WO2007042258A1 - Abrasion-resistant slabs having a decorative surface - Google Patents

Abstract

The application relates to a slab having a decorative surface, in particular for a floor covering, which has an abrasion-resistant surface. The abrasion-resistant surface is produced by means of one or more surface coating layers into which abrasion-resistant particles are introduced. The application further relates to a process for producing such a slab.

Description

 ABRASION-RESISTANT PLATES WITH DECORATIVE SURFACE

The invention relates to a method for the production of highly abrasion-resistant boards with decorative surface and highly abrasion-resistant boards with decorative surface. A decorative surface in the context of the invention is usually a motive created by pressure, such as the replica of a wood structure It may also be a Oπginal- wood structure act, which forms the decorative surface

Parquet flooring has decorative surfaces that are formed by wood To make these decorative surfaces more resistant, one or more transparent layers of varnish are applied and hardened. If several layers of varnish are applied, each varnish layer is first at least partially cured or hardened before the next varnish layer It is to be prevented by curing or angeling a flow of each individual paint layer

It is also known to use so-called filled paints These are paints that contain very small ceramic particles The particle size is regularly in the range of nanometers These particles are called nanoparticles It is so in addition to a sealing of a surface in addition to improve the abrasion resistance Since However, the particles are very small, an abrasion resistance of several 1 000 revolutions according to EN 1 3329 can not be achieved already. In addition, after each coating application, a coated layer is at least partially cured or hardened, so that the individual paint layers do not melt Another consequence of this is that it is not possible to achieve very high abrasion values. Achieving abrasion values above 3000 revolutions is thus not possible In addition, there are so-called laminate floor panels in which the decorative surface is formed by printed paper The decorative paper surface is provided with an abrasion-resistant layer in order to use such a panel for floor covering Such a state of the art can be found in WO 2005/042644

If the decor papers are located on the surface of a floor covering, the decor paper to be produced and the abrasion-resistant layer applied thereto must fulfill a particularly large variety of properties. This means that a sufficiently high abrasion resistance must be achieved in order to be offered as a floor covering in order to be qualitatively competitive , the abrasion values in the area of the floor must be several thousand revolutions. Laminate floor coverings that are only in accordance with the requirements of classes AC1 and AC2 in accordance with EN 1 3329 and thus only have a value IP of 1 800 revolutions are practically not sellable reference is made to recent sales figures of Kronospan GmbH in Lampertswalde. 35% of their sold laminate flooring production falls into class AC3, which corresponds to an abrasion value IP of at least 2500

Revolutions correspond to 60% of the production falls into the class AC4, which corresponds to an abrasion value IP of at least 4000 revolutions 5% of the production falls into the class AC5, which corresponds to an abrasion value IP of at least 6500 revolutions

Abriebwerten IP of at least 2500 is understood in the understanding of the expert to a flooring that can be sold in the floor area in Europe

In addition to the abrasion resistance, further properties such as impact resistance and chemical resistance play a role. For example, spilling a glass of red wine must not result in a red wine stain remaining in the coating In practice, in order to achieve the abovementioned objectives in the field of laminate flooring, the so-called wet-on-wet process with amino resins had prevailed (to which inter alia EP 0 875 399 A2, page 3, line 44 refers), in which the Decorative paper is first impregnated with an amino resin On the still wet, impregnated decorative paper, a dispersion based on an amino resin is applied, which contains as (abrasion) or abrasive particles mainly (light) corundum or in the case of dark decors (dark) silicon carbide, such as the EP 1 270 81 1 AI The paper is not only used to provide a decor It also fixes the applied wet ammo- ria This effect is therefore comparable with the fixation that is to be achieved by approaching varnish

The wet-on-wet application ensures that no undesirable boundary layers are formed. An amino resin is used, inter alia, because it forms a so-called matrix or a so-called network with its later curing. Individual layers formed from amino resin do not adhere merely mechanically to one another the layers formed from amino resin are connected to one another via double bonds. The matrix or the network present ensures that there is a firm bond. This is regularly a first important prerequisite in order to obtain high abrasion values

The abrasion-resistant particles are applied in the wet-on-wet process by means of a dispersion, because it ensures that no optically disturbing interfaces form between the abrasion-resistant particles and, moreover, a very stable incorporation of the abrasion-resistant particles in the resin matrix can be achieved

Although there have been attempts to sprinkle abrasion-resistant particles, for example, not to apply them with the aid of a dispersion, it is then very difficult to achieve the required uniform distribution on a regular basis because the particles tended to form clusters (see WO 98/47705, page 3, paragraphs 1 and 4) It is also difficult to embed the abrasion-resistant particles sufficiently well in the resin

Up to the time of the present application, therefore, the Aminoharz- wet-on-wet application is the method which is almost exclusively used in practice, when it comes to the production of a laminate panel with highly abrasion-resistant decor paper for a floor covering, although the production and handling of a Dispersion with abrasion-resistant or abrasive particles contained therein is relatively complicated in terms of apparatus. In practice, a method is only occasionally carried out, as is known from WO 2005/042644, in which abrasion-resistant particles are scattered onto decorative paper.

