RU2492203C1 - Heat-resistant adhesive composition - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to a polymer-based heat-resistant adhesive composition and can be used in rubber industry in making heat-resistant multilayer rubber-fabric articles, particularly rubber-cord casings, as well as high-pressure flexible hoses used in aggressive media at high temperatures, where oil- and petrol-resistant materials are required. The heat-resistant adhesive composition contains medium-crystallising chloroprene rubber, zinc oxide, magnesium oxide, a vulcanising group, a colloidal acid, an adhesion modifier, colophony, a solvent mixture, additionally contains high-crystallising chloroprene rubber and butadiene-nitrile rubber with polyvinyl chloride, with the following ratio of components, pts.wt: medium crystallisation speed chloroprene rubber 35-45; high crystallisation speed chloroprene rubber 35-45; chloroprene rubber and butadiene-nitrile rubber 10-30; colophony 40-60; zinc oxide 4.0-6.0; magnesium oxide 3.0-5.0; adhesion modifier 1.0-3.0; colloidal silicic acid 35-60; ground sulphur 1.0-2.5; thiuram D 0.3-1.0; diphenyl guanidine 0.3-1.0; toluene 250-300; nefras 200-250; ethyl acetate 250-300.

EFFECT: high strength of adhesion of the BNKS-based rubber mixture to rubber-coated synthetic cord.

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Description

The invention relates to a polymer-based adhesive composition and can be used in the rubber industry in the manufacture of heat-resistant multilayer rubber-fabric products, in particular rubber-cord shells, as well as high-pressure flexible hoses for use in aggressive environments at elevated temperatures where oil and petrol resistant materials are required.

Known adhesive composition (AS 1645274, IPC C09J 109/00, publ. 04/30/91, Bull. No. 16), including chloroprene rubber, zinc oxide, rosin, dibutyl phthalate, colloidal silicic acid and the molecular complex of resorcinol with urotropine - RU, gasoline and ethyl acetate.

A disadvantage of the known adhesive composition is poor confectionary stickiness due to the low concentration of rosin 4-6 wt.h. and as a result of this, the reduced fastening strength of the rubber compound based on toxic nitrile butadiene rubber to a cord rubberized with a rubber compound based on general purpose rubbers.

The closest in technical essence and the achieved technical result is an adhesive composition (AS 2304603, IPC C09J 109/00, publ. 08.20.07, Bull. No. 23), including chloroprene rubber, zinc oxide, rosin, colloidal silicic acid and molecular a complex of resorcinol with urotropin - RU, nefras and ethyl acetate.

A disadvantage of the known adhesive composition is the insufficient level of oil, gas and heat resistance, which does not guarantee the reliable operation of rubber products at temperatures above plus 100 ° C.

The proposed heat-resistant adhesive composition is intended for bonding rubbers based on nitrile butadiene rubber (BNKS), including hydrogenated (GBNC), with cord rubberized with non-polar rubbers and with rubbers based on them, as well as for bonding rubbers between themselves based on BNKS (GBNK) by applying an adhesive composition to glued parts in the manufacture of multilayer rubber cord products. For bonding these materials, it is optimal to use chloroprene rubber in the adhesive composition, which is well combined with nitrile butadiene rubbers due to the close values of their solubility parameters (19.2 and 19.4 (MJ / m ³ ) ^1/2 ), while chloroprene rubber has a structural effect on polydiene rubbers. The proposed heat-resistant adhesive composition allows to unify the manufacturing process of multilayer rubber-cord shells by applying one glue and imparting the necessary operational properties to the product made by the method of confectionary assembly.

The technical result of the invention is the creation of a heat-resistant adhesive composition, which increases the strength of fastening the rubber mixture based on BNKS (GBNK) to a synthetic cord rubberized with a rubber mixture based on rubbers of general purpose, increases the bonding strength of rubbers based on BNKS with each other and with rubbers based on rubbers general purpose, and also increases the heat and oil resistance of adhesive joints.

The technical result is achieved by the fact that the heat-resistant adhesive composition, including medium crystallizing chloroprene rubber, zinc oxide, magnesium oxide, vulcanizing group, colloidal acid, adhesion modifier, rosin, solvent mixture, additionally contains highly crystallizing chloroprene rubber and butadiene-nitrile rubber PVC rubber , in the following ratio of components, parts by weight:

chloroprene rubber with an average crystallization rate 35-45 high crystallization chloroprene rubber 35-45 BNK-PVC 10-30 rosin 40-60 zinc oxide 4.0-6.0 magnesium oxide 3.0-5.0 adhesion modifier 1.0-3.0 colloidal silicic acid 35-60 ground sulfur 1.0-2.5 tiuram D 0.3-1.0 diphenylguanidine 0.3-1.0 toluene 250-300 nefras 200-250 ethyl acetate 250-300

As BNK-PVC rubber, rubber of the SKN-26-PVC-30 brand according to TU 38.103213-2006 can be used.

