PL244176B1 - Elastomeric composition made of natural rubber, intended for rubber products with good mechanical and barrier properties and color durability. - Google Patents

Abstract

The subject of the application is an elastomeric composition made of natural rubber, intended for rubber products with good mechanical and barrier properties and with a durable color, which contains natural rubber, a sulfur cross-linking unit containing mercaptobenzothiazole, sulfur, zinc oxide and stearin, and also contains a filler of plant origin in the form of seeds, leaves, stems or roots of common nettle, mechanically crushed.

Description

Description of the invention

The subject of the invention is an elastomeric composition made of natural rubber, intended for rubber products with good mechanical and barrier properties and with a durable color.

So far, it is widely known that common nettle, due to its properties, is widely used in the textile, medicinal, food and agricultural industries. In the above industries use all parts of nettle, i.e. seeds, leaves, stems, roots. The smallest amount of waste in nettle processing is recorded in the agricultural industry, because the entire plant can be a source of micronutrients for fertilizers or serve as an additional ingredient for food for farm animals. All parts of the plant are also used in the pharmaceutical industry. In the textile industry, only nettle fibers are used, while in the food industry (mainly in tea production) the leaves are most often processed.

The most frequently sold parts of nettle, resulting from market demand, are the leaves, while the stems, which constitute approximately 50-60% of nettle harvests, are discarded as waste without further use.

The main requirements for common nettle used in the above-mentioned industries is the appropriate purity, quality and ecological source of the plant. Therefore, waste generated during the processing of nettle to obtain a specific product in a given industry may constitute a source of raw material for another production process, which will enable the full potential of the obtained raw material to be used. Due to the valuable chemical compounds it contains and due to its low density, high water content and high water absorption capacity, common nettle is not considered an energy raw material.

Due to the need to replace petroleum-based composites resulting from the environmental problems of recent years, composites made from renewable raw materials play an increasingly important role in the production of polymer composites. This also applies to rubber vulcanizates filled with renewable material of natural origin, which strengthens the material and is added to improve its properties. Polymer composites containing at least one bio-based or biodegradable component are called biocomposites. The main benefits of using biocomposites instead of petroleum-based composites are reduced consumption of non-renewable raw materials, carbon dioxide emissions, easier recycling process and partial or complete biodegradability of the material.

The patent description PL237046 discloses an elastomer composition made of natural rubber, containing natural rubber, a sulfur cross-linking unit composed of: 2 parts by weight of mercaptobenzothiazole, 2 parts by weight of sulfur, 5 parts by weight of zinc oxide and 1 part by weight of stearin per 100 parts by weight of rubber, and also containing lignocellulosic filler in the form of cereal straw chemically modified by acetylation or treatment with organic peroxides.

The patent description PL 233583 discloses an elastomer composition made of natural rubber, intended for products with improved barrier properties, containing natural rubber, a sulfur cross-linking unit composed of: 2 parts by weight of mercaptobenzothiazole, 2 parts by weight of sulfur, 5 parts by weight of zinc oxide and 1 part by weight of stearin. per 100 parts by weight of rubber, and mechanically crushed barley, corn or wheat straw as a filler.

The purpose of the present invention is to develop an elastomer composition based on natural rubber, intended for rubber products with improved mechanical properties, using material of plant origin.

Elastomer composition made of natural rubber, intended for rubber products with good mechanical and barrier properties and color stability, containing natural rubber, sulfur cross-linking unit containing 2 parts by weight of mercaptobenzothiazole (MBT), 2 parts by weight of sulfur, 5 parts by weight of zinc oxide (ZnO) and 1 part by weight of stearin per 100 parts by weight of rubber, and also containing a filler of plant origin, according to the invention, as a filler it contains seeds, leaves, stems or roots of common nettle, mechanically crushed into particles smaller than 1 mm, in an amount of 10-30 parts by weight per 100 parts by weight of rubber.

Rubber products made from the compositions according to the invention are characterized by very good mechanical properties, i.e. tensile strength and high elongation at break, and also show high cross-linking density, good barrier properties and color durability as a result of the use of simulated external factors.

Biocomposites made from the compositions according to the invention can be used in the installation industry, automotive industry, household appliances industry as a mounting holder for tools, electrical machinery and telecommunications industry as housings for microcomputers, telephones, remote controls, transport industry as seals, shock absorber parts, mats and carpets, construction industry as construction elements or protective materials, also in the military and other industries.

The subject matter of the invention is illustrated by the following examples with reference to the drawing, in which Figs. 1-4 show graphs illustrating the tensile strength before (TS), after simulated UV aging (TSuv) and thermo-oxidative aging (TSTerm) and the Payne effect (AG' ) vulcanized samples of the compositions obtained in Examples I-IV. The parts given in the examples are parts by weight.

