WO2001094449A1 - Composite, method for producing a product from a composite, and method for producing a shaped body from a composite - Google Patents

Abstract

The invention relates to a composite for producing shaped bodies, which comprises at least one binding agent, at least one filler and at least one reinforcing agent. The invention is characterized in that the at least one filler and the at least one reinforcing agent are comminuted bast fiber plants and/or whole bast fiber plants. The invention also relates to a method for producing a product, especially a granulate, from a composite, which involves the following method steps: coating an extruder with at least on binding agent and bast fiber plants and/or comminuted bast fiber plants; melting at least one binding agent; extruding the material; granulating the extruded material, and; solidifying the material after cooling. The invention additionally relates to a method for producing a shaped body from a composite, which involves the following method steps: feeding a granulate made of the composite into an injection molding machine; melting the granulate; injecting the molten material, especially under pressure, and; solidifying the composite in the mold by cooling. The invention relates to another method for producing a shaped body from a composite, which is characterized by the following steps: feeding a mixture consisting of at least one binding agent and of bast fiber plants and/or of comminuted bast fiber plants, especially in their natural composition, into an extruding machine or into a strand depositing device, and; extruding or strand-depositing the mixture, whereby the mixture is at least partially melted.

Description

Composite, method for producing a product from a composite and method for producing a molded body from a composite

description

The invention relates to a composite material for the production of moldings, comprising at least one binder, at least one filler and ¹ at least one reinforcing agent. The invention further relates to a method for producing a product from a composite and a method for producing a molded body from a corresponding composite.

In order to be able to meet the increasing demands on technologically high-quality molded parts made of thermoplastic molding dimensions, expensive and time-consuming research and developments are often carried out by the raw material suppliers. The developments are aimed at increasingly complex molecular structures. in order to achieve, for example, an even higher dimensional stability under heat or an even better cold impact resistance of the materials or an even better resistance to treading. Many research and development funds are also used to develop synthetically produced glass, carbon or aramid fibers with a so-called size, i.e. an adhesion promoter between the reinforcing fiber and the polymer matrix, in order to obtain plastic compounds or plastic compounds with increased strength. All of these developments are becoming more and more detailed and complex, making engineering plastics increasingly expensive.

Currently, plastics for high-quality applications are either synthetically complex polymerized, or a lower-quality polymer matrix is mixed with glass, carbon or aramid fibers with up to 40% to reinforce them. A high amount of energy is required to produce such fibers. In addition, natural fibers that have already been broken down, such as flax or silica, are currently being incorporated into synthetic plastic matrices in order to create a replacement for glass fibers. A replacement for glass fibers has not yet been achieved in terms of strength.

Based on this prior art, it is an object of the present invention to provide a composite for the production of a product from the composite, as well as a process for the production of moldings and corresponding production processes with which it is possible to produce them inexpensively and with as little synthetic as possible Manufacture products based on crude oil, with a particular contribution to reducing CC emissions. It is also an object of the present invention to provide a technologically high-quality composite for the production of moldings. These should, as far as possible, get along without complex synthetic fiber productions and should be inexpensive and be producible with little expenditure of energy.

This object is achieved by a composite for the production of moldings, comprising at least one binder, at least one filler and at least one reinforcing agent, which is further developed in that the at least one filler and the at least one reinforcing agent are comminuted bast fiber plants and / or whole bast fiber plants ,

This further development of conventional composites according to the invention makes it possible to achieve technologically high-quality composites, since bast fiber plants have a very high tensile strength and can therefore be used particularly well in high-quality composite polymers. In addition, corresponding composites or co-pounds can be produced, which consist largely or entirely of renewable raw materials, making them CO _^ -neutral. Due to the elimination of the polymerization technology and the elimination of the complex and expensive production of synthetic fibers, such composites and molded articles made therefrom can be produced much more cheaply and using significantly lower amounts of energy.

In the context of this invention, the term "composite" includes in particular the term "composite". The filler and the reinforcing agent are particularly preferably comminuted bast fiber plants which are essentially not digested, but only cut. In particular, a preferred composite is further developed in that the bast fiber plants and / or the shredded bast fiber plants are essentially present in the natural composition of the plant components. The plant components (wood, fibers) are usually present as a unit, separated, opened up or still partially adhering to each other. When cutting the bast fiber plants, a partial or complete separation of wood (cockroach) and fibers can occur. This also has advantages.

In the present context, cockroaches are parts of the shredded, woody inner part of the plant stem.

