RU2746216C2 - Fire resistant rubber compound - Google Patents

Abstract

FIELD: automotive, oil and rubber industries.

SUBSTANCE: invention relates to a fire-resistant rubber compound and can be used in the automotive, oil and rubber industries. Technical result is achieved by the fact that a fire-resistant rubber compound containing synthetic isoprene rubber, sulfur, zinc oxide, stearic acid and carbon black, and additionally contains altax, diphenylguanidine and a modifying additive - a phosphate-containing oligomer obtained by interaction of dimethylphosphite, epoxy resin ED-20 and aniline, taken in a mass ratio of 1: 2.5: 0.75, with the following ratio of components, pts. wt.: synthetic isoprene rubber 100.0, sulfur 1.0, altax 1.0, zinc oxide 5.0, stearic acid 1.0, diphenylguanidine 3.0, carbon black P-324 50.0, phosphate-nitrogen-containing oligomer 3.0-7.0.

EFFECT: improvement of strength properties of vulcanizates of a fire-resistant rubber compound.

1 cl, 2 tbl

Description

The invention relates to a fire-resistant rubber compound and can be used in the automotive, oil and rubber industries.

Known fire-resistant rubber compound (Pat. 2567292 RF, IPC C08L 9/00, C08K 13/02, 10.11.2015) containing synthetic isoprene rubber, synthetic diene rubber, polyvinyl chloride, sulfur, sulfenamide C, zinc oxide, stearin, paraffin, carbon black , naphtam-2, diafen FP, monoethanolamine, N-nitrosodiphenylamine, oxanol KD-6, laundry soap, polymethylsiloxane, chlorinated paraffins KhP-70 and KhP-470, antimony trioxide and organoclay based on montmorillonite modified with surfactants.

The disadvantage of this rubber compound is its low strength characteristics.

Known fire-resistant rubber compound (Pat. 2522627 RF, IPC C08L 9/00, C08L 13/02, C08L 23/06, C08K 13/02, C08K 3/04, C08K 3/06, C09K 21/02, C09K 21/06 2014) containing isoprene and butadiene rubbers, sulfur, sulfenamide C, zinc oxide, magnesium oxide, paraffin, naphtam-2, diafen FP, carbon black, N-nitrosodiphenylamine, chloroparaffin, antimony trioxide, aluminum hydroxide.

The disadvantages of this rubber compound are low strength indicators and a more complex composition.

The closest is a fire-resistant rubber compound (Author's certificate SU1002314, IPC C08L9 / 00, C08K9 / 01, 07.03.1983) based on synthetic isoprene rubber, containing sulfur, altax, zinc oxide, stearic acid, carbon black, diphenylguanidine and plasticizer fraction distillation residue of dodecylene rectification.

The disadvantages of this rubber compound are low strength indicators and a more complex composition.

The objective of the present invention is to provide a fire-resistant rubber compound with improved strength properties.

The technical result of the claimed invention is to improve the strength properties of vulcanizates of a fire-resistant rubber compound.

The technical result is achieved by the fact that the fire-resistant rubber mixture containing synthetic isoprene rubber, sulfur, zinc oxide, stearic acid and carbon black, while additionally contains altax, diphenylguanidine and a modifying additive - a phosphate-containing oligomer obtained by interaction of dimethyl phosphite, epoxy resin and ED-20 aniline, taken in a mass ratio of 1: 2.5: 0.75, with the following ratio of components, wt. including: synthetic isoprene rubber 100.0, sulfur 1.0, altax 1.0, zinc oxide 5.0, stearic acid 1.0, diphenylguanidine 3.0, carbon black P-324 50.0, phosphorazote-containing oligomer 3, 0-7.0.

The use of a phosphate-nitrogen-containing oligomer as a modifying additive gives vulcanizates from the claimed rubber mixture based on synthetic isoprene rubber to increased fire resistance, since prevents its destruction when exposed to high temperatures due to inhibition of radical-chain oxidation processes, promotes coke formation processes under the influence of flame.

In addition, as a result of an increase in the concentration of polar functionally active groups in the mixture, additional chemical bonds are formed during the vulcanization process, which contributes to an increase in the strength of vulcanizates from a fire-resistant rubber mixture.

The claimed amount of a modifying additive in combination with the used vulcanization accelerators and the rest of the components of the fire-resistant rubber compound makes it possible to obtain vulcanizates from it with increased strength and fire-resistant characteristics.

The following components are used in the proposed fire-resistant rubber compound:

Polyisoprene rubber SKI-3 (GOST 14925-79).

Vulcanizing group, including: vulcanizing agents - sulfur (GOST 127-76), altax (GOST 3087-75), diphenylguanidine (TU 2491-497-05763441-2006); vulcanization activators - zinc oxide (GOST 202-84), stearin (GOST 6484-96).

The filler is carbon black P-324 (GOST 7885-86).

As a modifying additive, a phosphate-nitrogen-containing oligomer is used, which is obtained by the interaction of dimethyl phosphite, epoxy resin ED-20 and aniline in a mass ratio of 1: 2.5: 0.75 at a temperature of 100 ° C for 1 hour (in accordance with patent RU 2656864, IPC C08K 3/04, C08L 23/16; 2018).

The fire-resistant rubber mixture is prepared on rollers at a roll temperature of 65-70 ° C. Duration of mixing is 25 minutes. Then carry out the vulcanization of the rubber mixture at a temperature of 165 ° C for 30 minutes. Then the obtained samples are subjected to the necessary tests.

The compositions of the claimed fire-resistant rubber mixture and the prototype are shown in table 1.

Samples of vulcanizates of a fire-resistant rubber compound were tested in accordance with GOST 270-75 “Rubber. Method for determining elastic tensile properties ”.

Fire resistance and physical and mechanical properties of rubber compounds are shown in Table 2.

Fire resistance was determined by the time until the cessation of combustion of standard samples after holding them for 20 seconds in a burner flame.

To determine the coke number, a pre-weighed sample was placed in a muffle furnace for 30 minutes at 600 ° C. Then the sample was removed, cooled at 25 ° C, and weighed again. The coke number was calculated from the residual weight relative to the initial weight of the sample.

The main properties of the proposed fire-resistant rubber compound are shown in Table 2.

As can be seen from the data presented, the proposed fire-resistant rubber compound, in comparison with the prototype, has an increased tensile strength.

Thus, vulcanizates of a fire-resistant rubber mixture containing synthetic isoprene rubber, sulfur, zinc oxide, stearic acid, carbon black, altax, diphenylguanidine, and a modifying additive, a phosphate-containing oligomer, with the stated ratio of components, have improved physical and mechanical properties.

Claims (2)

Fire-resistant rubber compound containing isoprene synthetic rubber, sulfur, zinc oxide, stearic acid and carbon black, characterized in that the mixture additionally contains altax, diphenylguanidine and a modifying additive - a phosphorase-containing oligomer obtained by the interaction of dimethyl phosphite, epoxy resin ED-20 and an taken in a mass ratio of 1: 2.5: 0.75, with the following ratio of components, parts by weight: Isoprene synthetic rubber 100.0 Sulfur 1.0 Altax 1.0 Zinc oxide 5.0 Stearic acid 1.0 Diphenylguanidine 3.0 Carbon black P-324 50.0 Phosphate-containing oligomer 3.0-7.0