NL1031515C2 - Plastic fiber, in particular a plastic fiber for use in an artificial grass field, as well as an artificial grass field provided with such a plastic fiber. - Google Patents

Description

Brief description: Synthetic fiber, in particular a synthetic fiber for use in an artificial grass field, as well as an artificial grass field provided with such a synthetic fiber.

5 DESCRIPTION

The invention relates to a plastic fiber, in particular a plastic fiber for use in an artificial grass field.

The invention furthermore relates to an artificial grass field provided with such a plastic fiber.

The invention furthermore relates to a plastic fabric composed at least of a plastic fiber according to the invention.

Until now, yarns have been made from natural fibers, such as cotton, or from plastics, such as nylon, polyester or polyolefins. In particular plastic fibers, and in particular plastic fibers for use in an artificial grass field, are manufactured on the basis of petroleum products the availability of which is limited in time.

In view of the expected scarcity of raw materials for the yarns or fibers used today, in particular natural yarns or synthetic fibers, it is desirable that other, supplementary raw materials are sought and tested for the manufacture of synthetic fibers in particular.

According to the invention, the plastic fiber is characterized for this purpose in that it is manufactured, at least in part, from a biodegradable material. By using a "bio-based" or biodegradable material as raw material, the fiber thus obtained can be produced in large numbers from a natural organic product material, the availability of which is also guaranteed in the future. Moreover, the use of a biodegradable fiber in an artificial grass field offers the advantage that the fiber can be degradable over time without contaminating the environment and being contaminated, which is the case with plastic fibers made from petroleum-based fibers which remain permanently present, also after use, and thus pose a considerable burden on the environment.

More specifically, in one embodiment, one of the biodegradable materials comprises a starch component, wherein in particular the plastic fiber consists of 0-50% by weight of the starch component and more in particular for 0-30% by weight. Starch will continue to be available in the future almost unlimitedly 1031515 2 and can be obtained as a residual product from agriculture. Starch can also be processed via the known thermoplastic (extrusion) processes.

More specifically, moisture-repellent additives have been added to the starch component, while in another embodiment moisture-attracting additives have been added to the starch component, for example glycerol.

In both cases, the starch component becomes more thermoplastic, so that the plastic fiber thus obtained can be manufactured with the aid of known thermoplastic (extrusion) processes, in which way the plastic fibers made from petroleum are currently also realized.

In another embodiment, the plastic fiber further comprises a second biodegradable material component, which influences the biodegradability of the biodegradable material over time. The second material component can herein comprise an aliphatic polyester or a mixture of aliphatic polyesters, in particular polylactic acid. Aliphatic polyesters themselves are also broken down over time. Polylactic acid itself can also be produced from "bio-based" raw materials, for example through fermentation of agricultural waste.

According to one embodiment, the plastic fiber may consist of 50-20 100% by weight of the second material component and in particular 70-100% by weight.

In this way, biodegradable plastic fibers and more particularly biodegradable artificial grass fields can be realized, the finite lifespan (composting) of which can be adjusted, as well as the speed with which the degradation process takes place.

The invention relates to an artificial grass mat which is built up from a carrier with one or more biodegradable plastic fibers arranged thereon, as described above. In a specific embodiment, the carrier can be an at least partially open carrier, so that natural grass can also be rooted in the artificial grass field. The combination of a grass field made up of an artificial grass field with biodegradable synthetic fibers and natural grass blades rooting through the partially open carrier between them offers the possibility of supporting natural grass fields during rooting and growing, for example in places where the growth of natural grass 3 should be temporarily supported, for example in the case of slopes or embankments.

A fully degradable artificial grass field can be obtained if, according to the invention, the carrier is at least partially made of the same biodegradable material, as applied to the artificial grass fiber 5 according to the invention.

The invention also relates to a plastic fabric at least composed of a plastic fiber according to the invention, which plastic fabric can for instance be a geotextile. By forming the fabric as a tubular end product in the specific embodiment, they can be used in dehydrating aqueous substances such as sludge, the tubular shaped fabric being degraded over time with no trace after drying in the area. Here too it is prevented that foreign material is left behind and may have to be removed.

The invention will be further elucidated with reference to the drawing, which drawing successively shows in:

Figures 1 and 2 schematically show some embodiments of an artificial grass field and in particular an artificial grass sports field provided with a plastic fiber according to the invention.