The comminuted bast fiber plants particularly preferably comprise few cockroaches which are detached from or partially detached from bast fibers. The natural composition of the plant constituents means in particular that they are still present in their natural proportions.

The bast fiber plants and / or the comminuted bast fiber plants are preferably dried. Also preferred are bast fiber plants and / or the comminuted bast fiber plants hemp, flax, kenaf, nettle and / or oil linen. The dried and shredded or cut bast fiber plants in the natural composition of the plant constituents, which are preferably to be used as fillers and reinforcing materials, have a much higher tensile strength than other natural fibers, so that they are suitable for use in technical high-quality composite polymers are predestined. The fiber portion acts as a reinforcing agent and the shingles 1 essentially as a filler. When utilizing the natural composition of the plant components, it is not necessary to carry out a relatively complex screening and subsequent metering after the material has been crushed or at least partially broken down.

If the binder preferably comprises synthetic and / or native monomers and / or polymers, technologically high-quality composites are possible. In the context of this invention, native also means in particular biogenic. A native or biogenic monomer is, for example, lactic acid, a breakdown product from the fermentation process. Native or biogenic polymers are, for example, starch from the family of the polysaccharides that are vegetable, lignin or keratin from the family of the proteins that are animal. Biogenic or native polymers or monomers can also be other known materials. Synthetic polymers are, for example, polyethylene, polypropylene, polystyrene and other polymers. The polymers are preferably thermoplastic and serve as a plastic matrix. The synthetic polymers are preferably made from petrochemical base substances.

Additives can preferably also be provided. These are, for example, adhesion promoters between the at least one filler and the at least one reinforcing agent and the matrix or the binder. In this case, additives are particularly suitable for reducing the combustibility and decomposability of the bast fiber plants and / or the comminuted bast fiber plants and / or the com pounds. In the context of this invention, binder in particular also means matrix.

The reinforcing agents and the fillers are particularly preferably essentially completely enclosed by the binder and fixed in place.

If the at least one filler and the at least one reinforcing agent are preferably connected to one another essentially, in particular in natural form, a particularly cost-effective composite can be realized.

If the composite preferably also contains at least one blowing agent, it is possible to foam the composite so that, for example, insulation materials can be produced. The blowing agent is preferably chemically and / or physically active. A chemical blowing agent is preferably, for example, a foam-producing material or, for example, sodium bicarbonate (baking powder). A physically active blowing agent is, for example, preferably water or co ₂ .

If the at least one filler and / or the at least one reinforcing agent preferably functions as a carrier for at least one blowing agent and / or a foaming agent, a particularly simple possibility of producing corresponding composites and thus also corresponding shaped bodies is possible. The water already present or additionally applied in the plants or parts of plants is particularly suitable here, which leads to foaming of the matrix or the binder at processing temperatures beyond 100 ° C. In this way, inexpensive and harmless blowing agents can be easily manufactured. The moisture content of the plant parts can vary, for example, in the case of hemp between 3% and 40%, with about 12% residual moisture usually being present in the plant parts after a normal drying process.

Another advantage of using the plants and plant parts mentioned is the lower wear effect, in contrast to synthetic fibers, on corresponding processing machines, so that the service life of compounding and production machines is extended. In addition, the processing of natural fibers, in contrast to the processing of glass fibers, is harmless to health, so that fewer protective measures have to be taken.

The composite material can preferably be produced by means of extrusion, injection molding and / or strand laying.

A method for producing a product, in particular a granulate, from the aforementioned composite preferably comprises the following method steps:

Charging an extruder with at least one binder and bast fiber plants and / or comminuted bast fiber plants,

Melting at least one binder,

- extruding the material,

- granulating the extruded material, and - Solidification of the composite by cooling.

The granulation can also take place after the material has completely solidified by cutting the extrudate.

To produce molded articles from the extruded and granulated material, this is further processed in the following process steps:

Feeding the granules into an injection molding machine,

- Injecting the molten material into a mold, especially under high pressure, and

- Solidification of the composite in the form by cooling.

This preferred injection molding process makes it easy to produce, in particular, moldings from the aforementioned composites, in particular comminuted bast fiber plants being used.

