RU1096839C - Insulating composition for treating rubber mixture granules and sheets - Google Patents

Abstract

INSULATING COMPOSITION FOR. PROCESSING GRANULES AND SHEETS FROM RUBBER MIXTURE, comprising oleic acid, stearic acid and potassium hydroxide, characterized in that, in order to reduce foaming and increase the shelf life of the granules and sheets from the rubber mixture without sticking, the composition further comprises an acrylamide copolymer maleic acid ester with a mass ratio of monomers by weight, respectively 2: 10: 1 with an acid number of 320-329 mg KOH / g, with the following ratio of components, wt .: 29-32 Stearic acid P-12 Caustic and A copolymer of acrylamide, acrylic acid and I f maleic acid ester 0,01-0,1 howl acid To too Oleic acid

Description

The invention relates to the rubber and tire industries and can be used to prevent the adhesion of granules and sheets from a rubber composition.

A known insulating composition for treating granules and sheets from a rubber composition comprising oleic acid, stearic acid and potassium hydroxide in a ratio, respectively: AO: 16. .

A significant drawback is its abundant foaming and a short, long shelf life of the granules without sticking (no more than 8 hours). . In order to reduce foaming, polymethylsiloxanes (,

ABOUT

Yu

PMS-2COA), which are very scarce

ON and expensive.

i The purpose of the invention is to reduce the ion-OE formation of the composition and

WITH the duration of storage of granules and sheets

th rubber mixture without sticking.

The goal is achieved in that the insulating composition for processing Granules and sheets of rubber, including oleic acid, stearic acid and potassium hydroxide, additionally contains a copolymer of acrylamide, acrylic acid and maleic acid ester with a ratio of monomers by weight, respectively 2: 10: 1 with an acid value of 3 0-329 mg KOH / G in the following ratio of components, wt.%:

Stearic acid

Potassium hydroxide

Acrylamide copolymer

.acrylic acid and g

maleic acid ester 0.01-0.1

Oleic acid Up to 100

The copolymer (or ternary copolymer) of acryamide, acrylic acid and acid-maleic acid ester of maleic acid is a white powder, slowly forming an emulsion with water, the viscosity of a 0.5% aqueous solution of product 1.18-1. 20 eats, acid number 15 320-329 mg KOH / G. The ratio of monomers in the copolymer is 2: 10: 1.

The insulating composition of the invention is prepared by intensive fur; mixing (ZGG-fGG rpm 20 stirrers) of the constituents in predetermined quantities at room temperature in the form of 5 or 7% aqueous solutions.

Example 1. Determine the foaming and insulating ability of the known insulating composition based on the impulse CM-110 according to the above methods.

. Foaming. Take 10U cm at-3O of the prepared 3-th aqueous solution of the insulating composition and fill it into a graduated cylinder, and then shake four times (by turning the cylinder 35

l80 °) and note the presence of foam on the surface of the solution after it has settled for 1 m, in.

Foaming is evaluated by the height of the foam above the surface of the solution. Abundant foam - the height of the foam above the solution is more than 30 tons of the total volume of the solution.

Weak foam - the height of the foam above the level of the surface of the solution is not more than 5% of the total height of the solution in the cylinder. Lack of foam - the height of the foam above the solution level is not more than}% of the total solution. 50

Insulating ability. A 5% aqueous solution of the composition is prepared and treated by simply dipping the granules (or sheets) of the rubber mixture into it and dried. Before processing, the granules are preliminarily cut with a diameter of 15-20 mm and a length of 20-25 mm; the rubber mixture is prepared on the basis of isoprene rubber.

Dried granules in quantity. 2 kg is placed in a metal bowl and a load of 2 kg is applied to the surface of the granules and maintained at 0 ± 2 ° C for a predetermined time.

The adherence of granules is determined visually by the ability to disperse them when the glass is tipped over on l8u C.

The insulating and foaming abilities were determined using a known composition used at the Moscow Tire Plant, which is prepared as follows.

Preparing an aqueous solution (emulsion SM-110) containing the following components, May.%:

Stearic Acid 0.0

Oleic acidkk, Q

Potassium hydroxide16, J

The preparation of the CM-110 emulsion is carried out in the following order. Stearic acid and water are loaded into a container equipped with heating and a stirrer, the heating is turned on and mixed.

At 80 ° C, potassium hydroxide is added in small portions and, after administration, is stirred for at least 23 minutes. Oleic acid is then added and mixed again for 20 minutes (until a homogeneous emulsion is obtained).

The insulating and foaming abilities are determined on an aqueous solution of CM-110 emulsion according to the indicated methods. the solution is obtained by simple dilution with water. 20% emulsion SM-PO.

The test results are shown in the table.

Example 2. Prepared by simply mixing the components of the solution of a new composition containing the following components, wt.%: Stearic acid 32.0

Oleic acid55.93

Potassium hydroxide12

Triple copolymer of acrylamide, acrylic acid and maleic acid acid ester. (2: 10: 1)

The insulating and foaming ability of the 5th solution of the proposed composition is determined by the methods described in example 1.

The test results are shown in the table. 51 EXAMPLE 3. A solution is prepared analogously to example 2 of a new composition containing the following components: Stearic acid 30.0 Oleic acid 58.95 Caustic potassium 11.0 Triple copolymer of acrylamide, acrylic acid and maleic acid ester (2:10 : 1); 0.05 The insulating and foaming abilities of the solution of the proposed composition are determined according to the methods described in Example 1. The test results are shown in the table. PRI me R 4. Prepare a 5% solution analogously to example 2 of a new composition containing the following components, wtD :.

Test results of the insulating and foaming abilities of various insulating compositions 9 Stearic acid 29, d Oleic acid 59, Caustic potassium11 5 Triple copolymer of acrylamide, acrylic acid and maleic acid ester (2: 10: 1) 0.10 Insulating and foaming properties 5 - a solution of the proposed composition is determined by the methods described in example 1. The test results are shown in the table. As follows from the table, the use of the new composition of the insulating composition allows to provide in comparison with; The known composition is as follows: increasing the shelf life of the rubber granules from tie to 70 hours, i.e. a significant reduction in foaming of the insulating solution.

(PROTOTYPE) Stearinova

Oleinov acid

acid Potassium hydroxide Acrylamide triple copolymer; acrylic acid and maleic acid ester (2: 10: 1)

Abundant foam (twice. Volume of the total solution volume)

Weak foam (not more than 5% of the total solution volume)

1096839

Stearic acid Oleinova

acid Potassium hydroxide Triple copolymer of acrylamide, acrylic acid and maleic acid ester (2: 13: 1)

Stearic acid Oleic acid Potassium hydroxide Triple copolymer of acrylamide, acrylic acid and maleic acid acid ester (2: ta: l)

8 Continuation of the table

No foam

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No foam

. 70