NL9302125A - Plastic product and extrusion apparatus - Google Patents

Abstract

The invention relates to a plastic product which at least in part consists of a plastic in which high tensile strength fibres are embedded. The invention provides a plastic product of the abovementioned type, which is characterized in that the plastic is a thermoplastic from the group including PP, PE, PPC, LDPE, HDPE and other polyolefins; that the product has a certain porosity, at least in a layer adjoining a selected surface; and in that the fibres, on average, extend at least roughly in a selected principal direction.

Description

Plastic product and extruder

The invention relates to a plastic product, which at least partly consists of a plastic in which tensile fibers are embedded.

Such a plastic product is known. The use of tensile fibers in such a product serves to improve the impact strength and other mechanical properties.

The object of the invention is to provide a plastic product which has a number of important properties, which at least substantially correspond to the respective properties of wood. The relevant properties will be discussed below.

In connection with the above object, the invention provides a plastic product of the stated type, characterized in that the plastic is a thermoplastic plastic from the group, which includes PP, PE, PPC, LDPE, HDPE, and other polyolefins; at least in a layer adjacent to a selected surface, the product has a certain porosity; and the fibers extend on average at least approximately in a selected main direction.

Important for the technical application of wood and of the plastic product according to the invention is that the product is easy to paint over, has a low thermal expansion coefficient, at least in a chosen main direction, has a high strength, has a high impact strength and a high tear strength. possession. The plastic product according to the invention can meet the relevant technical requirements by suitable selection of the thermoplastic plastic (s), in combination with natural fibers and / or technical fibers, binders, fillers and other additives.

The plastic according to the invention can be described as "technical wood". It is suitable for many applications, such as planks, rabbet parts, skirting boards, frames, sheet material, laminates, roof edge profiles, facade cladding and the like. Areas of application include construction and industry.

The technical wood according to the invention can be used both indoors and outdoors in a temperature range from -30 ° C to + 80 ° C.

It is easy to realize a low coefficient of thermal expansion, which is of the same order of magnitude as that of aluminum, namely having a value of 0.2 x 105. Furthermore, the material can be sawable, audible, and otherwise machinable by conventional tools. Furthermore, the technical wood according to the invention can meet the following specifications: planable, nailable, UV-resistant, color fastness for a long period, for example of at least five years, paintable, moisture-resistant, frost-resistant, thermally approximately as strong insulating as wood, electric sufficiently insulating, relatively environmentally friendly, good price / performance ratio, density in the same order of magnitude as that of wood, flexibility roughly similar to that of wood.

With regard to the environmental friendliness of the plastic products according to the invention, it is pointed out that the use of wood can considerably limit the use of wood, while retaining the desired technical properties of wood.

The technical and economic advantages of the use of thermoplastic plastics are used within the scope of the invention. For example, the material is frequently recyclable.

The relatively strong thermal expansion due to the high thermal expansion coefficient of all thermoplastic plastics is hindered by the fiber reinforcement.

The usually low E-modulus, which determines the stiffness of the thermoplastic material, is considerably increased in particular by the fibers used and any additives used, so that the stiffness of the plastic can be in the same order as that of wood.

By suitable choice of the materials and fibers used, a toughness can be obtained such that the product is nailable and screwable, without cracking occurring.

The hardness of the plastic product according to the invention can be such that standard wood nails or wood screws can be used.

The said porosity can have a value in the order of 5-10% in the relevant range. In particular, it is this porosity that improves the paintability of the surface concerned.

The plastic product according to the invention is preferably designed in such a way that the fibers predominantly have a length in the range of 2 to 4 mm.

In a specific embodiment, the product has the feature that the fibers are selected from the group, which includes: bamboo fibers, wool, coconut fibers, sisal, glass fibers, rock wool.

A particular embodiment has the feature that fillers are also embedded in the plastic. Such fillers can serve to obtain certain physical properties, such as color, heat conduction, or some of the mechanical properties already mentioned. These can be, for example, chalk, talc, wood flour, or rock wool.

A specific variant is that in which the fillers are at least partly also the tensile fibers.

The latter variant may have the special feature that the fillers comprise wallastomit fibers or other natural mineral fibers.

In a specific embodiment, the product according to the invention has the feature that the porosity is obtained by foaming. Foaming agents of different types can be used for this, for example wood flour with a few tens of percent moisture or other foaming agents, at least locally, for the plastic.

Furthermore, use can be made of flame-retardant additives, for example halogen-based compounds, which do not release dioxin on combustion, such as magnifin.

Various materials are suitable as binders, for example Polybond.

Paint and lacquer adhesion can also be improved by using Polybond or other maleic anhydride-based materials.

If necessary, a coating based on an acrylic can be used.

In principle, the product can be manufactured in any suitable way, for example by pressing, injection molding or extrusion.

In a particular embodiment, the product has the special feature that the product mainly consists of a laminate, comprising: a plastic layer in which tensile fibers are embedded; a plastic layer adjacent to one side, which has a certain porosity; and optionally a plastic layer adjacent to it on the other side, which optionally has a certain porosity.