Preferably, when adding the bast fiber plants or the comminuted bast fiber plants or thereafter, they are mixed and / or mixed with the melted binder. Furthermore, the bast fiber plants and / or the comminuted bast fiber plants are preferably added before the at least one binder is melted. The shredded bast fiber plants are preferably shredded in such a way that they have a fraction of up to 3 mm. The mixture of the at least one binder and the bast fiber plants and / or the comminuted bast fiber plants is preferably heated in such a way that at least one blowing agent is caused to drive. This preferred embodiment foams the mixture and in particular the binder. This measure makes it possible, for example, to produce an insulating material in a simple manner. If the temperature is preferably 100 ° C. or higher and the blowing agent is water, which is present or added in the bast fiber plants or the comminuted bast fiber plants and / or in the filler and / or the reinforcing material, particularly simple and inexpensive foaming is possible ,

The bast fiber plants and / or the comminuted bast fiber plants are preferably dried before being added or fed to the binder. Furthermore, the bast fiber plants and / or the comminuted bast fiber plants are preferably enriched with water and / or another blowing agent before they are added to the binder. Additionally or alternatively, a blowing agent can be added to the binder before or after adding the shredded bast fiber plants. This measure according to the invention enables an increased foaming effect.

A further method for producing a molded body from a composite material, which is described above, preferably comprises the following method steps:

- Feeding a mixture of at least one binder and bast fiber plants and / or shredded bast fiber plants, in particular in their natural composition, in an extruder or strand depositing device, and

- Extrusion or extrusion of the mixture, the mixture being at least partially melted.

With this preferred method, for example, large plates or semi-finished products can be produced. If the mixture is preferably heated to such an extent that at least one blowing agent is caused to drive, insulating material or sound and / or heat-insulating molded articles can be produced in a simple manner. The temperature is preferably 100 ° C. or higher, and the blowing agent is preferably water which is present or added in the bast fiber plants or the comminuted bast fiber plants or in the filler and / or the reinforcing material.

The bast fiber plants and / or the comminuted bast fiber plants are preferably dried before being mixed with the at least one binder. Furthermore, the bast fiber plants and / or the comminuted bast fiber plants are preferably enriched with water and / or at least one further blowing agent before being mixed with the binder. Additionally or alternatively, a blowing agent can be added to the binder before or after adding the shredded bast fiber plants. This measure according to the invention enables an increased foaming effect. This preferred embodiment of the method enables an increased foaming effect to be achieved. A molded body preferably consists at least partially of a composite material which has been described above and / or is preferably produced by one of the methods described above. In the case of shaped bodies in the form of plates, long bast fiber plant fractions have an advantage. Thermoplastics filled with bast fiber plants can be used, for example, as sheet goods or as semi-finished products for the production of window sills or the like. The Que 1 behavior of such shaped bodies due to exposure to water is very low. Moldings that can be produced are, for example, preferably wall, floor and embankment fastenings, base plates with hubs that are non-slip on the top and have an anchor on the underside, for example, posts, pasture or garden fences, planters, rearing poles, shaft and pipe covers, housings for Waste baskets, feeding troughs, leak bowls, dog houses, high seats, block playhouses, climbing towers, garden furniture, park benches and the like. Corresponding moldings are also suitable as visual and noise barriers.

Recycled materials are particularly preferably used as binders. The correspondingly preferably produced moldings are suitable for use in road construction and as components for securing in the slope and embankment area. As already indicated, they can function as insulation materials or as large-scale injection molded articles, such as surfboards, boogie boards and similar devices.

A device according to WO 00/14312 can be used in particular for comminuting the fibrous plants, although the fibrous plant material cannot be pressed and is not broken open, but instead is only cut to the desired length. For this purpose, the fiber plant material is transferred into a receiving shaft, namely into a receiving shaft of a tobacco cutter known in the tobacco processing industry and conveyed to a mouthpiece, where it is cut into sections of the desired length by means of a cutting device with rotating or linearly moving knives. A separation and separate further treatment of the fiber components and the wood and shaving components e is preferably not provided within the scope of this invention.

Bast fiber plant fractions from 0.1 to 150 mm, in particular from 2 mm to 50 mm, are preferably provided. In a preferred injection molding process, fiber fractions of 2 mm are used, with a proportion of the fibers of up to 40% preferably being used.

In a strand laying process which is preferably to be carried out, a fiber content of up to 70% can preferably be realized.

High-density polyethylene (PE-HD), polypropylene homopolymer (PP), polystyrene (PS) and starch (MaterialBi, Y-Type) are preferably used as matrix materials or binders.