In order to be able to provide a good quality floor covering, the abrasion-resistant particles must therefore be applied evenly distributed over a decor. Otherwise the abrasion values fluctuate and there are occasional cloudiness (see also EP 0 875 399 A2, page 3, lines 24-27) ) If a wet application is made, the gleichmaßige application requires in principle that the abrasion-resistant particles in the amino resin dispersion are already evenly distributed and remain This is problematic because the particles fall rapidly and so a segregation takes place This fact, among others Publications EP 0 875 399 A2, page 3, lines 24 - 30, WO 98/47705, page 2, paragraph 2, DE 1 97 1 0 61 9, page 2, lines 1 8 - 22, EP 0 875 399 A20, page 2, lines 20 - 22, EP 0 875 399 A23, col. 2, lines 48 - 58, and the patent in suit in paragraph 4 expressly

The person skilled in the art familiar with the development of abrasion-resistant floor materials was thus confronted at the time of the application with the widespread knowledge that wet-on-wet application is practically indispensable in the case of decorative papers for floor coverings, but a great problem is homogeneity the abrasion-resistant particles in the A minoarzdispersion represents The prior art contains various proposals as to how this problem could be solved. It is regularly emphasized that the abrasive material should be particularly fine-grained in the case of wet application (EP 0 875 399 A2, claim 6, DE 1 96 43 742 A1, paragraph 2 of the abstract "Fine-grained material", WO 98/47705, page 2, paragraph 2, DE 2 362 645, page 4, paragraph I ₁ WO 93/1 71 82, page 8, lines 1 8 - 1 9, EP 0 875 399 A23, Column 6, lines 24-25)

The diameter of the abrasion-resistant particles must not be too small, otherwise high abrasion values will not be reached. Then the amount of abrasion-resistant particles must be so large that this undesirably affects the optics. Abrasion-resistant particles with a diameter of a few μm are hardly suitable to get to a surface with high abrasion values

If a decorative paper has been impregnated with an abrasion-resistant layer, this is placed on a plate. An overlay is placed above the decor paper. A so-called counter-pull paper is placed under the plate. The layer system is pressed in a press while heat is supplied. The plate becomes panels Desired size announced and provided by milling laterally with Verbmdungselementen such as tongue and groove

The overlay is required to protect a press from the abrasion-resistant particles. The abrasion-resistant particles must not protrude from the layers during pressing, as otherwise the press would be damaged. Also in the finished laminate panel, the abrasion-resistant particles should not protrude, otherwise an undesirably rough For this reason, abrasion-resistant particles should not exceed a certain diameter. WO 2005/042644, for example, cites an upper diameter of 200 .mu.m, but only when relatively thick paper is used actually can be realized From a surface roughened by the above abrasion-resistant particles, it is necessary to distinguish surfaces from coverings which have been embossed. For this purpose, for example, the steel strip of a press has an embossing pattern, as can be seen from EP 0 546 402 A2. Such an embossing is provided primarily for decorative reasons. Thus, pores of wood are typically replicated by the embossing.

The object of the invention is the provision of a plate with decorative O- berflάche and high abrasion in a cost effective manner.

To solve the task, a varnish is applied to a plate with a decorative surface. Abrasion-resistant particles are placed on the decorative surface plate. Another coat of paint is applied and the applied paints are cured. There is then a plate before, which has an abrasion-resistant surface. The decor of a slab can be formed by solid wood. To make this visible, transparent paints are used.

