SU1766937A1 - Non-drying hermetic - Google Patents

Abstract

The essence of the invention: the sealant contains an unsaturated rubber mol. M. 50,000-150,000 of the general formula C-sfcH2-CCH-CH2: s-C, where p is 729-2173, in an amount of 8-25% by weight; Industrial Ministry 11-24 May. % and filler 59-81 May. % tab.

Description

The invention relates to the rubber industry, in particular to non-drying unsaturated rubber-based sealants used to seal detachable and permanent joints, various joints and seams (for example, wood-concrete, concrete-concrete, glass-rubber, metal-to-metal), sealing windshields of cars, filling up cracks in door and window openings, cracks and voids in walls, bathrooms, sinks.

Known non-drying sealant composition, May. %:

Ethylene Propylene Rubber10.0-17.1

Butyl rubber1.9-5.0

Mineral oil 10-26 Filling 56-75

The disadvantages of this sealant are low strength, water, heat and frost resistance 1.

A non-drying hermetic for sealing and waterproofing is also known.

including waste from the production of butyl rubber with Mooney viscosity 35-45, industrial oil, filler and additionally pyrolysis resin obtained by initiating polymerization of alkenyl aromatic hydrocarbons from a kerosene pyrolysis resin with a softening temperature of 100-120 ° С in the following ratio of components, May %: Waste production of butyl rubber with Mooney viscosity 35-45 8-12 Industrial oil 10.5-22 Filling 61-79

Pyrolysis resin2.5-5

The sealant is prepared by thoroughly mixing the components on a rubber-mixing equipment at 70-80 ° C. Sealant has increased strength and frost resistance. It does not stick to hands, it has low cold flow, which allows it to be used for embedding any surfaces (vertical, horizontal,

SP

with

XI o o y u VI

inclined) slots and voids of any configuration. Due to the use of production waste, the sealant is characterized by a lower cost.

This sealant has insufficient heat resistance (75-85 ° C), which allows it to be used in cases where the operating temperature is significantly below 100 ° C, but for sealing central heating batteries, gas ducts, roofing, etc. it is not suitable. „; -“ g

The purpose of the invention is to increase the heat resistance of a non-drying sealant.

The goal is achieved by the fact that a non-drying sealant for sealing hydroisolation, including unsaturated rubber, industrial oil, and a filler, contains molten-m rubber as the unsaturated rubber. 50000-150000 of the general formula I OS -sf sn2-cn-cn} s-C 5 L Ј n3 Jn s

where n 729-2173,

in the following ratio of components

May %:

Unsaturated rubber 8-25 Industrial oil 11-24 Filler59-81

Unsaturated rubber of formula (I) is obtained by destruction of waste production of synthetic isoprene rubber SKI-3 (the so-called plastic compound). The degradation product can be obtained by a known method of chemical kneading of insulated rubber at a temperature above 80 ° C for 2-3 hours on a rubber-mixing equipment in the presence of chemical detergents - mercaptobenzthiazole (captax) or di (2-benzthiazolyl) disulfide (altax). This product, its preparation and use in the manufacture of rubber compounds to increase ductility, reduce viscosity and elastic recovery have already been described 3.

The use of isoprene rubber degradation products in non-drying hermetic is not known.

Industrial minerals of the grades I-6A - I-40A (GOST 20799-75) are used as mineral oil. Talc, chalk, kaolin, white carbon, aerosil are used as fillers.

The sealant is obtained by mixing the components in the rubber mixing equipment at 100-140 ° C. First, SKI-3 rubber waste (plastic compound) is loaded into the mixer.

from the initial mol.m. 800000-900000 and its destructuring at 100 ° C for 2 hours in the presence of altax or captax until mol.m. 50000-150000 with the formation of rubber of formula I. Then load the remaining components and mix them with rubber for 3-4 hours (weight 1.5 t) at 100-140 ° C.

The invention is illustrated by examples.

Examples 1-14. The formulations of the compositions according to the invention are given in examples 1-5 table. 1, there are also given formulations of compositions with transcendental molecular masses of unsaturated rubber (examples 6k. 7k) with extreme proportions of unsaturated rubber (examples 8k, 9k), industrial oil (examples 10k, 11k) and fillers (examples 12k, 13k) and the formulation of the composition containing the same as the prototype components, but with an increased content of butyl rubber compared to the prototype (example 14). For comparison, the composition of the prototype is given. Composition properties

are given in table. 2

As follows from examples 1-5, only when using in non-drying sealant unsaturated rubber of formula I mol.m. 50640-150300, with the same amount of rubber in the compositions, increase the heat resistance by a factor of 2.5 in comparison with the prototype (from 75 to 180-200 ° C) without deteriorating other properties. Even with a threefold increase in the amount of rubber in

the sealant (example 5) its flow temperature is 120 ° C, while at approximately the same increase in the amount of rubber in the prototype, its flow temperature drops to + 40 ° C (example 14). Baseline

Rubbers have the property of cold flow, i.e. flow already at 18-23 ° C. Thus, the possibility of more massive and rapid utilization of waste of isoprene rubber (plastic compound) appears, which is very

important because of the recent increase in environmental requirements.

When used in rubber sealants with a molecular mass above the upper limit (Example 6k) and below the lower limit

(example 7k) the sealant is obtained too hard (penetration 48) or too soft (penetration 130 mm), respectively, which in both cases leads to a decrease in tensile strength. With

the use of rubber in the amount above the upper limit (example 8k) the heat resistance of the sealant does not exceed the heat resistance of the prototype, and with the introduction of it below the lower limit (example 9k) the sealant

too soft (penetration 30) and sticks to hands. When using industrial oil below the lower limit (example 10k), the sealant becomes tough, which affects the strength when broken, and when the upper limit (example 11k) is exceeded, the sealant is soft and stick to hands. If the filler is contained in an amount below the lower limit, then the heat resistance of the sealant does not exceed the heat resistance of the prototype (example 12k), and it is impossible to enter it above the upper limit (example 13k).

Claims (1)

Non-drying sealant, including unsaturated rubber, industrial Recipe compositions an oil and a filler, characterized in that, in order to increase heat resistance, as an unsaturated rubber, it contains a rubber with a mol.m. 50000-150000 of the general formula N} c-s-TcH2-cn-sn2 | s-c 5 L CH3Jn where p is 729-2173, in the following ratio of components May %: unsaturated rubber 8-25 industrial oil 11-24 filler59-51. Table I Breaking strength, MPa (wood concrete) 0.17 0.25 Waterfall feeling. X 0.18 0.16 Frost resistance, С -70 -75 Relative elongation,% 200180 Penetration (method 0.22 229 0.21 0.21 0.12 0.1 0.2 0.15 0.1 0.18 0.19 Poor 0.11 0.14 0.19 0.18 O, and 0.17 0.2 O, IB 0.2 0.17 0.17 O.lB mixing, 0.2 -70 -70 -76 -80 -70 -75 -80 -70 -75 -70 -75 properties -70 not determined- 135 B j 180 190 173 90 185 210 153 193 190 share 235