RU2495889C2 - Heat-resistant rubber mixture - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to heat-resistant rubber mixtures and can be used in car, oil and industrial rubber industry. The heat-resistant rubber mixture contains butadiene-nitrile rubber, sulphur, thiazole 2 MBS, diphenyl guanidine, N-nitrosodiphenylamine, zinc oxide, stearin, dibutyl sebacate, technical carbon and diaphene SP. The mixture further contains an anti-ageing agent - powder form of Novantox 8 PFDA (Novantox 8 PFDA+schungite).

EFFECT: improved resistance of rubber to thermal ageing on air, low cost of the mixture owing to reduced amount of the anti-ageing agent while maintaining sufficiently good physical and mechanical properties.

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Description

The invention relates to heat-resistant rubber compounds and can be used in the automotive, oil and rubber industries.

Known rubber compound for the production of heat-resistant rubber products, including nitrile butadiene rubber (100.0); vulcanizing system - sulfur (1.4-1.6); vulcanization accelerator - captax (0.7-0.9); vulcanization activator - zinc white (4.6-5.2); the filler is carbon black (40.0-70.0) and the modifier is a benzamidazole derivative of abietic acid (1.8-5.4). RU 2086582 IPC ⁷ C08L 9/02, C08K 13/02, C08K 13/02, C08K 3:04, C08K 3:06, C08K 3:22, C08K 5:47, C08K 5: 3447, 08/10/1997.

Also known is a rubber mixture for the manufacture of heat-resistant rubber products, including nitrile butadiene rubber (100.0); vulcanizing system - sulfur (1.4-1.6); vulcanization accelerator - captax (0.7-0.9); vulcanization activator - zinc white (4.6-5.2); the filler is carbon black (40.0-70.0) and the modifier is 2.2-bis (vinyl) benzimidazole (0.58-2.88). RU 2086581 IPC ⁶ C08L 9/02, C08K 13/02 C08K 13/02, C08K 3:04, C08K 3:06, C08K 3:22, C08K 5:47, C08K 5: 3447, 08/10/1997.

The disadvantage of these rubber compounds is not high enough heat resistance.

The closest in technical essence is a rubber mixture based on a composition of natural rubber containing a vulcanizing agent - sulfur (3.0); vulcanization activator - zinc white (5.0); vulcanization accelerator - guanide F (1,0), 2-mercoptobenzthiazole (1,0), captax (1,0), plasticizer stearic acid (1,0) and antioxidant - powder form Novantox 8 PFDA + kaolin (5,0) . Sandalov S.I., Ushmarin N.F., Koltsov N.I. The use of Novantoks 8PFDA as an antioxidant in the production of rubber goods // Rubber and Rubber, - 2010. - No. 3. - S. 32-36.

The disadvantage of this rubber compound is the insufficiently high heat resistance after thermal aging of rubbers in air.

The objective of the invention is to create a heat-resistant rubber compound resistant to thermal aging in air, expanding the range of products for this purpose.

EFFECT: improved rubber resistance to thermal aging in air, cheaper mixture by reducing the amount of antioxidant while maintaining good physical and mechanical properties. The technical result is achieved by the fact that a heat-resistant rubber mixture containing butadiene - nitrile rubber, a vulcanizing agent-sulfur, a vulcanization activator - zinc oxide, a vulcanization accelerator - diphenylguanidine, a plasticizer, an antioxidant, according to the invention it further comprises a vulcanization inhibitor - N-nitrosodiphenylamine, a filler - carbon black, vulcanization accelerator - Thiazole 2MBS, butadiene-nitrile rubber as rubber, stearin and Dibutylsebacinate as plasticizer, and as e antioxidant mixture Novantoks 8 PPDA + shungite as 1: 1 or 8 Novantoks PPDA + shungite as 1: 1 and AF Diaphene the following component ratio in mass.ch:

Nitrile butadiene rubber 100.0 Thiazole 2 MBS 2.7-3.0 Diphenylguanidine 0.25-0.30 N-nitrosodiphenylamine 1.0-1.5 Dibutylsebacinate 25.0-30.0 Carbon black 70.0-80.0 Zinc oxide 7.0-7.5 Sulfur 2.0-2.5 Stearin 1.0-1.5 Antioxidant 3.0-3.5

Distinctive features of the claimed invention are the above components and their ratio with the already known ones, as well as the use of an antioxidant in the composition - a mixture of Novantox 8 PFDA + shungite as 1: 1 and a mixture of Diafen with a mixture of Novantox 8 PFDA + shungite as 1: 1. This correlation of new features with the known ones allows improving the physicomechanical characteristics of rubber after its thermal aging in air. Moreover, the use of a mixture of Novantox 8 PFDA with shungite, reduces the amount of expensive antioxidant while maintaining physical and mechanical properties, as well as expanding the range of compounds for the production of rubber.

