RU2625858C2 - Polymer composition - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: rubber mixture contains the components at the following ratio, wt %: synthetic isoprene rubber 18.7-24.021; synthetic butadiene rubber 6.005-7.547; synthetic rubber butadiene styrene 18.02-18.87; zinc oxide 1.802-1.887; sulfur technical 0.601-0.943; sulfenamide C 0.300-1.132; stearic acid 1.201-1.132; technical carbon P234 6.005-7.547; technical carbon P514 22.64-24.02; glass of ground fraction 50-100 microns 5.660-6.005; a mixture of fullerenes of fraction C₅₀-C₉₂ 0.001-0.015; acetononyl H 1.132-1.201; wax VIZ 1.802-1.887; oil for oil PN 3.003-3.019; bitumen petroleum alkaline 6.005-7.547.

EFFECT: invention allows to manufacture specialty rubber products with high frictional resistance, with improved physical and mechanical characteristics and the ability to work in aggressive environments.

2 tbl, 3 ex

Description

The invention relates to the chemical industry, in particular, to the production of rubber compounds, and can be used in the manufacture of rubber products.

There is a RF patent No. 2355719 [Popov Gennady Vasilievich, Igumenova Tatyana Ivanovna, Kleimenova Natalya Leonidovna, publ. 05/20/2009], where it is supposed to use fullerenes and their compositions for a polymer composition consisting of butadiene rubber, non-oil-filled styrene butadiene rubber, isoprene rubber, white zinc silicic acid, stearic acid, polymer sulfur, diphenyl guanidine, and tetramethyl sulfonamide microfluramides 0.79-2.96 wt. %

Known patents of the Russian Federation No. 2482142 [Popov Gennady Vasilievich, Igumenova Tatyana Ivanovna, Akatov Evgeny Sergeevich, publ. 05/20/2013] and No. 2446190 [Popov Gennady Vasilievich, Igumenova Tatyana Ivanovna, Gudkov Maxim Andreevich, publ. 03/27/2012]. The invention relates to the chemical industry, in particular to the production of ozone-resistant rubber compounds intended for colored or white sidewalls of cars and bicycles, as well as for protective and decorative elements of the sidewalls of tires of a cargo and light truck tire range. In these polymer compositions, a mixture of fullerenes of the C50-C92 fraction is used.

Also known is the patent of the Russian Federation No. 2476458 [Gubzhev Timur Askarbievich, Tkhakov Eldar Ruslanovich, Kashirgov Asker Arsenovich, Tkhakhov Ruslan Bashirovich, Karamurzov Barasbi Suleimanovich, publ. 02/27/2013]. The invention relates to composite polymeric materials based on synthetic butadiene rubber and can be used in cable and shoe industries. In the polymer composition, SKD-35 butadiene rubber is used - 80, high-pressure polyethylene - 20, sulfur - 1.6, zinc oxide - 2.4, Santocure - 0.72, stearin - 0.8, carbon black - 0.1- 5.37 mass. hours

The disadvantages of these polymer compositions are relatively low resistance to fuels, oils and aggressive environments of vulcanizates obtained on their basis, and low fatigue endurance under dynamic loading.

The technical task of the present invention is to develop a rubber compounding for the manufacture of rubber products for special purposes, with high friction resistance, with improved physical and mechanical characteristics and the ability to work in aggressive environments.

RF patent No. 2519402 [Igumenova Tatyana Ivanovna, Popov Gennady Vasilievich, Kleimenova Natalya Leonidovna, publ. 06/10/2014]. The polymer composition can be used both for the manufacture of rubber products for various household purposes, working in contact with aggressive environments at elevated temperatures, and to create structural products together with rubbers based on rubbers of general purpose.

The object of the invention is achieved by the fact that in the manufacture of the polymer composition they use: SKI-3 rubber, SKD rubber, SKS30ARKP rubber, zinc oxide, industrial sulfur, sulfenamide C, stearic acid, industrial carbon P234, industrial carbon P514, ground glass fractions 50- 100 microns, a mixture of fullerenes of fraction C ₅₀ -C ₉₂ , acetonanil N, VAP wax, petroleum oil PN6 and alkaline petroleum bitumen in the following ratio of ingredients, wt. %:

The technical result of the invention is to increase resistance to aggressive environments, increase abrasion resistance and improve the technological properties of the polymer composition.

