DE10057720A1 - Flat multilayer material has central fibre course, which contains felting fibres - Google Patents

Abstract

The central course is covered on one or both sides by paper or board or other materials with felting fibres. The feeling fibres can form the outer layer of the fibre course or they account for a proportion of the fibres of the outer layers of the course. The fibres can be natural, man-made or industrial ones. The paper or board webs can feature decorative surfaces. The material is produced by placing the wet layers on top of each other, followed by slight pre-drying. Excess water is removed and the product is dried through heating.

Description

The invention relates to a multilayer sheet material according to the preamble of claim 1, a method its manufacture and use of the multilayer Surface material.

Multilayer sheet materials are known. there the most diverse materials are brought together and by adding a binder, e.g. B. synthetic resins connected. Such material or construction panels  are used for example as insulation boards in construction, as Ver Use clothing material in vehicle construction or hydraulic engineering det.

Due to the binder are continuous manufacturing processes drive difficult to realize because the binders are a need the necessary setting time. In addition, with the Use of the binder costs associated.

The invention has for its object a multilayer to create a flat material that does not bind to the Assembly of the individual materials required.

The object is achieved by the characterizing Features of claim 1 solved. According to the invention the multilayer surface materials made of feltable fiber webs and laminated Pa pier, cardboard or other material webs made of felting fibers as a top layer.

The fiber layers can be natural, chemical or there are also industrial fibers or their mixtures. So Natural fibers can be fibers from cotton, flax, hemp, Jute, sisal, coconut, animal wool, animal hair can be used.

All chemical fibers are made of synthetic fibers Polymers and cellulose fibers are useful. Made of fibers For example, synthetic polymers are said to be fibers made of polyacrylonitriles, polyurethanes, polyamides, poly vinyl chloride, polytetrafluoroethylene and polyolefins to be named.  

The industrial fibers used include a. glass fiber reinforced fibers, ceramic fibers, slag fibers and metal fibers.

The only important thing with the fibers used is that the ver with the paper, cardboard or other material webs binding surfaces, a sufficient proportion of verfil viable fibers such. B. bast fibers is present.

Fiber layers are preferably used, which previously solidified hydrodynamically according to the water jet process were. You can of course also apply to others. Way, e.g. B. solidified fibers by needling be set. The choice of materials for the fibers depends on the later purpose of the invention according to multilayer surface materials.

The fibers can be staple, short, chopped NEN or used as continuous fibers.

In principle there are no limits to the thickness of the fiber web set. Through the hydroentangling process can be repeated through the solidification plant relatively large layer thicknesses when used coming fiber webs can be achieved.

Also when choosing for the paper cover layers, Cardboard or other materials have no limits. So smooth sheets can be used as well as wavy lanes. The webs can also be left untreated or with Treated means, e.g. B. used for flame retardant become. The paper or cardboard sheets can also be a decor tive top layer, e.g. B. have a wood decor.  

As stated above, the fibrous web can be made from a Layer made from feltable fibers or from mixtures with sufficient proportions of feltable fibers best hen. In another variant, the fiber web consists of several layers, one above the other - or interlocking are arranged. In this variant, only the upper ones Contain layers of feltable fibers.

The individual layers of the fibers are consolidated for example by hydroentangling.

In the manufacture of the multilayer according to the invention The surface material will be the. Fiber webs and the webs of the Top layer laid in such a state, that the matting of the feltable fibers of the Fiber webs with the feltable fibers of the deckbah NEN is given. That is e.g. B. the case when the railways the materials to be bonded are sufficiently moist out or a material web is very wet and some of its moisture to the other material web, which is supplied in the dry state, can deliver and so that this material web is also sufficiently moist.

As stated above, the fibers are preferred solidified by the water jet process. The procedure can be controlled so that the resulting fiber web very wet leaves the fiber consolidation plant. On this very wet fibrous web can be on one or both Sides of a dry sheet of paper, cardboard or other Materials are put on. The moisture of the fiber is enough to cover the dry web for the  Sufficiently moisten the top layer. By the humidification the swellable fibers of the laid on swell Paths open and connect with the feltable Fibers of the fibrous web. There is a firm bond between between the individual tracks.

