RU2513628C1 - Fire-resistant rubber mixture - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to production of a fire-resistant rubber mixture and can be used in oil extraction, oil processing and mining industry. The rubber mixture contains the following ingredients, pts.wt (per 100.00 pts.wt rubber): butadiene-nitrile rubber - 100,00; thiuram D - 1.5; N,N'-dithiodimorpholine - 2.0; sulphenamide C - 2.0; naphtham-2 - 1.5; diaphene FP - 1.0; stearine - 1,0; colophony - 5.0; N-nitrosodiphenylamine - 1.0; chalk - 30.0; technical carbon P 701 - 55.0; technical carbon P 514 - 20.0; zinc oxide - 5.0; antimony trioxide - 4.0; chlorinated paraffin CP-1100 - 20.0; trichloroethylphosphate - 15.0; barium borate - 5.0.

EFFECT: obtaining a fire-resistant rubber mixture with high resistance to aggressive media and improved elasticity and strength properties.

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Description

The invention relates to the field of production of fire-resistant rubber compound and can be used in the oil, oil refining and mining industries.

A known rubber mixture based on a composition of butadiene (methyl) styrene rubber, polyvinyl chloride and a modifying additive - 2,6-ditret-butyl-4-methylaminodimethylphenol (I) or poly- (N-3,5-ditret-butyl-4-oxytolyl ) ethyleneimine, which also includes a vulcanizing agent, a metal oxide and an organic vulcanization activator (Patent RU No. 20100814 1994).

The disadvantage of this rubber mixture is low rates of oil and gas resistance and elastic strength properties, not enough high fire resistance.

The closest in technical essence is a rubber mixture based on nitrile butadiene rubber brand BNKS-40 AM, (AMN) -100,0, including, mass, h: thiuram D - 1.5; N, N'-dithiodimorpholine 2.0; sulfenamide "C" - 2.0; naphtham-2 - 1.5; Diafen FP - 1.0; zinc white - 5.0, rosin - 5.0, chalk MMOR, MMS-1 - 30.0, carbon black P 701-55.0; carbon black P 514 - 20.0, dibutyl phthalate - 15.0, described in the invention patent RU No. 2232171 of 2002, which is selected by the number of matching features as the closest prototype analogue of the proposed mixture. Vulcanizates from rubber compounds based on nitrile butadiene rubbers (BNK) are characterized by high resistance to various aggressive environments (oils, greases, oil). Due to these properties, they are widely used for the manufacture of gaskets, gaskets, cuffs, sleeves, anthers and other rubber products. However, one of the significant disadvantages of these rubbers is low fire resistance.

The objective of the invention is to increase the fire resistance of the rubber compound when exposed to sparks and open flame, to improve physical and mechanical properties while maintaining resistance to aggressive environments.

The technical result of the invention is to obtain fire-resistant rubber with high resistance to aggressive environments and with increased elastic strength properties.

The task is achieved by the selection of flame retardants and optimization in a certain ratio of the amount of combustible ingredients in the rubber composition. The rubber mixture consists, mass. hours:

Nitrile butadiene rubber 100.0 Tiuram D 1.3-1.6 N, N'-dithiodimorpholine 1.8-2.1 Sulfenamide C 1.8-2.1 Naftam-2 1.3-1.6 Diafen FP 0.8-1.2 Stearin 0.8-1.2 Rosin 4.0-6.0 N-nitrosodiphenylamine 0.5-1.0 a piece of chalk 20.0-30.0 Carbon black P 701 45.0-55.0 Carbon black P 514 15.0-25.0 Zinc oxide 3.0-5.0 Antimony trioxide 3.0-5.0 Chloroparaffin HP-1100 17.0-22.0 Trichloroethyl Phosphate (TCEP) 12.0-18.0 Barium borate 4.0-6.0

The introduction of ingredients above or below the limit values leads to a deterioration of the output characteristics of the rubber. A new is the combination in a certain ratio of known flame retardants used in the rubber industry and the use of trichloroethyl phosphate as a plasticizer, which allows to obtain a technical result.

According to the applicant, this composition of the rubber compound is unknown and it can be concluded that the invention meets the condition of patentability for novelty.

Since the claimed combination of essential features exhibits new properties that make it possible to obtain a change in the quantitative measure of the result, namely, an increase in fire resistance, an improvement in the physico-mechanical properties of rubber compared to known rubber, we can conclude that the invention meets the patentability condition of "inventive step".

Obtaining the inventive rubber compound is carried out in an industrial environment on a mixing roll.

The rubber mixture was obtained by mixing BNKS-40 AMN rubber with ingredients on laboratory rollers for 35-40 minutes. The order of input of the ingredients is as follows:

1. Dissolution and plasticization of rubber BNKS-40 AMN for 5 min with a gap between the rolls of 1-2 mm;

2. Injection of stearin, sulfenamide C, naphtham-2, N-nitrosodiphenylamine, zinc oxide, AF diaphen for 3 minutes, an increase in the gap between the rolls to 5-6 mm;

3. Injection of chalk, barium borate, antimony trioxide, rosin for 2 minutes;

4. Input of carbon black P 701, chlorine paraffin HP-1100 for 8 min;

5. Water carbon black P 514, trichloroethyl phosphate for 10 min;

6. Enter thiuram N, N'-dithiodimorpholine for 4 min, reducing the gap to 1-2 mm;

7. Pass through the gap between the rollers 1-2 mm for 3 minutes. Cooling the mixture with running water to a temperature of not more than 20 ° C.

