DE20301742U1 - Fiber reinforced thermoplastic composite material includes natural fibers and metal strip reinforcement - Google Patents

Abstract

The resin matrix is mixed with 40-98% of natural fibers and additional metallic reinforcement(4) is incorporated at a later stage. Preferred Features: Natural fibers are of wood and/or wood flour. The metallic reinforcement comprises expanded metal, perforated strip or two and/or three dimensionally formed strip which incorporates specific areas for screw, rivet or weld connections.

Description

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metallic inserts Fagerdala Deutschland GmbH, Ohrdruf

Utility model registration.

Material composite made of natural fiber-filled thermoplastics with metallic inserts

Inventor:

Jürgen Bruning, Werther, Germany

Applicant:

Fagerdala Deutschland GmbH Herrenhöfer Landstr.

99885 Ohrdruf

Attachment:

- Short summary

- Description

- Patent claims

23 November 2002

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metallic inserts Fagerdala Deutschland GmbH, Ohrdruf

Description

The invention relates to a material composite consisting of a natural fiber-filled thermoplastic in combination with metallic inserts and a method for producing components from this material composite.

It is known to produce plastic moldings with a high fiber content. Using extrusion-pressing or injection molding processes, components are manufactured from polymers as a matrix in combination with fibers as fillers or for reinforcement. Glass or carbon fibers are mainly used for high-strength components. In the field of highly filled natural fiber-reinforced plastics, components for automotive interiors are known, although these are often made from duromers and natural fibers using a pressing process. The use of natural fibers such as wood fibers in combination with thermoplastics in the extrusion process in the manufacture of panels and semi-finished products is also state of the art.

Processes such as back-injection or back-pressing of the cover layers are known for combining components with films, textiles or reinforcing fibers. Glass fibers or glass fiber mats are often introduced during the pressing process for high-strength components. The adhesion between the component and the cover layer is based on the wettability of the cover layer material. Other processes are characterized by cover layers that consist of the same material as the actual component, e.g. back-injection or back-pressing of polyolefin films with polyolefins. However, these types of coatings are primarily used as decoration and not to reinforce the component.

Reinforcements with fibers or fiber mats can only absorb pure tensile loads in the direction of the fibers. The dimensional stability of the components depends on the fiber orientation. Plastics with a high filler content are very strong, but are relatively brittle. Additional work steps are necessary for assembling the components or connecting other components with screw or rivet connections, and a weakening of the component at the connection points may be expected. Thermoplastics filled with natural fibers in combination with metallic inserts in the form of reinforcements such as expanded metal or perforated sheet metal are not known.

The invention is based on the object of producing components which consist of thermoplastics in combination with a natural fibre content of 60% to 98%, which are characterised by good strength properties and allow easy connection of further components.

This is solved by providing natural fiber-filled thermoplastics, preferably using wood fibers as filler and polypropylene as matrix, with metallic inserts, which form a positive connection with the thermoplastic.

The inserts fulfill two tasks. Firstly, the inserts fulfill the well-known reinforcement functions such as increasing the tensile, bending and torsional strength. Secondly, the inserts provide options for connecting other elements using screw, rivet or weld connections. Furthermore, the metal inserts ensure that the component is held together via the metal inserts even if the plastic matrix breaks, and splintering is avoided.

The processing of the materials and shaping takes place via extrusion, injection molding or pressing processes. In the extrusion process, the shaping takes place using an extrusion tool for semi-finished product production and the supply of the metallic

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Insert in the nozzle area. Here, a thermoplastic granulate or powder is mixed with 60-98 percent by weight of lignocellulose fibers and, if necessary, adhesion promoters. Semi-finished products are manufactured using an extrusion tool, the cross-section and surface structure of which are determined by the geometry of the extrusion tool.

When manufacturing components using the injection molding process, the starting materials are first manually premixed, then pellets are produced or compounded using the extrusion process. Another option is to directly add the starting materials during the injection molding process. The metal inserts are placed in the injection molding tool and then molded around or behind the mold.

The processing in the pressing process involves mixing as in the extrusion process or adding the starting materials to a single or multiple tool and pressing the metal inserts around or behind them.

The main advantage of this material composite and the process for its production is the ability to manufacture components with a high proportion of natural fibers, preferably wood fibers, which are significantly cheaper than pure wood components or pure plastic components. Reinforcing with metal inserts provides an additional increase in strength, which above all increases the bending strength and reduces the tendency to splinter in the event of breakage. The shape of the components can be selected almost arbitrarily using the tool design, which, in comparison to solid wood molded parts, enables components to be produced efficiently without any post-processing. There are also options for connecting other elements to the metal inserts using screw, rivet or weld connections, which can be important in furniture construction, for example. The highly filled plastics are characterized by properties similar to those of wood and are very strong, and are primarily seen as an inexpensive alternative to solid wood parts.

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Example

A mixture (1) of polypropylene granulate and 60-98 percent by weight of wood fibers as a filler is fed into an extrusion device (2). The reinforcement (4) is fed into the nozzle outlet (3) of the extruder (2), for example in the form of a perforated metal strip. The nozzle geometry ultimately determines the cross-sectional geometry of the extruded profile (5) consisting of wood-filled polypropylene and the metal reinforcement.

Claims (9)

1. Material composite characterized in that it consists of a thermoplastic matrix in combination with natural fibers with a proportion between 40 and 98 percent by mass and a further metallic reinforcing material. 2. Material composite according to claim 1, characterized in that wood fibers and/or wood flour are used as natural fibers. 3. Material composite according to one or more of the preceding claims, characterized in that polypropylene is used as the matrix material. 4. Material composite according to one or more of the preceding claims, characterized in that the metallic reinforcing materials are used in the form of expanded metal, perforated metal sheets or two- and/or three-dimensional shaped metal sheets deviating therefrom. 5. Material composite according to one or more of the preceding claims, characterized in that the metallic reinforcing materials have formations for screw, rivet or welded connections. 6. Material composite according to one or more of the preceding claims, characterized in that the material composite contains color pigments and/or adhesion promoters. 7. Material composite according to one or more of the preceding claims, characterized in that it is a profile produced by the extrusion process. 8. Material composite according to one or more of the preceding claims, characterized in that it is a component which is manufactured by the injection molding process. 9. Material composite according to one or more of the preceding claims, characterized in that it is a component which is manufactured by pressing.