SU891712A1 - Vulcanizable rubber mixture - Google Patents

Description

C50 VULCANIZED RUBBER MIXTURE

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FIELD OF THE INVENTION The invention relates to the rubber industry and concerns the development of a vulcanizable rubber compound.

A known vulcanizable rubber mixture, to improve the technological properties of which chlorosulfonated polyethylene (HSPE) 1 is added.

However, volcaniaats from this rubber mixture do not possess the necessary frost resistance and electrical properties.

The closest technical solution is a vulcanizable rubber compound for rubber and electrical products, including chlorosulfonated polyethylene unsaturated rubber, such as unplasticized nitrile, in a ratio of respectively 5-10: 100 2.

However, “based on the known mixture, they have low electrical insulating properties at high temperatures and humidity.

The purpose of the invention is to improve the electrical insulation properties of products at high temperatures and. moisture while maintaining their high physicomechanical properties and high frost resistance.

The goal is achieved by the vulcanizing rubber mixture

10 for rubber and electrical products, including chlorosulfonated polyethylene and unsaturated rubber, as rubber, contains chloroprene or ethnlen15 propylene diene, or butadienenitrile rubber when the ratio of the latter to chlorosulfonated polyethylene, respectively, by weight.h. 10-30: 70-90.

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Example 1. A mixture is prepared on a laboratory roll mill at a roll temperature of 0-5 ° C according to the following mode: 95 mas.h is plastified within 3 minutes. chlorosulfonated polyethylene, then 9 ~ 5 wt. magnesium oxide and 0.23 wt. zinc tips, enter 5 ma.h. per minute ethylene propylene diopolymer, on the 12th minute 3.8 wt.h. dithiodimorpholine,. 0.025 May. captakake, 0.075 ma.ch. thiurama and 0.1 ma.h, eery.

Cooking time 15 min.

Vulcanization is carried out in an electrical flow for 20 min.

Example 2-15. Lakes 2-15 are prepared analogously to Example 1, differing only in quantitative E-mail. Formulations are listed in table 1.

Example 16. At laboratory rollers, at a temperature of rolls of kO50 C, an electrode 16 is prepared (Table 1).

In time 3, in the 12th minute, 1/2 of a filler and 1/2 of a placetier per minute are entered; 1/2 of a filler, 1/2 of a placetier and vulcanizing agents are introduced.

Cooking time on rollers 20 min.

Vulcanization is carried out in an electrical flow for 20 min.

Examples 17-18. Lakes 17.18 are ready, as in Example 16. The recipes are listed in Table 1. PRIRE 19-20, Lakes 19.20 are known mixtures. Mixture 19 is prepared in the same way as example 1. Prepare a mixture of 20 as in example 16. The recipes are listed in Table 1.

Table 2 presents the results of the physicomechanical, dielectric properties and frost resistance of vulcanizates of rubber mixtures 1-20., In addition, the results of tests of the technological electrical rubber products. 1j6-l8, 20.

Evaluation of vulcanizates and raw rubber compounds is carried out according to standard methods (GOST 2068-70 6AZZ-71, 6 33-2-71, 6433.3-71, 270-75, "15-75).

From the data given in table 2, it follows that the optimal complex

Evoyetv have vulcanizates with a capacity of 3,8,13, they are superior to vulcanizates with potency 19 by physical and mechanical evoyetv by 2-3 times (tensile strength at rupture of 17.0; 21.0; 29.0; 10, amP, respectively), by dielectric evoyetvam both before moisture and after (the specific volume resistance before moisture for the proposed vulcanizates is 10-30 times higher, and after moisture, especially for 9b hours, there is a sharp drop in the dielectric properties of volcano rosates based on known emu while vulcanizates on oenove offered by the names of these e oyetva doetaTochno vyeoki).

In terms of physicomechanical evoyetv, vulcanizates of mixtures 16-1.8 and emei are almost at the same level, nOi specific volume resistance to moisture, vulcanizates emeei 1618 exceeded 1020 times, and in the tangent of dielectric loss angle vulcanizates emei 1618 and the development of them. times, dielectric permeable to 6.0; 6.9; 7.3, 8, 1 is responsible for 16, 17, 18, and 20, and the electric train has a strength of 2, G, 22.0, 21.5 and 17.5 mV / m.

After 24 hours, after 24 hours, the moisture content of the vulcanizates on aeonoumee 20 does not have electrical insulating properties, while the rubber based on mixtures 16-18, after 9b of wetting at 70 ° C, have the necessary electrical insulating properties.

By frost, the houses 16, 17, 18, 20 are almost at the same level.

Thus, the vulcanizable rubber mixtures, including chlorosulfonated polyethylene and undiluted rubber, provide rubber with a good mix of physicomechanical, electrical insulating cables, maintained at elevated temperatures and humidity, as well as good frost resistance.

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invention formula

Vulcanized relain mixture for rubber and electrical products, including chlorosulfonated polyethylene and unsaturated rubber, characterized in that, in order to improve the electrical insulation properties of products under conditions of elevated temperatures and humidity while maintaining their high physicomechanical properties and increased frost resistance, the rubber mixture as rubber so891712

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keeps chloroprene or ethylene propylene-Aene or butadiene nitrile rubber at a ratio of the latter to chlor-sulphurized polyethylene, respectively, weight.h, 10-30: 70-90.

Sources of information taken into account in the examination

1, US Patent No. 3351677, class 260-889, published 1967.

2, Polyethylene and other polyolefins. M., Mir, 196, p. (prototype).

Claims (1)

Claim Vulcanizable rubber mixture for rubber and electrical products, including chlorosulfonated polyethylene and unsaturated rubber, characterized in that, in order to improve the electrical insulation properties of products in conditions of elevated temperatures and humidity while maintaining their high physical and mechanical properties and increased frost resistance, the rubber mixture as rubber co712 holds chloroprene or ethylene propylene diene or nitrile butadiene rubber at a ratio of the latter to chlorosulfonated · polyethylene in so5 responsibly in parts by weight, of 10-30: 70-90.