Claims

claims 1. Composite for the production of moldings containing at least one binder, at least one filler and at least one reinforcing agent, characterized in that the at least one filler and the at least one reinforcing agent are comminuted bast fiber plants and / or whole bast fiber plants. 2. Composite according to claim 1, characterized in that the shredded bast fiber plants and / or the whole bast fiber plants are present in the natural composition of the plant components. 3. Composite according to claim 1 and / or 2, characterized in that the bast fiber plants and / or the comminuted bast fiber plants are dried. 4. Composite according to one or more of claims 1 to 3, characterized in that the bast fiber plants and / or the comminuted bast fiber plants are hemp, flax, good, kenaf, nettle and / or oil linen. 5. Composite according to one or more of claims 1 to 4, characterized in that the binder comprises synthetic and / or native monomers and / or polymers. 6. Composite according to one or more of claims 1 to 5, characterized in that the at least one filler and the at least one reinforcing agent are substantially, in particular in natural form, connected to one another. 7. Composite according to one or more of claims 1 to 6, characterized in that the composite also contains at least one blowing agent. 8. Composite according to claim 7, characterized in that the blowing agent is chemically and / or physically active. 9. Composite according to claim 7 and / or 8, characterized in that the at least one filler and / or the at least one reinforcing agent acts as a carrier for at least one blowing agent. 10. Composite according to one or more of claims 1 to 9, characterized in that the composite can be produced by means of extrusion, injection molding and / or strand deposition. 11. A process for producing a product, in particular a granulate, from a composite material according to one or more of claims 1 to 10, characterized by at least the following process steps: Coating an extruder with at least one binder and bast fiber plants and / or comminuted bast fiber plants, Melting at least one binder, - extruding the material, - granulating the extruded material, and - Solidification of the material by cooling. 12. The method according to claim 11, characterized in that the granulation can take place both before and after the solidification of the composite. 13. A method for producing a molded body from a composite material according to one or more of claims 1 to 10, characterized by at least the following process steps: Feeding a granulate from the composite into an injection molding machine, - melting of granules, - Spraying the molten material, especially under high pressure, and - Solidification of the composite in the mold by cooling. 14. The method according to claim 13, characterized in that the granulate is produced according to one or both of claims 11 and 12. 15. The method according to one or both of claims 11 or 12, characterized in that when the bast fiber plants and / or the comminuted bast fiber plants are added or thereafter, they are mixed and / or mixed with the melted binder. 16. The method according to one or more of claims 11, 12 and 15, characterized in that the bast fiber plants and / or the comminuted bast fiber plants are added before the melting of the at least one binder. 17. The method according to one or more of claims 11, 12, 15 and 16, characterized in that the comminuted bast fiber plants are comminuted so that they have a fraction of 0.1 to 150 mm, in particular from 2 to 50 mm. 18. The method according to one or more of claims 11, 12, 15 to 17, characterized in that the mixture of the at least one binder and the bast fiber plants and / or the comminuted bast fiber plants is heated such that at least one blowing agent is caused to drive. 19. The method according to claim 18, characterized in that the temperature is 100 ° C or higher and that the blowing agent is water which is present or added in the bast fiber plants and / or the comminuted bast fiber plants and / or in a further filler and / or a further reinforcing agent. 20. The method according to one or more of claims 11, 12, 15 to 19, characterized in that the bast fiber plants and / or the comminuted bast fiber plants are dried before being added to the binder. 21. The method according to one or more of claims 11, 12, 15 to 20, characterized in that the bast fiber plants and / or the comminuted bast fiber plants are enriched with water and / or at least one further blowing agent before addition to the binder. 22. A method for producing a molded body from a composite material according to one or more of claims 1 to 10, characterized by the following method step: Feeding a mixture of at least one binder and bast fiber plants and / or comminuted bast fiber plants, in particular in their natural composition, into an extruder or a strand depositing device, and - Extrusion or extrusion of the mixture, the mixture being at least partially melted. 23. The method according to claim 22, characterized in that the mixture is heated so strongly that at least one blowing agent is caused to drive. 24. The method according to claim 23, characterized in that the temperature is 100 ° C or higher and that the blowing agent is water contained in the bast fiber plants and / or the comminuted bast fiber plants and / or in a further filler and / or a further reinforcing agent is present or is added. 25. The method according to one or more of claims 22 to 24, characterized in that the bast fiber plants and / or the comminuted bast fiber plants are dried before mixing with the at least one binder. 26. The method according to one or more of claims 22 to 25, characterized in that the bast fiber plants and / or the comminuted bast fiber plants are enriched with water and / or at least one other blowing agent before mixing with the binder. 27. Shaped body, at least partially consisting of a composite, according to one or more of claims 1 to 10 and / or produced by a method according to one or more of claims 13 and / or 14 and / or according to one or more of claims 15 to 27 ,