SU1730094A1 - Cold curing epoxy compound - Google Patents

Abstract

Use: as binders for fiberglass. Essence: the composition contains 100 wt.h. epoxy resin, 5-45 wt.h. aliphatic epoxy resin based on di-triethylene glycol or polyoxyethylene triol and 14-47 wt.h. hardener - product of the interaction of monocyanethyl-irovine aliphatic amine with 1,3,3-trimethyl-2-methylenmindoleinin-omega-aldehyde with their mass ratio (19.1-90) :( 9.3-55) mol. weight 200-240 with a total content of amino groups of 8.9-30.5%. The composition is prepared by blending the components. Curing of the composition and fiberglass on its basis is carried out at 25 ° C for 48 hours. 1 tab. (L

Description

This invention relates to epoxy compositions used as binders for fiberglass.

A known epoxy composition containing the product of the interaction of (3-hydroxyethyl hydrazine) with p- (dimethylamino) benzaldehyde as a tinder. The composition possesses high viability, enhanced physicomechanical properties during low-temperature curing under conditions of high humidity.

The disadvantages of this composition are low physicomechanical characteristics of fiberglass obtained on its basis and high water absorption.

A known epoxy composition containing, in addition to a hardener, an aliphatic polyamine and an epoxy resin, an aliphatic epoxy resin as a diluent. The composition has a low initial viscosity, high physicomechanical indicators.

The disadvantages of this composition are low viability in large mass, high water absorption and low physico-mechanical properties of fiberglass based on it,

Closest to the proposed technical essence and the achieved result is an epoxy composition containing as a hardener products 1 so about

YU

N

Interaction of aliphatic polyamines with acrylonitrile in a molar ratio of 1: 1. The composition has low initial viscosity, high physicomechanical properties, low water absorption,

The disadvantages of the known composition are due to the low viability in large mass, low physicomechanical indicators and water absorption of fiberglass based on it.

The purpose of the invention is to increase the viability in a large mass of the composition and its physical and mechanical properties, water resistance and strength properties of glass-reinforced plastics based on it.

This goal is achieved by the fact that an epoxy composition comprising an epoxy resin and a modified aliphatic amine, as a modified aliphatic amine, contains the product of the interaction of a monocyanethylated aliphatic amine with 1,3,3-trimethyl-2-methylenindolenin-omega-aldega house at their mass ratio (19.1- 90) :( 9.3-55) mol. weighing 200-340 with a total content of amino groups of 8.9-30.5% and additionally an aliphatic epoxy resin based on di- and triethylene glycol or polyoxypropylene triol in the following ratio of components, wt.h .:

Epoxy Diane Resin100

Aliphatic

epoxy resin5-45

Hardener14-47

1,3,3-trimethyl-2-methylene indole-enin-omega-aldehyde (trimethyl aldehyde) - is used as a hardener. intermediate of dye cationic yellow production 6 3 (TU 6-36-57-63-445-194-89).

Monocyanoethylated triethylentetramine or diethylenetriamine UP-0633M (TU 6-05-1863-78) or hexamethylenediamine (TU 15P- 592-70) are used as monocyanethylated aliphatic amines.

As an aliphatic epoxy resin, DEG-1 (TU 6-05-1645-73), polyoxypropylene triol glycidyl ether — Laproxide 503M (TU 6-05-221-740-86), TEG-1 (TU 6-05-1823 -77).

Fiberglass fabrics of the following brands: TR-0,7 (OST 6-11-2.09-74), EZ / 1-100-PT (GOST 19907-83), T-41 (TU 6-11-551-82) and thread penetration are used material of the mark НПУ 0,5-76 (ТУ 6- 11-504-80).

Example 1. Under constant stirring, the heated reactor was charged with 19.1 May, h, the mono-ethylated ethylene tetramine tetramine was heated to 80 ± 5 ° C and 9.3 wt.h. was added in small portions. 1,3,3-trimethyl-2-methylenindolenin-omega-aldehyde (trimethyl aldehyde). During the synthesis process, the temperature of the reaction mass is maintained at 90-100 ° C. After stopping the supply of trimethylaldehyde, the reaction mass is continued to be stirred for. 1 h at 95 ± 5 ° С.