The merged paths to the invention more layered fabrics are preferably dried on net, passed through a pressing device, thereby a large part of the water removed and then completely dried. Drying can also be dispensed with and as a process step, a light pressing of the Lanes are used. A good connection of the merged webs by matting. Get that A multi-layer fabric is rolled up and can so be used for further use.

The first-mentioned variant will always be used if preferably paper webs and especially these only be applied to the fiber web on one side. to large amount of fibers is only a small amount of paper supply.

Is the multilayer sheet material according to the invention from fibrous webs with paper and paper applied on both sides cardboard webs in particular, it may be advantageous to use a Place dry fibrous web on a still wet cardboard web and lay a second wet cardboard sheet over it. Here too is after drying by pressing, z. B. by a Pair of rollers matting the webs and squeezing the  Most of the water is a pre-dried sheet Receive material that then dries completely and can be processed further in the manner described.

The multilayer surface structure obtained according to the invention de can subsequently be deformed into the desired shape become. This can be a simple cut into sheets but also deforming in a deep-drawing mold.

The further processing of the multilayer according to the invention The fabric can also be manufactured at the same time development of the multilayer sheet according to the invention respectively.

The multilayer fabrics according to the invention with cover layers are available on one or both sides used for the production of laminates. The Laminates contain at least one fiber layer feltable fibers as the top layer of the fiber web ne and one or possibly two the top and bottom of the multi-layer fabric forming cover layers made of paper, cardboard or other materials with felting capable fibers. After bringing the two mates together rial tracks, at least one of which is heavily soaked the structure is dried slightly, then in a Squeeze device freed from most of the water and then completely dried. The connection of the individual layers are felted together the feltable fibers of the fiber web with the felted sustainable fibers of the paper or cardboard webs.  

With the fiber material used according to the invention lien it is due to the range of variations in the choice of Fiber material possible, the respective requirements opti times adapted multi-layer surface materials cost-effectively always available.

The special advantage is that the multilayer fabrics according to the invention by the Choice of material and shape of the cover layers continues influence on the respective requirements can be.

Another advantage of the multi-layered invention Surface material is that it can be retrofitted spatial, can be deformed and thus also for the production of curved flat shaped bodies are used can.

The multilayer sheet material according to the invention can for example, after predrying and squeezing the over shot water directly on models and in this state with residual drying to an arch flat shaped bodies are processed.

Claims (15)

1. Multi-layer surface material, characterized by a central fiber web that contains feltable fibers and one or both sides applied cover sheets made of paper, cardboard or other materials with feltable fibers. 2. Multi-layer sheet material according to claim 1, characterized characterized that the feltable fibers only form the outer layers of the fibrous web. 3. multilayer sheet material according to claim 1 and 2, characterized in that the feltable Part of the fibers in the outer layers of the fibers Make out fiber webs. 4. Multilayer sheet material after at least one of claims 1-3, characterized in that the fibers used natural, chemical or ind are fibers. 5. Multilayer sheet material after at least one of claims 1-4, characterized in that smooth Paper, cardboard or other material webs with filing tenable fibers form the cover layers. 6. Multilayer sheet material after at least one of claims 1-4, characterized in that wavy paper, cardboard or other material webs with matted tenable fibers form the cover layers.   7. Multilayer sheet material after at least one of claims 1-6, characterized in that the Paper, cardboard or other material webs with filing viable fibers have a decorative surface sen. 8. Process for the production of the multilayer surface area terials according to claims 1-7, characterized in that the fiber and paper, cardboard or other material webs with feltable fibers brought together in this way be that matting the mattable Fibers of the fibrous web with the feltable fibers the other lanes. 9. The method according to claim 8, characterized in that both material webs are placed on top of each other wet. 10. The method according to claim 8, characterized in that one web of material in a very wet condition and the other Material web laid on top of one another in a dry state become. 11. The method according to any one of claims 8-10, characterized characterized that after laying the Multilayer sheet material obtained slightly pre-dried, then pressurize the water removed and finally completely dry is not.   12. The method according to at least one of claims 8-11, characterized in that the removal of water by squeezing in a pair of rollers. 13. The method according to any one of claims 8-10, characterized characterized that after laying the Multilayer sheet material obtained lightly pressed, then the water under pressure dung is removed and then dried. 14. Use of the multi-layer surface material after Claim 1 as an insulation board. 15. Use of the multi-layer fabric according to An saying 1 as a construction element in automotive engineering.