In contrast to the prior art, after the application of a first lacquer layer, it is not at least partially cured or gelled in order to fix this lacquer in this way. Also, no paper is used to effect fixation of a first applied liquid. The invention thus overcomes the widespread opinion of the skilled person that either first a first liquid layer has to be fixed by partial curing or hardening or another means such as the use of a paper has to be used to achieve the fixation. It succeeds so the application of several paints with therein abrasion-resistant particles, which can then be relatively large. Overall, so can an abrasion-resistant surface with abrasion values of more than 3000 revolutions achieved be without the addition of a manufacturing cost increasing paper must be used

In one embodiment of the invention, a decor has been printed on a plate and preferably by indirect gravure In comparison to the laminate flooring with the decor paper first drops the decor paper addition then no Gegenzugpapier is required, which should counteract in the prior art distortion of the plate Thus a next paper including the resin for connecting the retraction paper to the plate is also saved An overlay with the associated amount of resin is saved The meaningfully used amount of paint depends only on the particle size from the point of view of cost and handling reasons to limit that the particles do not protrude from the paint. This minimizes the quantity of paint that should at least be used

Indirect gravure printing is particularly suitable for properly imprinting a decor on a HDF or MDF board, for example

The used lacquers are then also transparent, so that the decor can be seen

The average diameter of the abrasive particles is in one embodiment of the invention at 1 0 to 1 60 microns to get high abrasion levels, which are expected in the field of the floor by the European consumer Preferably, the average diameter at 20 to 40 microns diameter The existing abrasion-resistant particles are then predominantly within the range of the average diameter, that is, for example, between 20 and 40 microns

On the one hand, abrasion values can be achieved well above 2500 revolutions On the other hand, it is ensured that there is no undesirably rough surface due to a large number of protruding abrasion-resistant particles. Also, the amount of abrasion-resistant particles can not be kept sufficiently small in order to avoid the appearance severely impaired

The stated range of 20 to 40 μm is particularly preferable since on the one hand the desired high abrasion values can be achieved and on the other hand the amount of paint which can be suitably used can be handled without difficulty

In one embodiment of the invention, a base coat is first applied to the plate. The abrasion-resistant particles, preferably corundum, are then sprinkled onto the still wet base coat. A topcoat is then applied to the wet base coat with the scattered abrasion-resistant particles. Basecoat and topcoat are then cured together average diameter of the abrasion-resistant particles is then preferably from 1 0 to 60 .mu.m, more preferably from 20 to 40 .mu.m If a mean diameter of 20 to 40 .mu.m chosen, the diameter of the particles usually do not exceed the value of 60 microns

Surprisingly, it has been shown that the abrasion-resistant particles penetrate deep enough into the base coat by sprinkling and thus in the

This is important in order to achieve high abrasion values and to prevent the abrasion-resistant particles from undesirably protruding from the topcoat layer. It is therefore surprisingly possible to dispense with the handling of a dispersion

However, in one embodiment, first of all a dispersion of base coat with abrasion-resistant particles contained therein can be produced. If this is then sprayed on, then the dispersion can be moved sufficiently strongly in order to keep the abrasion-resistant particles in suspension However, sprinkling is preferable as it works and no dispersion needs to be handled

In order to further increase the abrasion values, the abrasion-resistant particles are preferably coated with a silane coupling agent and are scattered in this state. The embedding of the abrasion-resistant particles in the paint is thus further improved

In one embodiment of the invention, UV-curable lacquers are used and cured by ultraviolet light, preferably under exclusion of air. If UV-curable lacquers are cured with exclusion of air, the conversion of double bonds during hardening is more than 90% only 50 to 60% can be achieved. The double bonds form a network which extends from the base coat to the top coat. Particularly high levels of abrasion are then achieved

If a lacquer is used which can be cured by UV light, then this preferably has additions of photoinitiators, preferably 0.3 to 5% by weight. This improves the possibility of being able to crosslink the lacquer used by ultraviolet light

In one embodiment of the invention, by means of electron beam, hardenable lacquers are used which are hardened by electron beam with the exclusion of air. Thus, a very high conversion of the double bonds by the hard forms a network, so that very high abrasion values can be achieved

Particularly easy manages a hard or cross-linking under Luftabschluss or Ausschtuss of air by the hard surface of the plate is covered, for example, during curing by a film that transmits UV and / electron radiation, without being destroyed by polymer-based films meet such requirements technically complicated coiling with inert gas during hardening can thus be It is also further improved by using the film to ensure that the abrasion-resistant particles are embedded in the paint

In one embodiment of the invention, the decorative surface of the plate is covered with a pattern-forming film, preferably polymer-based during curing. On the one hand, the desired air seal is achieved during hardening. On the other hand, the surface is immediately provided with a structure, without having the structure as in the prior art Technique a structure is pressed under high pressure

The topcoat preferably has a release agent to be able to easily solve the cover, so for example, the Strukturgeberfohe after hardening again

In a further embodiment of the invention, base coat and top coat differ. The base coat is chosen such that it gives a good adhesion to the substrate and is able to compensate internal stresses. The top coat is selected so that it is particularly scratch-resistant, mechanically loadable and resistant to chemical influences insensitive behavior In order to achieve these objectives, the topcoat is preferably such that a higher degree of crosslinking can be achieved with this compared to the basecoat. Also, the coatings are preferably provided alternatively or additionally with additives which require the respective desired properties