A variant has the special feature that the product is obtained by extrusion and that the main direction of the fibers is the longitudinal extrusion. In this way elongated, prismatic objects can be manufactured, for example plastic profiles for frames and the like, and flat plates can also be produced in this way.

The invention further relates to an extruder for manufacturing the product described in the previous paragraph. This device comprises a plasticizing unit, a press, and an extrusion die and is characterized in that at least in the extrusion die, and preferably also in the upstream, plastic-flowed part of the extruder, parallel through channels are provided, the cross section of which is too small for the fibers contained in the passing plasticized plastic to pass, at least in the longitudinal direction at least.

The invention will now be elucidated with reference to the annexed drawing. Herein: figure 1 shows a highly schematic view of an extruder with which an extrudate according to the invention can be manufactured; and figure 2 shows a highly schematic side view of a device with which another product according to the invention can be manufactured.

Figure 1 shows an extruder 1. It comprises a plasticizing unit 2, a pump 3, a coupling unit 4 and an extrusion head or die 5. The coupling unit 4 and the die 5 comprise through channels, through which the plasticized, heated plastic material, in which tensile strength fibers are included, can pass through. The fibers have a length, which is predominantly in the range 2-4 mm. In order to give the fibers the desired orientation, namely the extrusion longitudinal direction indicated by arrow 6, the through channels in the coupling unit 4 and the mold 5 comprise sub-channels which have an effective diameter, which is considerably smaller than the said length of the fibers, for example on the order of 0.5-1 mm. It will be clear that for other fiber lengths the respective passages can be adapted correspondingly. The extrudate 7 mainly consists of the selected thermoplastic plastic, in which the fibers extend on average at least approximately in the longitudinal direction 6. Appropriate provisions ensure that the plastic is subjected to a foaming operation. This foaming can take place under temperature increase of gassing substances, so that extrudate 7 is only able to obtain the desired porosity due to lack of external pressure when the mold 5 is exited.

Figure 2 shows an alternative. Two extruders 8, 9 deliver extrudates, 10, 11, respectively, in the nip direction between two rollers 12, 13.

At the location of the pinch 14, a fiber-impregnated fiber mat 15 is also introduced between the plate-shaped extrudates 10, 11 by transport rollers 16, 17. Thus, a laminate 18 is formed by heating and the force exerted by the rollers 12, 13. The fibers in the fiber mat 15 extend substantially in the longitudinal direction 6. At least one of the extrudates 10, 11 exhibits a desired porosity to ensure wood-like properties.

It is generally noted that binders can also be added to the base plastic in order to improve the adhesion between fibers, plastic and other additives. This may also improve the adhesion to the product of acrylic water-based paints and lacquers according to the invention.

The use of dyes in the plastic can offer the advantage that a uniformly colored product is obtained. Nevertheless, due to the porosity according to the invention, it is ensured that the or each outer surface of the product can always be painted or painted.

With reference to Figure 2, attention is drawn to the fact that an additional coating can be applied to the visible side of the product using, for example, coextrusion or another suitable technique, on the product according to the invention. Such a coating can exhibit an extra stable color, an increased UV resistance or resistance to dirt and weathering.

According to the invention, a plastic product with properties corresponding to wood can be obtained continuously and / or in one operation.

Claims (11)

Plastic product, which at least partly consists of a plastic, in which tensile fibers are embedded, characterized in that the plastic is a thermoplastic plastic from the group, which includes PP, PE, PPC, LDPE, HDPE and other polyolefins ; at least in a layer adjacent to a selected surface, the product has a certain porosity; and the fibers extend on average at least approximately in a selected main direction. Product according to claim 1, characterized in that the fibers predominantly have a length in the range of 2 to 4 mm. Product according to claim 1, characterized in that the fibers are selected from the group, which includes: bamboo fibers, wool, coconut fibers, sisal, glass fibers, rock wool. Product according to claim 1, characterized in that fillers are also embedded in the plastic. Product according to claim 4, characterized in that the fillers are at least partly also the tensile fibers. Product according to claim 5, characterized in that the fillers comprise wallastomit fibers or other natural mineral fibers. Product according to claim 1, characterized in that the porosity is obtained by foaming. Product according to claims 1-7, characterized in that the product is manufactured by pressing, injection molding or extruding. Product according to claims 1-7, characterized in that the product mainly consists of a laminate, comprising: a plastic layer in which tensile fibers are embedded; a plastic layer adjacent to one side, which has a certain porosity; and optionally a plastic layer adjacent to it on the other side, which optionally has a certain porosity. Product according to claim 8, characterized in that the product is obtained by extrusion and that the main direction of the fibers is the longitudinal extrusion direction. An extruder for manufacturing a product according to claim 10, comprising a plasticizing unit, a press, and an extrusion die, characterized in that at least in the extrusion die, and preferably also in the upstream plasticized plastic flow-through part. parallel through channels of the extruder are provided, the cross-section of which is too small for the fibers contained in the passing plasticized plastic to pass through, other than at least predominantly in the longitudinal direction.