Example I

The following compositions were prepared:

natural rubber - 100 parts common nettle seeds crushed in a ball mill into particles smaller than 1 mm - 10, 20, 30 parts mercaptobenzothiazole (MBT) - 2 parts stearin - 1 part zinc oxide (ZnO) - 5 parts sulfur - 2 parts

A sample of this composition was vulcanized at a temperature of 160°C for 15 minutes, and then its properties were tested: cross-linking density, tensile strength (before and after simulated UV and thermo-oxidative aging), relative elongation at break and the Payne effect.

At the same time, for comparative purposes, a composition was prepared with the following composition: natural rubber - 100 parts

MBT - 2 parts stearin - 1 part

ZnO - 5 parts sulfur - 2 parts

A sample of this composition was vulcanized at a temperature of 160°C for 15 minutes, and then the cross-linking density was also tested; tensile strength (before and after simulated UV and thermo-oxidative aging), relative elongation at break and the Payne effect.

Example II

The following compositions were prepared:

natural rubber - 100 parts common nettle leaves crushed in a ball mill into particles smaller than 1 mm - 10, 20, 30 parts

MBT - 2 parts stearin - 1 part

ZnO - 5 parts sulfur - 2 parts.

A sample of this composition was vulcanized under the conditions as in Example I, and its properties were tested: cross-link density, tensile strength (before and after simulated UV and thermo-oxidative aging), relative elongation at break and the Payne effect.

Example III

The following compositions were prepared:

natural rubber common nettle stalks crushed in a ball mill into particles smaller than 1 mm MBT stearin

ZnO sulfur

The procedure continued as in example II.

Example IV

The following compositions were prepared:

natural rubber

100 parts

10, 20, 30 parts parts part 5 parts parts

100 parts

PL 244176 Β1 common nettle roots crushed in a ball mill into particles smaller than 1 mm - 10, 20, 30 parts

MBT - 2 parts stearin - 1 part

ZnO - 5 parts sulfur - 2 parts

The procedure continued as in example II.

The results of cross-linking density (v _e ) and relative elongation at break before (Eb) and after simulated UV aging (Ebuv) and thermo-oxidative aging (EbTerm) of the vulcanized samples of the compositions obtained in Examples 1-4 are presented in Tables 1 and 2, and the results of the strength tests tensile strength before (TS) and after simulated UV aging (TSuv) and thermo-oxidative aging (TSTerm), and the Payne effect (AG') of the vulcanized samples of the compositions obtained in Examples 1-4 are shown in Figs. 1-4 of the drawing.

Table 1

Part of common nettle in natural rubber Grinding method Common nettle [parts by weight/100 parts weight rubber] v _e *10 ⁵ [mol/cm ³ ] none (ref sample) - - 1.78 seeds ball mill 10 2.11 20 2.14 thirty 2.25 leaves ball mill 10 1.97 20 2.03 thirty 2.04 stems ball mill 10 2.18 20 2.22 thirty 2.40 roots ball mill 10 2.07 20 2.12 thirty 2.53

PL 244176 Β1

Table 2.

Part of common nettle in natural rubber Grinding method Common nettle |parts by weight/ 100 parts weight rubber] Eb [%] EbTeniL [%] Ebuv [%] none (ref sample) - - 640.05 543.17 578.38 seeds ball mill 10 677.80 657.28 761.47 20 645.83 625.02 750.37 thirty 679.85 614.94 724.66 leaves ball mill 10 697.40 726.70 809.49 20 723.27 716.44 781.61 thirty 744.43 691.45 757.11 stems ball mill 10 679.16 673.90 788.07 20 733.04 675.95 765.25 thirty 718.16 665.38 704.45 roots ball mill 10 738.07 665.91 ΊΊβ,ΤΙ 20 700.51 628.26 717.73 thirty 713.07 643.15 668.58

Claims (1)

1. Elastomeric composition made of natural rubber, intended for rubber products with good mechanical and barrier properties and with a durable color, containing natural rubber, a sulfur cross-linking unit containing 2 parts by weight of mercaptobenzothiazole, 2 parts by weight of sulfur, 5 parts by weight of zinc oxide and 1 part by weight stearin per 100 parts by weight of rubber, and also containing a filler of plant origin, characterized in that the filler contains seeds, leaves, stems or roots of common nettle, mechanically crushed into particles smaller than 1 mm, in an amount of 10-30 parts by weight per 100 parts by weight of rubber.