In one embodiment of the invention, acrylate lacquers based on polyurethane or aliphatic polyester are used as lacquers which have proven to be suitable. In order to set the desired crosslinkability and viscosity, dimers are added to the lacquers used. In order to adjust the viscosity, in one embodiment Monomers added

If a paint is applied with a roller, the viscosity is preferably from 1 5 to 1 80 Pa-sec, more preferably from 60 to 80 Pa-sec If a lacquer is applied by casting, a viscosity of preferably 30 to 70 Pa-sec, particularly preferably 40 to 60 Pa-sec is set

In total, according to the invention, a layer thickness of preferably up to 100 μm is produced above the decoration. This layer comprises the two applied paint layers and the abrasion-resistant particles contained therein. This layer consisting of basecoat and topcoat with the abrasion-resistant particles contained therein is preferably at least 80 .mu.m thick in order reliably not to allow abrasion-resistant particles with an average diameter of 20 to 40 μm to protrude from the lacquer and to enable a good structuring of the surface, for example a simulation of wood pores

Abrasion values of up to 8500 revolutions can be achieved. This value corresponds to class 34 in the field of floor panels

In the following we describe the invention by means of a preferred example

The surface of a HDF board is ground. A primer, ie an adhesion promoter, is applied to the ground surface. The wet application is dried. The surface is then filled with a high-solids acrylate system and then dried. A base color is applied, for example to provide a light base tone Preferably, the base color is applied by pouring over a gap, as then the surface of a plate is contactlessly provided with the paint The base color is then dried and smoothed, for example with a calender Then, preferably, the back of the plate also provided with a paint coating, which forms a barrier against the ingress of moisture This counteracts a delay With a four-color printing unit, a motif is then printed by indirect gravure printing on the dried and smoothed base color. The printed motif is dried.

The basecoat used is Laromer® UP 35 D from BASF, to which the crosslinking component Laromer® HDDA from BASF is added in order to adjust the crosslinkability and viscosity. Laromer® UP 35 D is used for the production of radiation-sensitive fillers and topcoats for wood and wood-based materials. It is a medium-reactive unsaturated polyester resin, about 55% in dipropylene glycol diacrylate. This is supplied as a clear, pale yellow, medium viscosity resin having a viscosity of 3 to 6 Pa-sec. The Dimer Laromer® HDDA is hexanediol diacrylate C ₁₂ H ₁₈ O ₄ :

Cl-I ₂ s: CH - C - O - (CH _? ) _G - O - C - Chi - CH ₂

^• IJ Il

O O

The base coat is applied in an amount of 20 to 50 g / m ² .

Particles of corundum or aluminum oxide are now sprinkled onto the wet paint. The particles are coated with a silane coupling agent. The average diameter of the particles is between 20 and 40 microns, a diameter of 60 microns is usually not exceeded. The amount of corundum depends on the desired abrasion value that is to be achieved. The amount can be up to 50 wt .-% based on the total amount of paint used, experiments have shown that even an amount of 25 g / m ² leads to good abrasion and at this amount is virtually no visual impairment.

Subsequently, a topcoat is preferably applied to the basecoat with the scattered abrasion-resistant particles. As a base resin for the Decklαck has been chosen Lαromer® LR 8987 BASF. It is an acrylate resin for the production of radiation-curable coatings, inter alia for wood and wood-based materials with the composition aliphatic urethane acrylate, 70% in hexanediol diacrylate. The viscosity at 23 ° is 4 to 6 Pa-sec. Paints prepared therefrom are characterized by a very low yellowing. In order to be able to cure this varnish with UV light, a photoinitiator is to be added in an amount of 2 to 5% by weight. The desired viscosity is increased by adding Laromer® DPGDA Company BASF discontinued. These are dipropylene glycol diacrylate C ₁₂ H ₁₈ O ₅ :

CH = CH - C - ^C) - (CH - CrL - O) ₀ ~ C - CH = CH ₀

Il i Il

O CH ₃ O

The application is preferably carried out in the manner shown in FIG. 1. Above the HDF board 1 with the applied basecoat 2, including the scattered abrasion-resistant particles 3, a pattern-forming film 4 is formed by unwinding. Immediately before placing the pattern-forming film 4 adjacent to the intended for laying first roller 6, the topcoat 8 is supplied in such a way that it completes the immediately following curing process airtight to the outside. Above the applied structured sensor film 4 is a device 9 for the curing of basecoat and topcoat by radiation. The structure-forming film 4 is wound up again with a further roller 10. The plate 1 is transported with a conveyor belt 1 2 parallel to the applied structure sensor film at the same speed in the direction of the arrow 1 1.