An increase in the adhesion strength between the BNKS-based rubber compound and the synthetic cord rubberized with general rubbers, as well as other rubbers, is achieved by applying a triple combination of rubbers in the proposed heat-resistant adhesive composition: two chloroprene mercaptan regulation (highly crystallized and medium crystallized) and butadiene-nitrile rubber polyvinyl chloride (BNK-PVC). Nitrile butadiene rubber with polyvinyl chloride (BNK-PVC) is used to increase the oil resistance of the adhesive composition and to enhance the interaction of chloroprene adhesive with the rubbers of the substrates, thereby increasing the adhesive strength between them. The use of chloroprene rubbers of mercaptan regulation helps to increase the resistance of the adhesive film to thermal aging. The most heat-resistant of these chloroprene rubbers is highly crystallized rubber, however, the adhesive mixture based on it is poorly soluble in the solvents used. Thanks to the triple combination of the above rubbers, this disadvantage is eliminated while maintaining a sufficient level of heat resistance of the adhesive film.

As a result of applying the combination of the proposed components of the heat-resistant adhesive composition, the heat and oil and oil resistance of the adhesive film and the bond strength between the layers of rubber-cord composite significantly increase. To conduct comparative tests, vulcanizates of adhesive mixtures of the proposed heat-resistant adhesive composition were manufactured and tested, characterized by the rubber content. The composition of the mixtures (without solvents and rosin) of the known and proposed heat-resistant adhesive compositions are shown in table 1. As the vulcanizing group in the mixtures used: ground sulfur, thiuram D and diphenylguanidine.

Table 1 The composition of the mixtures of known and heat-resistant adhesive composition Name of ingredient Content by weight per 100 parts by weight rubber Known adhesive composition The proposed heat-resistant adhesive composition 1 option Option 2 3 option Medium crystallizing chloroprene rubber one hundred 45.0 40,0 35.0 Nitrile butadiene rubber with polyvinyl chloride BNK-PVC 10.0 20,0 30,0 High crystallisation chloroprene rubber 45.0 40,0 35.0 Zinc oxide 5,0 4.0 5,0 6.0 Magnesium oxide - 3.0 4.0 5,0 Ground sulfur - 1,0 2.0 2,5 Tiuram D - 1,0 0.5 0.3 Diphenylguanidine - 1,0 0.5 0.3 RU modifier 50,0 - - - Adhesion modifier - 1,0 2.0 3.0 Colloidal silicic acid 50,0 35.0 50,0 60.0 Total: 205.0 146.0 164.0 177.1

Tables 2 and 3 present the results of thermal aging at 125 ° C for 24 hours according to GOST 9.024-74 and swelling in aggressive environments of vulcanizates of adhesive mixtures according to GOST 9.030-74.

table 2 Changes in the vulcanizates of adhesive mixtures after thermal aging Change after aging Known adhesive composition The proposed adhesive composition 1 option Option 2 3 option - by conditional strength,% -89 -38 -42 -45 - relative elongation,% -49 -thirty -32 -37

The test results showed that the known adhesive composition is 1.5-2 times inferior to the proposed compositions in terms of resistance to thermal aging.

Table 3 The change in the mass of vulcanizates in aggressive environments at a temperature of 20 ° C,% Wednesday Adhesive composition Known adhesive composition The proposed adhesive composition 1 option Option 2 3 option Oil 14.2 10.8 8.9 7.9 Nefras C ₂ -80/120 20.1 17.3 15.3 12.6 Diesel fuel L-02-04 50.3 32,4 26.8 23,2

The results showed that a combination of chloroprene rubbers and nitrile butadiene rubber with polyvinyl chloride can almost double the oil and gas resistance of adhesive compositions.

The technological process of preparing the proposed heat-resistant adhesive composition consists in the manufacture of the adhesive mixture in a standard way on rollers with its subsequent dissolution in a mixture of solvents (toluene, nefras, ethyl acetate). Adhesives obtained by dissolving the adhesive mixtures shown in table 1 in solvents with the addition of rosin. Table 4 presents the results of bond strength between the layers of substrates in model samples according to GOST 6768-75.

Table 4 Bond strength in model samples between layers, kN / m Layered Layers Adhesive composition Famous adhesive
composition The proposed adhesive composition 1 option Option 2 3 option 1. Rubber based on GBNK + 8.5 21.1 18.7 16,2 - rubber based on SKI-3 - cord rubberized with a mixture based on SKI-3 6.5 13.7 13.1 11.1 2. The concentration of solids,% 25,4 28.1 27.8 26.9

The test results of model samples on the bond strength of rubber based on GBNC with rubberized cord showed that the use of a triple combination of rubbers in the composition of adhesive compositions increases the degree of bonding of rubbers in multilayer rubber-cord products to 13.7 kN / m due to the formation of interpenetrating spatial networks of rubbers in the adhesive film .

The company has positive experience in the application of the proposed heat-resistant adhesive composition with the declared properties.

Claims (1)

Heat-resistant adhesive composition, including medium-crystallizing chloroprene rubber, zinc oxide, magnesium oxide, curing group, colloidal acid, adhesion modifier, rosin, solvent mixture, characterized in that it additionally contains highly crystallizing chloroprene rubber and butadiene-nitrile rubber with polyvinyl chloride rubber the following ratio of components, parts by weight:
chloroprene rubber with an average crystallization rate 35-45 high crystallization chloroprene rubber 35-45 BNK-PVC 10-30 rosin 40-60 zinc oxide 4.0-6.0 magnesium oxide 3.0-5.0 adhesion modifier 1.0-3.0 colloidal silicic acid 35-60 ground sulfur 1.0-2.5 tiuram D 0.3-1.0 diphenylguanidine 0.3-1.0 toluene 250-300 nefras 200-250 ethyl acetate 250-300