A method of preparing a polymer composition is as follows. Rubber and other ingredients are weighed on technical scales. SKI-3, SKD, SKS30ARKP rubbers are rolled on pre-heated to 50 ± 5 ° С rollers, then the ingredients are added sequentially: zinc oxide, industrial sulfur, sulfenamide C, stearic acid, industrial carbon P234, industrial carbon P514, ground glass fractions 50- 100 microns, a mixture of fullerene fractions C ₅₀ -C ₉₂ , acetonanil N, VAP wax, petroleum oil PN6, alkaline petroleum bitumen; the mixture is prepared for 20 minutes and removed in the form of a sheet at a temperature not exceeding 100 ° C; the resulting rubber sheet is cooled in air to 30 ° C and quenched with a clean gasket.

The polymer composition is prepared in the following ratio of ingredients, wt. %:

Isoprene Synthetic Rubber 18.7-24.021 Synthetic butadiene rubber 6,005-7,547 Synthetic butadiene styrene rubber 18.02-18.87 Zinc oxide 1,802-1,887 Sulfur technical 0.601-0.943 Sulfenamide C 0,300-1,132 Stearic acid 1,201-1,132 Technical carbon P234 6,005-7,547 Technical carbon P514 22.64-24.02 Ground glass fractions 50-100 microns 5,660-6,005 Mixture of fullerene fraction C50-C92 0.001-0.015 Acetononil H 1,132-1,201 Wax VIZ 1,802-1,887 Petroleum oil PN6 3,003-3,019 Alkaline bitumen 6,005-7,547

The use of the C ₅₀ -C ₉₂ fraction fullerene mixture in the formulation allows one to obtain a polymer composition with high physicomechanical parameters of vulcanizates; in addition, this combination of components increases the resistance of the polymer composition to aggressive environments.

The developed polymer composition has good technological properties, can be easily processed on existing equipment, finished products will be highly resistant to oxygen aging, improved physical and mechanical properties, resistance to aggressive environments.

Polymer compositions made according to the proposed recipe can be used for the manufacture of rubber products for special purposes, working in contact with aggressive environments, experiencing increased wear as a result of frictional load.

The method is illustrated by the following examples.

Example 1

To prepare 1 kg (100,000 wt.%) Of the rubber mixture, the following are weighed on technical scales: 0.24021 kg (24.021 wt.%) SKI-3 rubber; 0.06005 kg (6.005 wt.%) SKD rubber; 0.1802 kg (18.02 wt.%) Rubber SKS30ARKP; 0.01802 kg (1.802 wt.%) Zinc oxide; 0.00601 kg (0.601 wt.%) Technical sulfur; 0.00300 kg (0.300 wt.%) Sulfenamide C; 0.01201 kg (1.201 wt.%) Stearic acid; 0.06005 kg (6.005 wt.%) Technical carbon P234; 0.2402 kg (24.02 wt.%) Carbon technical P514; 0.06005 kg (6.005 wt.%) Ground glass fractions of 50-100 microns; 0.00009 kg (0.009 wt.%) Mixture of fullerene fractions C50-C92; 0.01201 kg (1.201 wt.%) Acetonanil H; 0.01802 kg (1.802 wt.%) VIZ wax; 0.03003 kg (3.003 wt.%) Petroleum oil PN6; 0,06005 kg (6,005 wt.%) Alkaline oil bitumen. The polymer composition is prepared on rollers at a temperature of 55 ° C and a gap between the rolls of 2 mm The resulting rubber sheet is cooled in air to 30 ° C and quenched with a clean pad.

The finished polymer composition is analyzed and determined: conditional tensile strength, elongation at break (GOST 21751), hardness (GOST 263-75), rebound elasticity (GOST 27110-86). The analysis data are presented in table 1.