By means of the texturing film, the desired air seal is achieved and a desired surface structure is produced. Next is achieved so that any protruding abrasion-resistant particles are pressed into the paint. Overall, the proper embedding succeeds of abrasion-resistant particles in the paint. The result is a plate with such embedded in a network abrasion-resistant particles that can easily achieve an abrasion value of 4000 revolutions to EN 1 3329, as of June 2000, and more.

Instead of a pattern-forming film, it is also possible to use a film with a smooth surface if it is merely a matter of achieving a particularly high abrasion resistance of the surface without the presence of a surface structure.

From the plate then floor panels are announced and laterally provided with connecting means, such as with grooves and springs together with other locking means that allow a glueless connection of panels.

The paints may contain conventional additives such as silicones and polymerizable oils, for example to improve a substrate wetting or to promote a vent or the degree of gloss.

Below a plate produced according to the invention, one or more sound-absorbing layers may be applied. Compared to the prior art, the sound absorption is then particularly well, because there is a smaller number of boundary layers, the sound reflect back disadvantageous. A sound-absorbing layer according to the invention consists for example of thermoplastic material, which preferably has a particularly pronounced relaxation behavior at room temperature. Then the scarf introduced into the layer is particularly strongly absorbed at room temperature. The layer can be very thin and less than 1 mm.

Claims

claims

1 panel (1) with a decorative surface and a paint layer applied thereto containing abrasion resistant particles

2 plate (1) according to claim 1, wherein the decor is printed on the plate (1)

3 plate according to claim 1 or 2, wherein the plate made of wood or eι- nem wood material and in particular consists of HDF

4 plate according to one of the preceding claims, wherein the Ab- πebfestigkeit the paint layer with the abrasion-resistant particles more than 2500 revolutions, preferably more than 3000 revolutions, more preferably more than 4000 revolutions amounts

5 plate according to one of the preceding claims, in which the abrasion-resistant particles (3) consist of corundum and have an average diameter of preferably 1 0 to 60 .mu.m, particularly preferably from 20 to 40 microns

ό Plate according to one of the preceding claims, wherein the abrasion-resistant particles (3) are coated with a Silanhaftvermittler

7. Panel according to one of the preceding claims, in which the abrasion-resistant particles (3) are embedded in a crosslinked lacquer (2, 8) in which the double bonds are preferably converted to more than 90%

8 plate according to one of the preceding claims, wherein the paint (2, 8) additives to photoinitiators

9 panel according to one of the preceding claims, wherein the surface is provided with the decor with a structure 1 0 plate according to one of the preceding claims, wherein the paint (2, 8) autweist a release agent

1 1 plate according to one of the preceding claims with a lower paint area, which has a lower degree of crosslinking compared to an overlying area of the paint layer

1 2 Plate according to one of the preceding claims, in which a acrylate polyacrylate-based and / or aliphatic polyester-based with added dimers or monomers is used

1 3 plate according to one of the preceding claims, wherein the lacquer layer (2, 8) is up to 1 00 microns thick

1 4 plate according to one of the preceding claims, wherein the decor is printed on a ground and trowelled surface of the plate (1), which is preferably provided with a primer and / or a base coat

1 5 panel made of a plate according to any one of the preceding claims, with seitrac HET connecting elements such as tongue and groove and preferably further Verπegelungselemen- th for the glueless joining of panels

A panel according to the preceding claim, which comprises no decorative paper, no overlay and no countertraction paper

1 7 floor covering consisting of panels according to one of the two preceding claims

1 8 Method of Making a Decorative Surface Panel with a High Abrasion Resistant Layer Using the Steps Providing a wooden or wood-based panel (1) with a decorative surface,

- Applying a preferably hardenable by radiation paint

(2), - applying abrasion-resistant particles (3) to the decorative surface panel,

Applying a preferably hardenable by means of radiation paint (8) on the abrasion-resistant particles (3),

Hardening of the two applied lacquers (2, 8), preferably by means of radiation.

9. Method according to the preceding claim, in which the applied lacquers (2, 8) are covered with a foil (4) and hardened in the covered state, wherein the foil (4) is preferably a texturing foil,

20. The method according to one of the two preceding claims, wherein the decor is printed on the plate (1),

21. Method according to one of the three preceding claims, in which the abrasion-resistant particles (3) are sprinkled onto a lacquer layer (2).