PL221753B1 - Elastomer composition of ethylene-propylene rubber products, intended for having good strength and controlled degradability - Google Patents

Description

The subject of the invention is an elastomer composition of ethylene-propylene rubber, intended for rubber products with good strength properties and controlled degradability.

The use of aging catalysts for elastomer composites made of ethylene propylene rubber is aimed at accelerating the decomposition of rubber products from these composites after their end-of-life operation. Literature data show that so far metal salts of variable valence, which do not always meet ecological standards, have been used as aging catalysts for elastomeric materials made of ethylene-propylene rubber.

Therefore, it is reasonable to look for other substances, preferably of natural origin, that would act as aging catalysts in elastomer compositions based on ethylene propylene rubber.

An elastomer composition made of ethylene-propylene rubber, intended for rubber products with good strength properties and controlled degradability, containing, per 100 parts by weight of rubber, 2 parts by weight of a dicumyl peroxide cross-linker, 0.5 parts by weight of a peroxide cross-linking agent in the form of triallyl cyanurate, 2 parts by weight of cetyltrimethylammonium bromide dispersant, 30 parts by weight of pyrogenic silica, and an aging catalyst, according to the invention, the invention contains a natural aging catalyst, such as berberine chloride, cis-jasmon, β-ionone, in an amount of 0.5-5 parts by weight per 100 parts by weight of rubber.

Products made of the elastomer composition according to the invention, containing natural aging catalysts, are characterized by good strength properties and, at the same time, an accelerated decomposition time under the action of degradation factors such as: UV radiation, humidity, temperature.

The following examples illustrate the subject matter of the invention. The parts given in the examples are parts by weight.

P r z k ł a d I

A composition was prepared without an aging catalyst, composed of: ethylene-propylene rubber, dicumyl peroxide, triallyl-cyanurate, cetyltrimethylammonium bromide-CTAB, precipitated silica Aerosil 380.

A composition was prepared with the following composition: ethylene-propylene rubber dicumyl peroxide triallyl cyanurate CTAB precipitated silica Aerosil 380 berberine chloride P r z y k l a d III

A composition was prepared with the following composition: ethylene-propylene rubber dicumyl peroxide triallyl cyanurate CTAB precipitated silica Aerosil 380 β-ionone

P r x l a d IV

A composition was prepared with the following composition: ethylene-propylene rubber dicumyl peroxide triallyl cyanurate CTAB

100 parts 2 parts 0.5 parts 2 parts 30 parts.

100 parts 2 parts 0.5 parts 2 parts 30 parts 1.5 parts.

100 parts 2 parts 0.5 parts 2 parts 30 parts 1.5 parts.

100 parts 2 parts 0.5 parts 2 parts

Aerosil 380 precipitated silica - 30 parts cis-jasmon - 1.5 parts.

The samples of the compositions of Examples 1-4 were cured at 160 ° C for 30 minutes.

The vulcanized samples were aged by UV radiation in the Atlas UV 2000 apparatus. The aging lasted 120 hours and consisted of two alternating segments, with the following parameters: day segment (radiation intensity 0.7 W / m, temperature 60 ° C, duration 8 hours), night segment (no UV radiation, temperature 50 ° C, duration 4h). The tensile strength TS and the elongation at break EB before and after the aging process were determined. The aging factor was determined from the relationship

TS x EB before aging / TS x EB after aging

In addition, the cross-link density before and after aging was tested.

Table 1 shows the tensile strength and elongation at break of the lcanization products prepared in Examples 1-4 before UV aging, Table 2 shows the tensile strength and elongation at break of the vulcanization products prepared in Examples 1-4 after UV aging and the coefficients aging, while Table 3 shows the tensile strength and elongation at fracture of the vulcanization products prepared in Examples 1-4 after aging in climatic conditions, and the aging coefficients in climatic conditions, where aging in climatic conditions means aging in simulated conditions, in a special chamber , lasting a total of 120 hours and consisting of two alternating segments: daily with simulated radiation intensity of 0.7 W / m, humidity 60% and precipitation, lasting 240 minutes, and night with simulated humidity of 50% and no radiation, lasting 120 minutes.

T a b e l a 1

Type of composition Tensile strength MPa] Elongation at break [%] According to example I 19.90 782 According to example II 17.10 775 According to example III 15.10 585 According to example IV 16.50 443

T a b e l a 2

Type of composition Tensile strength [MPa] Elongation at break [%] Aging factor ^(T S * EB) before aging / ^(T S * EB) after aging According to example I 5.70 440 0.16 According to example II 4.45 125 0.04 According to example III 3.48 210 0.08 According to example IV 3.50 140 0.07

T a b e l a 3

Type of composition Tensile strength [MPa] Elongation at break [%] Aging factor ^{(TS * EB)} before aging ^{/ (TS} * ^EB) after aging According to example I 12.90 590 0.49 According to example II 5.55 352 0.15 According to example III 5.50 520 0.32 According to example IV 2.62 399 0.14

Claims (1)

An elastomer composition made of ethylene-propylene rubber, intended for rubber products with good strength properties and controlled degradability, containing, per 100 parts by weight of rubber, 2 parts by weight of a dicumyl peroxide cross-linker, 0.5 parts by weight of a peroxide cross-linking agent in the form of triallyl cyanurate, 2 parts by weight of a dispersant in the form of cetyltrimethylammonium bromide, 30 parts by weight of pyrogenic silica and also an aging catalyst, characterized in that it contains a natural aging catalyst such as berberine chloride, cis-jasmon, β-ionone in an amount of 0.5-5 parts by weight per 100 parts by weight of rubber.