WO2019037818A1

WO2019037818A1 - Composite covering, method for its production and use

Info

Publication number: WO2019037818A1
Application number: PCT/DE2018/100719
Authority: WO
Inventors: Mandy Hentschel
Original assignee: Sandstein Concept GmbH & Co. KG
Priority date: 2017-08-21
Filing date: 2018-08-17
Publication date: 2019-02-28
Also published as: DE102017119048A1

Abstract

The invention relates to a composite covering on the basis of an aggregate, which with layer thicknesses of up to 5 millimetres is suitable for the usual processing of such coverings in the construction industry, for example as a lining for walls or ceilings or for covering floors, and in such applications is deformable without cracking. The composite covering comprises an aggregate layer (1) which has a particle size of up to 0.5 millimetres and is applied to a backing material (2), wherein the particles are bonded by means of a homogeneously distributed binder on an elastomer base, accounting for up to ten per cent of the mass of the aggregate layer (1), and wherein the aggregate layer (1) has a porosity in the range of 10 to 30 percent by volume. It is particularly suitable for use in the construction industry, specifically as a floor covering or for lining ceilings, walls or facades, but also for doors, windows and furniture. Other application areas are interior trim in vehicles and ballistic protective clothing.

Description

Composite covering, process for its production and use

The invention relates to a Kompositbelag based on an aggregate, a process for its preparation and the use of Kompositbelages for Belge- ge and panels, especially in construction.

The interior design or cladding of facades in stone look with tiles and tiles is known. Alternatively, have for years plastic-based coverings with a variety of well-known decors, u. a. also in stone look, established. These plastic-based stone imitation linings are usually sold in thicknesses in the range of about 1 to 5 millimeters, are flexible and easy to process.

In contrast to natural stone or artificial stone, such as concrete, plastic coverings have a different feel and a lower resistance to environmental influences. With stone-clad ceilings and walls, the indoor climate is also often more pleasant than when using plastic panels.

Stone coverings which combine the advantages of plastic coverings, in particular their simple processing, and the natural stone look and feel, are known in the form of rigid plates, thin stone veneers or very thin laminates with aggregates applied thereon.

Stone veneers on support materials are u. a. described in WO 2014/108500 A1 or DE 20 2006 000 130 U1. Also known, for example

DE 195 22 875 A1 or DE 10 2015 122 418 A1, are flexible laminates in which thin natural stones or artificial stones are applied to flexible carrier materials. GB 1 162 991 A describes a stone covering which is produced from an artificial slip (containing an aggregate) and applied to a rigid plate; The same is known from EP 0 131 064 A1. EP 2 360 025 A2 discloses an aggregate-based coating whose surface layer consists of finely granulated natural stone mixed with hot-melt adhesive and thermally applied to a surface Carrier web is applied. A method based on a putty for producing a plate with stone structure is described in DE 103 40 238 A1.

The known stone coverings have the disadvantages that they either to ensure flexibility and deformability, are made very thin or rigid in the thicker versions and thus susceptible to cracking during processing, for example, in adaptation work on curved surfaces.

The object of the invention is to provide a flexible Kompositbelag stone optics based on an aggregate, with layer thicknesses up to 5 millimeters for the usual processing of such coverings in the construction industry, eg. B. as wall or ceiling cover or floor covering, suitable and this is deformable without cracking. The object is achieved by the Kompositbelag on the basis of an aggregate with the characterizing features of claim 1 and the method according to claim 5; Advantageous developments of the invention are described in the subclaims 2 to 4 and 6. Advantageous uses emerge from claim 7.

According to the invention, the composite coating comprises a known on a known, flexible, designed as a nonwoven, woven fabric or nonwoven fabric combination carrier material applied aggregate layer, wherein the rock grains with a grain size up to 0.5 millimeters by means of a homogeneously distributed binder elastomer-based in the aggregate layer are connected. The proportion of the binder in the aggregate layer is one to ten percent of the mass of the aggregate layer. Depending on the application, the particularly preferred proportion of the binder in the aggregate layer is one to five percent of the mass of the aggregate layer or three to eight percent of the mass of the aggregate layer.

The aggregate may consist of any natural or artificial aggregate; the aggregates may be round or broken. Suitable aggregates are, for example, sands, natural stone nulate (marble, basalt, granite, etc.) or artificial stone grains, cement or concrete. The selection of the type of rock depends on the desired appearance: Sandstone imitations can be produced by using sand as aggregate. Composite coverings with concrete look can be made with aggregates of sand and cement.

Due to the homogeneous distribution of the elastomer binder individual rock grains are evenly bonded rubber-elastic to their adjacent rock grains.

Suitable binders are artificial elastomers, for example butadiene or silicone elastomers, as well as natural rubber.

