RU2121484C1 - Regeneration modifier of rubber waste - Google Patents

Abstract

FIELD: rubber processing industry. SUBSTANCE: claimed modifier comprises carbochain rubber, vulcanizing system consisting of sulfenamide, zinc oxide, stearic acid and rosin, mixture of thiazole with organic peroxide. Thiazole and organic peroxide in the mixture are used in weight ratios of (0.3-1.0): (1.0-0.3) ratios. Modifier components comprise (wt parts):100 rubber; 14-27 vulcanizing system; and 15-30 mixture of thiazole with organic peroxide. Modifier makes it possible to utilize rubber waste. Waste is varied in composition. The resulting regenerate is used independently as commercial rubber mix. Regenerate is also used as additive to fresh rubber mixes. EFFECT: improved properties of the modifier. 53 ex, 6 tbl

Description

 The proposed technical solution relates to the field of regeneration of rubber waste generated in the manufacturing process of rubber products, rubber shoes, tires, as well as in the processing of worn tires and other rubber products that are out of use, in particular to modifier substances that cause the destruction of vulcanized compositions .

 The process of rubber regeneration involves the use of various methods or substances leading to its destruction, in particular, chemical modifiers are used for this purpose.

So from the GDR patent N 209593 it is known the effect on the rubber crumb of the composition of the plasticizer with a peptizer at a temperature of 130-200 ^o C in an atmosphere of gas saturated with oxygen.

 It is also known to treat rubber crumb with an epoxidized and / or hydroxylated liquid phase diene polymer (Japanese application N 1-22962, class C 08 L 75/04).

 In accordance with the data of the inventions, other chemical modifier additives are also known by copyright certificates, for example N-cyclohexylthiophthalimide (USSR, AS N 711057, class C 08 L 9/00), or a 50% solution of disulfide isooctyl phenol in spindle oil (USSR, a.s. N 1016202, class B 29 H 19/00), or a mixture of sulfur with N-cyclohexyl-2-benzthiazolylsulfenamide (USSR, a.s. N 1678819, class C 08 J 11/28) .

 Of the other known modifiers for this purpose, the closest in composition and function should be considered the regeneration modifier adopted from the prototype from “Composition for obtaining regenerate” according to the USSR copyright certificate N 1620454, class. C 08 J 11/04 (the full composition of the modifier is given in table 6, example 46).

 And this invention and all of the previously listed solve one problem - they allow you to utilize the large-tonnage waste of the rubber industry by using various chemical modifiers.

 The purpose of the proposed technical solution is the same - the disposal of rubber waste by expanding the range of modifiers.

This goal is achieved by the fact that in addition to the rubber waste regeneration modifier, including thiazole, there is added carboxylic rubber, a vulcanizing system consisting of sulfenamide, zinc oxide, stearic acid and rosin, and organic peroxide, and thiazole and organic peroxide are taken in a mass ratio (0 , 3 - 1): (1 - 0.3) with the following content of components, parts by weight:
Carbide rubber - 100
Specified vulcanizing system - 14 - 27
A mixture of thiazole and organic peroxide in the specified ratio - 15 - 30
To prove the materiality of the differences of the claimed technical solution from the known, we give the following justifications:
the use of a composition of substances of the proposed qualitative and quantitative composition as a rubber waste regeneration modifier is not known from other technical solutions,
the introduction into the modifier based on different rubbers as the active principle of the synergistic mixture of thiazole-organic peroxide in the claimed ratio and quantity allows the use of this modifier in the regeneration of rubber waste of various compositions; this process apparently occurs due to the selective destructive effect of the chemically highly active system on the transverse sulfur bonds of the surface layer of vulcanized rubber crumb.

 The composition and properties of the claimed modifier were worked out previously, and the criterion for further testing of the modifier was a set of properties in their optimal value (for a composition based on HK), but the value of the strength indicators was decisive.

The results of this test are presented in tables 1 and 2, where table 1 shows the development of the active principle ratios "thiazole-organic peroxide" at a constant total dosage (20 parts by weight) in the modifier,
table 2 - working out the total dosage of the synergistic mixture "thiazole-organic peroxide" with a constant ratio (1: 1) in the modifier.

 Based on the data presented, it is seen that satisfactory strength indices were obtained only in the case of the combined action of the thiazole-organic peroxide mixture (table 1, examples 2-8), and the tendency of deterioration of this property with the separate action of each of the components of this synergistic composition (table 1, examples 1 and 9).

