 900. A liquid mixture of aromatic amines was used as a hardener. Melamine polyphosphate is used as a filler, which is a polymer compound formed by melamine and phosphate fragments. Benzoic or salicylic acid is used as a curing accelerator.

EFFECT: creation of a polymer composition of accelerated curing with good rheological characteristics, having reduced moisture absorption and high temperature resistance, for use as an adhesive–active coating of all types, highly filled polymer compositions (energy condensed systems), which meets the requirement of long-term operation at high temperatures.

1 cl, 3 tbl, 8 ex

Description

The invention relates to the development of polymer compositions based on epoxy resins, amine hardeners, fillers and other components for use as adhesive-active coatings of highly filled polymer compositions (energy condensed systems), as well as potting compounds in electronics, electrical and radio electronics, in construction and other purposes.

Known polymer composition based on epoxyurethane resin, amine hardener and filler for use as an adhesive coating of highly filled polymer compositions (energetic condensed systems).

The disadvantage of this composition is a long curing, increased moisture absorption and low heat resistance, which does not allow to meet the operational requirements of the coating based on it at high temperatures.

The technical objective of the invention is to create an accelerated curing polymer composition with good rheological characteristics, with reduced moisture absorption and high heat resistance, for use as an adhesive-active coating of all types, highly filled polymer compositions (energetic condensed systems), providing the requirement for long-term operation at high temperatures.

This goal is achieved by the fact that in a polymer composition based on epoxyurethane resin obtained by stirring and heating the epoxy component, including epoxy resin based on 4,4'-dioxydiphenylpropane with a molecular weight of 340 to 600 (A), technical polyepichlorohydrin diglycidyl ether (B ) and technical laproxide, which is an epoxy-terminated propylene oxide oligomer with a molecular weight of 250 to 900 (B) in the ratio (A:B:C) from 5:70:25 to 90:5:5 with the ratio of the epoxy component ( A + B + C) with polyisocyanate from 85:15 to 98:2, amine hardener - a liquid mixture of aromatic amines, mineral filler and ammonium polyphosphate, an additional curing accelerator benzoic or salicylic acid was added and melamine polyphosphate was used as a filler, which allows to increase moisture resistance and heat resistance of the adhesive-active coating with the following content of components, parts by weight: 80-120 epoxyurethane resin, 15-65 aromatic amine hardener, 10-100 melamine polyphosphate, 1-5 curing accelerator - benzoic or salicylic acid.

This is confirmed by examples.

Example 1

Obtaining a double mixture

Epoxyurethane resin and benzoic acid (B) in a ratio of 80:5 are loaded into a reactor equipped with heating and a stirrer, the temperature is raised to 60°C and stirred for 20 minutes with the stirrer running.

The double mixture is poured into a metal container and cooled to 20°C.

The parameters for obtaining a double mixture according to examples 2÷8 are shown in table 1.

Getting a composition

In another reactor, equipped with a stirrer and a vacuum system, load 85 wt.h. double mixture, after which 10 wt.h. melamine polyphosphate, 20 wt.h. liquid eutectic mixture of 1,3-phenylenediamine, 4,4'-dioxydiphenylpropane and para-aminobenzene aniline in the ratio 30:30:40.

The composition is stirred for 15 minutes at 25°C, then poured into a mold and cured at 60°C for 4 hours.

The parameters for obtaining polymer compositions according to examples 2÷8 are shown in table 2

The claimed composition has an accelerated curing time, increased moisture resistance, tests of the composition as an adhesive-active coating of highly filled polymer compositions (energetic condensed systems) showed its performance under long-term operation at high temperatures.

Claims (2)

Polymer composition for use as an adhesive-active coating of highly filled polymer compositions (energetic condensed systems) based on an epoxy urethane resin obtained by stirring and heating an epoxy component, including an epoxy resin based on 4,4'-dioxydiphenylpropane with a molecular weight of 340 to 600, technical diglycidyl polyepichlorohydrin ether and technical laproxide, which is an oligomer of propylene oxide with terminal epoxy groups with a molecular weight of 250 to 900, with a polyisocyanate, a liquid mixture of aromatic amines is used as a hardener, a filler is a mixture of mineral filler and ammonium polyphosphate, characterized in that it is additionally introduced the curing accelerator is benzoic or salicylic acid and melamine polyphosphate is used as a filler, which is a polymer compound formed by melamine and phosphate fragments, which allows to increase moisture resistance and thermal protection properties of the coating at the following content of components, wt.h.: Epoxy urethane resin 80-120 Hardener 15-65 Melamine polyphosphate 10-100 curing accelerator 1-5