According to the invention, the composite coating has a porosity in the range of

10 to 30 percent up. The porosity increases the flexibility of the composite covering and improves its acoustic properties, for example in terms of sound insulation.

The amount of binder and the porosity in the aggregate layer ensure that unbound regions remain between adjacent aggregates. As a result, the overall composite in the aggregate layer is significantly more flexible than when all intermediate spaces with binder are completely filled, since the elastic extensibility of the individual binder bridges is higher than the extensibility of a compact, complete binder filling.

Due to the high proportion of aggregate aggregate, the special advantage of the composite coating is that the appearance, feel and many of the macroscopic material properties largely correspond to those of compact stone material.

At the same time, the composite covering has the desired flexibility and, owing to its good deformability, can be applied in a crack-free manner to curved surfaces in thicknesses of up to 5 millimeters. The nonwovens, woven or nonwoven fabric combinations used as flexible carrier material ensure a good bonding of the carrier material to the aggregate layer and at the same time the deformability of the composite covering. In addition, nonwovens, woven fabrics or fleece-fabric combinations provide the basis for a good connection of the composite covering when bonding to the support surfaces.

Another advantage is that the components contained in the composite coating are predominantly based on natural or natural products. When natural sands are used in conjunction with natural rubber as binder and a cotton fleece as support material, this is almost completely achievable.

In addition, the fire protection properties of Kompositbelages are particularly favorable.

In one embodiment of the composite lining, the aggregate has two sand fractions, wherein the grain size of the first sand fraction in the range of

0, 1 millimeter to 0.5 millimeters, preferably at about 0.2 millimeters, and the grain size of the second sand fraction is in the range up to 0, 1 millimeters. The proportion of the first sand fraction is 55 to 80 percent of the mass of the aggregate layer. The second sand fraction, alone or in combination with other aggregates, forms the remainder of the aggregate layer.

The aggregate layer of these sand fractions is particularly homogeneous in optical appearance and shows excellent flexibility, since the smaller rock grains arranged between the larger rock grains and associated with them via the binder act like an articulation.

It can be provided that the aggregate consists of sand and cement stone fractions, wherein the proportion of the cement stone fraction in the aggregate layer is four to ten percent of the mass of the aggregate layer. The rest is sand. Cement stone and sand can be connected to concrete agglomerates. Composite coverings based on this aggregate have the appearance of concrete components. The aggregate layer may be sealed with a plastic; For this purpose, especially plastics based on polyurethane are suitable. The advantage of sealing is when using the Kompositbelages in the outdoor area, since the resistance to weathering, especially against the ingress of water, is increased, or in the use as a floor covering, since the sealing counteracts contamination and the abrasion resistance of Kompositbelages is increased.

According to the invention, the production of the aggregate-based composite covering with the aggregate layer applied to a flexible carrier material formed as a nonwoven, woven or nonwoven fabric combination takes place in accordance with the method steps described below.

First, the aggregate, whose aggregates have a grain size of up to 0.5 millimeters, is mixed with an aqueous dispersion of a rubber-based binder, for example by means of an agitator, until a lump-free, homogeneous aggregate paste is formed. Suitable binder dispersions are aqueous emulsions or suspensions of synthetic rubbers, such as butadiene or silicone rubber, as well as natural rubbers. In order to set a suitable processing consistency or viscosity, water is used as a setting and dispersion medium.

According to the invention, the aggregate paste contains cement, the proportion of which amounts to one to seven percent of the mass of the aggregate paste. The rockgrain paste is then evenly spread onto a production underlay, for example a wood or plastic panel, and the flexible support material of a water-permeable nonwoven, water-permeable fabric or water-permeable nonwoven fabric combination is applied to the painted aggregate paste. This is done, for example, by applying and pressing the fleece, fabric or non-woven fabric combination.

The aggregate paste covered with the carrier material is rolled or pressed into a green coating of homogeneous thickness and subsequently dried. Drying can be carried out by venting in static or moving ambient air, by means of hot air blowers or by means of radiation.

During the drying step, the composite coating forms by, on the one hand, the liquid escapes from the layer through the fleece, the fabric or the fleece-fabric combination and, on the other hand, the rubbers are vulcanized to form elastomers, whereby the binder bridges are formed between the aggregates.

Due to the addition of cement, cement paste or - in combination with sand - concrete is formed in addition to the elastomer binder bridges. As a result of the small amount of cement surcharge according to the invention, only individual agglomerates of mineral aggregated aggregates are formed. Macroscopically, the flexibility of the composite coating remains intact.

Finally, the composite covering is deducted from the production document. He can now be made up as needed.