Figures 1 and 2 show embodiments of an artificial grass field in which a plastic fiber according to the invention can be used. In the two figures, the artificial grass field is provided with a carrier 1, on which a plurality of synthetic fibers 2 are provided at the location of the reference numeral 3, for example by tufting. The plastic fiber 2 is made according to the invention from a biodegradable material which is in particular a thermoplastic material so that it can be obtained with the aid of known production techniques, such as extrusion. The plastic fiber thus obtained, for example extruded, can be applied separately to the support 1 or as a bundle of individual monofilament fibers 2a-2c, which can be twisted into each other, for example.

Optionally, the carrier 1 can also be made of the similar biodegradable material.

In the embodiment as shown in Figure 2, the plastic fiber according to the invention can be a monofilament. Here too, several monofilaments can be bundled by twisting, after which each bundle is applied to the support 1. In Figure 2, the carrier 1 has an open structure and is composed of a grid of support wires 1a-1b, on which the plastic fibers 2 are arranged.

The open structure of the carrier 1 in Figure 2 offers the possibility of combining the artificial grass field thus realized with natural grass, which can root in the substrate through the open structure. By manufacturing the plastic fibers 2 and optionally also the carrier 1 from the biodegradable material (as described above), a temporary support or anchoring can be realized for growing a natural grass cover, for example in the case of slopes or slopes.

By producing at least a part of the plastic fiber according to the invention from a starch component, a biodegradable fiber is realized. More specifically, the plastic fiber consists of 0-50% by weight and in particular 0-30% by weight of the starch component.

In addition, the plastic fiber can consist of a second biodegradable material component, which according to the invention influences the biodegradability of the biodegradable material over time. In this way a "pre-programmed" artificial grass field can be realized which is slowly degraded under the influence of the weather conditions and the presence of the second material component and which is absorbed by the environment or the substrate. During this period sufficient natural grass rooting in the artificial grass field can grow. and will take over the full function of the artificial turf field as a covering This application is particularly suitable in places where the growth of natural grass without additional measures is hampered, such as embankments, embankments or embankment bodies.

Such an artificial grass field, whether or not combined with natural grass, can also be used to temporarily prevent erosion (until the natural grass can provide sufficient soil stability).

As reported, starch may be used as the first biodegradable material component, while the second material component which affects the biodegradability over time may be an aliphatic polyester, for example polylactic acid.

The weight% content of the second material component influences the degradability of the plastic fiber (and possibly also the carrier 1 of the artificial grass field) over time and is preferably 50-100% by weight. and in particular 70-100% by weight.

See the table below for some compositions (in% by weight) of a biodegradable plastic fiber suitable for artificial grass mats, the functionality of which has been proven experimentally: fiber 1 fiber 2 fiber 3 fiber 4 starch 30 25 25 aliphatic polyester (PES) 70 64 66 55 10 polylactic acid (PLA) - 11 9 45

In order to make the starch suitable for processing into a plastic yarn, additives must be added to the starch component which render the material thermoplastic. These may on the one hand be moisture-repellent additives and on the other hand moisture-attracting additives, for example glycerol.

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Claims (14)

Plastic fiber, in particular a plastic fiber for use in an artificial grass field, characterized in that the plastic fiber is manufactured at least partially from one or more biodegradable materials. Plastic fiber according to claim 1, characterized in that one of the biodegradable materials comprises a starch component. 3. Plastic fiber according to claim 2, characterized in that the plastic fiber consists of 0-50% by weight of the starch component and in particular 0-30% by weight. Plastic fiber according to claim 2 or 3, characterized in that moisture-repellent additives are added to the starch component. 5. Synthetic fiber according to claim 2 or 3, characterized in that moisture-attracting additives are added to the starch component, for example glycerol. Plastic fiber according to one or more of the preceding claims, characterized in that the plastic fiber further comprises a second biodegradable material component, which influences the biodegradability of the biodegradable material over time. Plastic fiber according to claim 6, characterized in that the second material component comprises an aliphatic polyester. Plastic fiber according to claim 7, characterized in that the aliphatic polyester comprises polylactic acid. 9. Synthetic fiber according to one or more of the claims 6-8, characterized in that the synthetic fiber consists of 50-100% by weight of the second material component and in particular 70-100% by weight. 10. Artificial turf at least comprising a carrier with one or more synthetic fiber arranged thereon according to one or more of claims 1-9. 11. Artificial turf according to claim 10, characterized in that the carrier is an at least partially open carrier, in order to make it possible to root natural grass. 12. Artificial turf according to claim 10 or 11, characterized in that the carrier is manufactured at least partially from the same biodegradable material 1031515 as applied to the artificial grass fiber according to the invention. A plastic fabric at least composed of a plastic fiber according to one or more of claims 1-9. 14. Plastic fabric according to claim 13, characterized in that the fabric is shaped as a tubular end product. f031515