The rubber mixture is prepared by mixing all the recipe components, followed by rolling on rollers LB 320/150/150 according to the regimes adopted for the mixture of B-14 NTA according to TU 2512-046-00152081-2003, gr. III-IV-23 based on nitrile butadiene rubber. The compositions of the rubber compounds are given in table 1. Table 1 also shows the compositions 1,2, in which only Diafen is used as an antioxidant for control.

Physico-mechanical properties of rubber compounds are given in table 2. Heat resistance was determined in an air thermostat at 100 ° C for 24 and 72 hours.

To obtain a rubber mixture used the following materials:

Nitrile butadiene rubber of the brands BNKS-18 AMN and BNKS-18 AN-TU 38.30313-2006; thiazole 2-MBS (2,2'-dibenzothiazole disulfide). TU 6-14-851-86; Diphenylguanidine granular technical - GOST 40-80; Diafen FP (N-phenyl-N'-isopropylparaphenylenediamine) - TU 6-14-817-94; dibutyl sebacinate - GOST 8728-88; N-NDFA (N-nitrosodiphenylamine) - TU 6-14-907-88; technical carbon - GOST 7885-86; zinc white (zinc oxide) - GOST 202-92; technical sulfur - GOST 127.1-93; stearin - GOST 6484-84; shungite - TU 2169-001-57753937-2002; Novantox 8 PFDA-TU 2492-465-05763441-2004 amend.1, 2.

Table 1 Compositions of rubber compounds based on nitrile butadiene rubber using antioxidants Components Compositions one 2 3 four 5 (prototype) Nitrile butadiene rubber 100.0 100.0 100.0 100.0 - Natural rubber - - - - 100.0 Thiazole 2-MBS 2.7 3.0 2.7 3.0 - 2-mercoptobenzthiazole - - - - 1,0 Kaptax - - - - 1,0 Sulfur 2.0 2,5 2.0 2,5 3.0 Zinc oxide 7.5 7.0 7.5 7.0 5,0 Stearin 1,0 1,5 1,0 1,5 1,0 Carbon black 80.0 70.0 80.0 70.0 - N-nitrosodiphenylamine 1,0 1,5 1,0 1,5 - Dibutylsebacinate 30,0 25.0 30,0 25.0 - Diphenylguanidine 0.25 0.30 0.25 0.30 1,0 Diafen FP 1,5 1,5 - - - Novantox 8 PFDA + shungite 2.0 1,5 3.0 3,5 - Novantox 8 PFDA + kaolin - - - 5,0

table 2 Physico-mechanical properties of rubber compounds Options Rubber compound properties one 2 3 four 5 (prototype) Tensile strength, MPa 12,4 12.1 12.3 12.1 25.0 Elongation at break,% 180 178 180 181 600 After aging in air at 100 ° C for 24 hours The change in tensile strength,% + 9.7 +9.2 +8.9 +9.1 -15.3 The change in elongation at break,% -7.8 -7.3 -9.1 -9.4 -10.3 After aging in air at 100 ° C for 72 hours The change in tensile strength,% +13.4 +16.5 +9.8 +17.6 -39.8 The change in elongation at break,% -23.0 -21.9 -26.0 -24.4 -32.7

From table 2 it follows that rubber mixtures based on nitrile butadiene rubber, in which Novantox 8 PFDA + shungite and Diafen FP, and Novantox 8 PFDA + schungite are used as antioxidants, have higher heat resistance, that is, after rubber exposure to air at 100 ° C values of tensile strength at break and elongation under tension for these variants of the rubber mixture change to a lesser extent than for the prototype.

Claims (1)

Heat-resistant rubber mixture containing rubber, a vulcanizing agent - sulfur, a vulcanization activator - zinc oxide, a vulcanization accelerator - diphenylguanidine, a plasticizer, an antioxidant, characterized in that it additionally contains a vulcanization inhibitor - N-nitrosodiphenylamine, a filler - carbon black, a vulcanization accelerator - thiazole 2 MBS, butadiene-nitrile rubber as rubber, stearin and dibutyl sebacinate as plasticizer, and Novantox 8 PFDA + shungite as 1: 1 or Nova as an antioxidant NTox 8 PFDA + shungite as 1: 1 and Diafen FP in the following ratio of components, parts by weight:
Nitrile butadiene rubber 100.0 Thiazole 2 MBS 2.7-3.0 Diphenylguanidine 0.25-0.30 N-nitrosodiphenylamine 1.0-1.5 Dibutylsebacinate 25.0-30.0 Carbon black 70.0-80.0 Zinc oxide 7.0-7.5 Sulfur 2.0-2.5 Stearin 1.0-1.5 Antioxidant 3.0-3.5