Preferably, the composite coating is abraded after removal from the production substrate on the opposite surface of the substrate. Since the layer of rock granules molds the surface of the production base, this specific surface appearance can be used for further use. To achieve a particularly uniform, typical stone appearance, it is advantageous to abrade the Kompositbelag, whereby, for example, the porosity is visible in the Gestarkkörnungsschicht.

The Kompositbelag according to the invention is particularly suitable for use in the construction industry, namely as a floor covering or for covering ceilings, walls or facades. It is also possible to veneer doors, windows and furniture with the Kompositbelag. The use of composite flooring is not limited to the construction industry; For example, it is also suitable for the interior decoration of vehicles or for ballistic protective coverings. The invention is explained in more detail below with reference to an embodiment and with reference to the schematic drawings. For this purpose, the figure shows the stone-grain based composite coating in plate form in the perspective view. The aggregate layer 1 with a layer thickness of 2.5 millimeters is applied to the substrate 2 made of a synthetic fiber fleece.

It consists of 65% by mass of a first sand fraction with a particle size in the range of 0.1 mm to 0.5 mm and 26% by mass of a second particle of sand with a particle size of up to 0.1 mm,

7% by weight of a cement stone fraction and 2% by weight of natural rubber. The porosity of the aggregate layer 1 is 25% by volume.

To produce the composite coating, an aqueous dispersion based on a natural rubber binder is mixed with the aggregate of the first and second sand fractions with the addition of cement in a stirred pot until a lump-free, homogeneous aggregate paste is formed. This is spread on a plastic plate (production document), the synthetic fiber fleece placed on it and pressed.

Subsequently, the green covering with homogeneous layer thickness is produced therefrom by means of a roller press. The green coating dries to form a Kompositbelages of still air. After the composite covering has been removed from the production base, the composite covering is finely ground on the side opposite the nonwoven.

Claims

claims

1 . A composite covering based on an aggregate aggregate comprising an aggregate layer (1) applied to a flexible support material (2) formed as a non-woven, woven or non-woven fabric combination, wherein the aggregates have a particle size of up to 0.5 millimeter in the aggregate layer (1) are connected by means of a homogeneously distributed binder based on elastomers, characterized in that the proportion of the binder in the aggregate layer (1) is one to ten percent of the mass of the aggregate layer (1) and the aggregate layer (1) has a porosity in the Range of 10 to 30 percent by volume.

2. Kompositbelag according to claim 1, characterized in that the proportion of the binder in the aggregate layer (1) is one to five percent of the mass of the aggregate layer (1).

3. Kompositbelag according to claim 1, characterized in that the proportion of the binder in the aggregate layer (1) is three to eight percent of the mass of the aggregate layer (1).

4. Kompositbelag according to one of claims 1 to 3, characterized in that the aggregate has two sand fractions, wherein

the grain size of the aggregates of the first sand fraction is in the range of 0, 1 millimeter to 0.5 millimeter and the proportion of the first sand fraction in the aggregate layer (1) is 55 to 80 percent of the mass of the aggregate layer (1), and

the grain size of the aggregates of the second sand fraction is up to 0, 1 millimeter.

5. Kompositbelag according to one of claims 1 to 4, characterized in that the aggregate of sand and cement stone fractions, wherein the proportion of the cement stone fraction in the aggregate layer (1) four to ten percent of the mass of the aggregate layer (1) and the rest Share is formed by sand.

6. Kompositbelag according to one of claims 1 to 5, characterized in that the aggregate layer (1) is sealed with a polyurethane-based plastic.

7. A process for the production of a composite covering based on an aggregate aggregate, comprising an aggregate layer (1) applied to a flexible support material (2) formed as non-woven, woven or non-woven fabric combination, characterized by the process steps:

a) Mixing the aggregate whose aggregates have a grain size of up to

0.5 millimeter, with a water-based dispersion of a rubber-based binder to a lump-free, homogeneous aggregate paste, the aggregate paste containing cement at a level of one to seven percent of the mass of aggregate paste,

c) application of the flexible carrier material (2) of a water-permeable nonwoven, a water-permeable fabric or a water-permeable nonwoven fabric combination to the applied aggregate paste, d) pressing or rolling of the substrate (2 ) covered aggregate paste to a green covering of homogeneous thickness,

e) drying the green coating to form the Kompositbelages, and f) peeling the Kompositbelages of the production document.

8. A method for producing a Kompositbelages according to claim 7, character- ized in that the composite coating is abraded after removal from the production base on the surface opposite the substrate.

9. Use of the Kompositbelages according to one of claims 1 to 6 or prepared by the method according to any one of claims 7 or 8 as a covering covering for ceilings, walls, facades, doors, windows or furniture, as floor coverings, as interior decoration of vehicles and as a ballistic protective cover ,

- For this a sheet drawing -