 The results presented in table 2 indicate that a satisfactory value of the strength index corresponds to the composition of the modifier, in which the synergistic mixture is present in an amount of from 15 to 30 wt. hours (examples 11-14).

 In a similar way, the possibility of using other (except HK) carbochain rubbers in the optimal modifier recipe was determined (table 3); the low value of the strength index for the composition of the modifier based on nitrile rubber (example 17) is explained by the nature of this rubber, the mixtures of which in an unfilled state differ in low strength characteristics, and their main purpose is to use them for oil and petrol resistant products.

 Since the modifier contains sufficiently strong destructive agents (for example, organic peroxide), special requirements are imposed on the manufacturing process — the order (sequence) of component introduction and the processing time on the mixing equipment. The authors believe that the method of manufacturing the modifier may be the subject of a separate application, therefore, data on this process are given in general form.

The manufacture of the modifier is carried out on standard equipment of the rubber industry, and the introduction of ingredients occurs in the following mode:
Carbide rubber - 0 min
Vulcanizing system - on the 5th minute
A mixture of thiazole and organic peroxide - for 8 minutes
Modifier unloading - on the 10th minute
Based on the fact that the purpose of the modifier is to use it for the regeneration of rubber waste, its properties were studied during testing of the regenerate obtained by mixing the inventive modifier with rubber crumb (crumb can be of any quality composition, with a dispersion of up to 6 mm).

 The regenerate was made by mixing all the components on standard mixing equipment according to existing technological regimes.

 The examples shown in table 4 illustrate the composition and basic physical and mechanical properties of the regenerate (in the best case) containing the inventive modifier and rubber crumb. The data of the examples indicate that the introduction of a modifier into the regenerate in an amount of from 5 to 40 parts by weight leaves the basic properties of the regenerate practically stable, however, a dosage of 5 to 20 wt. h (examples 29-32) for economic reasons.

 In addition, the results of table 4 demonstrate the possibility of using the obtained regenerate as an independent composition, for example, for such items as coating for level crossings, rail linings, plates, rugs, etc. products.

 It is also possible the introduction of a regenerate with the claimed modifier and in newly manufactured (fresh) rubber compounds.

 So, table 5 shows that the use in general-purpose mixtures of even large quantities of crumb rubber (in the presence of the inventive modifier) not only does not impair the strength properties of the mixtures, but even significantly increases them (examples 36, 37, 39, 40); as for mixtures based on nitrile rubber, for which the possibility of their use for rubber technical products of oil and petrol resistant purpose, where the main characteristic is the indicator of resistance to swelling, is the determining factor, as the data of examples 41-45 show, the value of this characteristic improves even when using significant amounts of general-purpose rubber waste (i.e. not based on polar rubbers).

 Summarizing all the results of working with the modifier, we present (in comparison with the prototype) its complete composition shown during the test of the regenerate containing this modifier (for example, based on HK) and vulcanized rubber waste (table 6, examples 46-52).

 The data obtained demonstrate the performance of the inventive modifier in the full range of its composition.

Based on the foregoing, we can draw the following conclusions about the claimed regeneration modifier and its advantages in comparison with the known ones:
the proposed modifier is not known from previous technical solutions and can be used in the manufacture of a regenerate from vulcanized rubber waste of any composition;
effective devulcanization (regeneration) of vulcanized rubber waste occurs due to the presence in the regeneration modifier of the active principle - a synergistic mixture of thiazole-organic peroxide in the proposed ratio and amount,
the regenerate obtained using the inventive modifier can be used independently as a commodity rubber mixture or as an additive to fresh rubber compounds,
the manufacturing process of the regenerate containing the inventive modifier occurs at room temperature without pressure using standard equipment for the manufacture of rubber compounds,
the creation of the inventive regeneration modifier expands the range of already known products for this purpose,
the use of the inventive modifier allows you to utilize and use diverse in composition, generated in various areas of the polymer industry, large-tonnage waste vulcanized rubber, which is very important for environmental reasons.

Claims (1)

A rubber waste regeneration modifier comprising thiazole, characterized in that the modifier further comprises carbochain rubber, a vulcanizing system consisting of sulfenamide, zinc oxide, stearic acid and rosin, and organic peroxide, and thiazole and organic peroxide are taken in a mass ratio (0.3 - 1.0): (1.0 - 0.3) in the following ratio of components, parts by weight:
Carbide rubber - 100
Specified vulcanizing system - 14 - 27
A mixture of thiazole and organic peroxide in the specified ratio - 15-30

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