The resulting product has the following 0 characteristics:

Appearance Liquid yellow

colors

Mol mass290.5

Content 5 primary

amino groups,% 2,8 The content of secondary

amino groups,% 7,8

0 The resulting product (28.5 parts by weight) is mixed with a mixture of 100 parts by weight ED-20 epoxy diane resin and 25 wt.h. DEG-1 aliphatic epoxy resin, after all the components are mixed, the TR-0,7 fiberglass fabric is impregnated with the obtained binding agent and fiberglass is made by contact molding. Curing is carried out at 25 ° C for 48 h.

EXAMPLE 2 The procedure is carried out analogously to Example 1, but in the manufacture of curing, 0 l use monocyanethylated diethylenetriamine PUP-0633Mi and trimethylaldehyde at a mass ratio of 45:55.

The resulting product has the following 5 characteristics:

Appearance Liquid brown

colors

Mol mass339-340

Content 0 primary

amino groups,% No Secondary content

amino groups,% 8,9 5 The ratio of components

compositions, parts by weight: Epoxy-dianin ED-20 resin 100 Aliphatic epoxy resin DEG-125

0 hardener 20,5

Impregnated glass fiber brand EZ / 1-1100-PT.

EXAMPLE 3. The procedure was carried out analogously to Example 1, but in preparing the hardeners, cyanethylated hexamethylenediamine and trimethyl aldehyde are used at a mass ratio of 90:10.

The resulting product has the following characteristics:

Yellow liquid 200-203

8.0

22.5

The ratio of components

100

25 19.5

compositions, mac

ED-20 epoxy-diane resin

Aliphatic epoxy

deg-1 resin

Hardener19,5

Impregnated fiberglass brand T-41.

Example 4. It is carried out analogously to example 1, but as an aliphatic epoxy resin, the glycidyl ether of polyoxypropylene triol of the Laproxide brand 503 M is used in the following ratio of components in the composition, wt.h.

Epoxydianova

ED-20100 resin

Aliphatic

epoxy resin

Laproxid45

Hardener.47

Impregnated fiberglass brand TR-0,7 iEZ / 1-SO-PT.

EXAMPLE 5 The procedure is carried out analogously to Example 1, but with the following ratio of components in the composition, wt.

Epoxydianova

ED-22100 resin

Aliphatic

epoxy resin

Laproxide

Hardener

Impregnated with nitproshivnoy material brand NPU 0.5-76.

EXAMPLE 6: Carried out analogously to Example 1, but with the following ratio of components in the composition, wt.

5 14

five

0

five

0

five

Epoxydianova

ED-22100 resin

Aliphatic

epoxy resin 5TEG-130

Hardener35,8

The properties of the proposed composition and fiberglass on its basis, as well as data for the prototype and known compositions 0 are presented in the table.

Thus, the composition according to the invention leads to an increase in the viability in the mass of 5000 g, the physicomechanical properties of the polymers, as well as the water resistance and strength properties of glass plastics based on it.

Claims (1)

Claims An epoxy cold curing composition comprising an epoxy diane resin and a modified aliphatic amine, characterized in that, in order to increase the viability in a large mass of the composition and its physicomechanical properties, water resistance and strength properties of glass-reinforced plastics based on it, modified aliphatic amine, it contains the product of the interaction of monocyanethylated aliphatic amine with 1,3,3-trimethyl-2-methylenindolenine-omega-aldehyde in their mass ratio (19.1-90) :( 9.3-55) mol. weight 200-240 with a total content of amino groups of 8.9-30.5% and additionally aliphatic epoxy resin based on di-, triethylene glycol or polyoxypropylene triol in the following ratio of components of the composition, parts by weight: Epoxy Diane Aliphatic Epoxy Resin Modified Aliphatic Amine Note. Curing samples of glass and plastics is carried out at 25 ° C for% 3 hours