Example 2

To prepare 1 kg (100,000 wt.%) Of the rubber mixture on a technical balance, weigh: 0.20880 kg (20.880 wt.%) SKI-3 rubber; 0.06960 kg (6.960 wt.%) SKD rubber; 0.18560 kg (18.560 wt.%) Rubber SKS30ARKP; 0.01856 kg (1.856 wt.%) Zinc oxide; 0.00813 kg (0.813 wt.%) Technical sulfur; 0.00812 kg (0.812 wt.%) Sulfenamide C; 0.01160 kg (1.160 wt.%) Stearic acid; 0.06960 kg (6.960 wt.%) Technical carbon P234; 0.23200 kg (23,200 wt.%) Technical carbon P514; 0.05799 kg (5.799 wt.%) Ground glass fractions of 50-100 microns; 0.00008 kg (0.008 wt.%) A mixture of fullerene fractions C50-C92; 0.01160 kg (1.160 wt.%) Acetonanil H; 0.01856 kg (1.856 wt.%) VIZ wax; 0.03016 kg (3.016 wt.%) Petroleum oil PN6; 0.06960 kg (6.960 wt.%) Alkaline petroleum bitumen. The polymer composition is prepared on rollers at a temperature of 55 ° C and a gap between the rolls of 2 mm The resulting rubber sheet is cooled in air to 30 ° C and quenched with a clean pad.

The finished polymer composition is analyzed and determined: conditional tensile strength, elongation at break (GOST 21751), hardness (GOST 263-75), rebound elasticity (GOST 27110-86). The analysis data are presented in table 1.

Example 3

To prepare 1 kg (100,000 wt.%) Of the rubber mixture on a technical balance, weigh: 0.18866 kg (18.866 wt.%) SKI-3 rubber; 0.07547 kg (7.547 wt.%) SKD rubber; 0.18867 kg (18.867 wt.%) Rubber SKS30ARKP; 0.01887 kg (1.887 wt.%) Zinc oxide; 0.00943 kg (0.943 wt.%) Technical sulfur; 0.01132 kg (1.132 wt.%) Sulfenamide C; 0.01132 kg (1.132 wt.%) Stearic acid; 0.07547 kg (7.547 wt.%) Technical carbon P234; 0.22827 kg (22.827 wt.%) Technical carbon P514; 0.05660 kg (5.660 wt.%) Ground glass fractions of 50-100 microns; 0.00007 kg (0.007 wt.%) A mixture of fullerene fractions C50-C92; 0.01132 kg (1.132 wt.%) Acetonanil H; 0.01887 kg (1.887 wt.%) VIZ wax; 0.03019 kg (3.019 wt.%) Petroleum oil PN6; 0.07547 kg (7.547 wt.%) Alkaline petroleum bitumen. The polymer composition is prepared on rollers at a temperature of 55 ° C and a gap between the rolls of 2 mm The resulting rubber sheet is cooled in air to 30 ° C and quenched with a clean pad.

The finished polymer composition is analyzed and determined: conditional tensile strength, elongation at break (GOST 21751), hardness (GOST 263-75), rebound elasticity (GOST 27110-86). The analysis data are presented in table 1.

As can be seen from table 1, the polymer composition made according to the recipe according to example 2, has the best performance and allows you to: improve the physico-mechanical properties of rubbers, to ensure the stability of the polymer composition to aggressive environments.

Claims (2)

A polymer composition for the manufacture of rubber products, including synthetic isoprene rubber, synthetic butadiene rubber, synthetic butadiene rubber, zinc oxide, industrial sulfur, sulfenamide C, stearic acid, industrial carbon P234, industrial carbon P514, ground glass fractions 50-100 microns, mixture ful fractions C ₅₀ -C ₉₂ , acetonanil N, VES wax, petroleum oil PN6, alkaline petroleum bitumen in the following ratio, wt. %:  isoprene synthetic rubber 18.7-24.021  butadiene synthetic rubber 6,005-7,547  styrene butadiene synthetic rubber 18.02-18.87  zinc oxide 1.802-1.88;  technical sulfur 0.601-0.943  sulfenamide C 0,300-1,132  stearic acid 1,201-1,132  technical carbon P234 6,005-7,547  technical carbon P514 22.64-24.02  ground glass fractions of 50-100 microns 5,660-6,005 mixture of fullerenes of fraction C ₅₀ -C ₉₂ 0.001-0.015  acetonanil H 1,132-1,201  VIZ wax 1,802-1,887  petroleum oil PN6 3,003-3,019  alkaline oil bitumen 6,005-7,547