Samples for determining the physical and mechanical properties and fire resistance of the rubber compound were prepared according to the standards accepted in the rubber industry.

The following materials were used to obtain the rubber mixture: nitrile butadiene rubber of the BNKS-40 AMN grade - TU 38.30313-2006; vulcanization accelerators - thiuram D (tetromethylthiuramide sulfide) - GOST 740-76, sulfenamide C (N-cyclohexylbenzothiazosulfenamide-2) - TU 113-00-057616376-02-95; vulcanizing agent - N, N'-dithiodimorpholine - TU 6-14-321-79; fillers - carbon blacks P 701 and P 514 - GOST 7885-86; chalk - GOST 12085-88; vulcanization activator - zinc oxide (zinc white) - GOST 202-84; technological additive - stearin - GOST 6484-96; antioxidants - naphtham-2 (phenyl-2-naphthylamine) - GOST 39-79, diafen FP (N-phenyl-N'-isopropylparaphenylenediamine) - TU6-14-817-81; anti-scorching - N-nitrosodiphenylamine - TU 6-14-907-88; plasticizers trichloroethyl phosphate - TU 2493-319-05763441-2000, rosin - GOST 19113-84; flame retardants antimony trioxide TU 48-14-1-88; chloroparaffin HP-1100 - TU 2493-211-05763458-97; barium borate - TU 113-07-014-91.

In the proposed rubber compound can be used analogues of rubbers and ingredients produced by various companies.

The compositions of the rubber compounds are given in table 1.

Table 1 The content of ingredients, parts by weight Ingredients The rubber composition according to the invention Prototype Nitrile butadiene rubber 100.0 100.0 Tiuram D 1,5 1,5 N, N'-dithiodimorpholine 2.0 2.0 Sulfenamide C 2.0 2.0 Naftam-2 1,5 1,5 Diafen FP 1,0 1,0 Stearin 1,0 - Rosin 5,0 5,0 N-nitrosodiphenylamine 1,0 - Dibutyl phthalate - 15.0 a piece of chalk 30,0 30,0 Carbon black P 701 55.0 55.0 Carbon black P 514 20,0 20,0 Zinc oxide 5,0 5,0 Antimony trioxide 4.0 - Chloroparaffin HP-1100 20,0 - Trichloroethyl phosphate 15.0 - Barium borate 5,0 -

Comparative technical characteristics of the new rubber compounding according to the application for the invention and the rubber compound - prototype are shown in table 2.

table 2 No. p / p The name of indicators The rubber composition according to the invention Prototype Control methods one Conditional tensile strength, MPa, not less 10.0 12.0 GOST 270-75 2 Elongation at break,% 400 300 GOST 270-75 3 Shore A hardness, units Shore a 70-75 60-75 GOST 263-75 four Fire resistance (burning time of the sample), sec 1-2 More than 20 5 Oxygen Index, g / m ³ 28,2 - GOST 12.1.044- 89 6 Change in indicators in I + T (7: 3) at 23 ° C, within 24 hours,% +10 +10 GOST 9.030 -74

From table 2 it follows that the rubber mixture according to the invention based on nitrile butadiene rubber has increased elastic strength properties compared with the prototype, higher fire resistance (shorter burning time of the sample), as well as a high oxygen index, that is, relates to slow-burning materials.

In view of the foregoing, in the applicant's opinion, the invention meets the patentability condition “industrial applicability”.

Claims (1)

Flame retardant rubber based on nitrile butadiene rubber, including thiuram D, N, N'-dithiodimorpholine, sulfenamide C, naphtham-2, diafen FP, rosin, chalk, carbon black P 701, carbon black P 514, zinc oxide, characterized in that the mixture additionally contains stearin, N-nitrosodiphenylamine, antimony trioxide, chloroparaffin CP-1100, trichloroethyl phosphate, barium borate in the following ratio of ingredients, parts by weight:
Nitrile butadiene rubber 100.0 Tiuram D 1.3-1.6 N, N'-dithiodimorpholine 1.8-2.1 Sulfenamide C 1.8-2.1 Naftam-2 1.3-1.6 Diafen FP 0.8-1.2 Stearin 0.8-1.2 Rosin 4.0-6.0 N-nitrosodiphenylamine 0.5-1.0 a piece of chalk 20.0-30.0 Carbon black P 701 45.0-55.0 Carbon black P 514 15.0-25.0 Zinc oxide 3.0-5.0 Antimony trioxide 3.0-5.0 Chloroparaffin HP-1100 17.0-22.0 Trichloroethyl phosphate 12.0-18.0 Barium borate 4.0-6.0