EP4202117B1 - Two-layer decorative paper for improving print quality - Google Patents

Description

The invention relates to a decorative base paper for decorative coating materials, a process for its production, the use of the decorative base paper for the production of decorative coating materials and a decorative coating material comprising the decorative base paper.

Decorative coating materials, so-called decorative papers, also known as decorative films, are primarily used for surface coating in furniture production and in interior design. A decorative paper is a synthetic resin-impregnated or synthetic resin-impregnated and surface-treated, printed or unprinted decorative base paper web. Decorative papers are glued or bonded to a carrier board.

Depending on the type of impregnation process, a distinction is made between decorative papers with a fully impregnated decorative base paper core and decorative papers based on pre-impregnated paper, where the decorative base paper is only partially impregnated online in the paper machine. High-pressure laminates are laminates that are created by pressing several impregnated papers layered on top of each other. The structure of these laminates generally consists of a transparent overlay that creates the highest surface resistance, a resin-impregnated decorative base paper (decorative paper) and one or more phenol-resin-treated kraft papers. Hardboard and chipboard as well as plywood are used as the base for this.

In the case of laminates produced using the short-cycle process (Low Pressure Laminates), the decorative base paper impregnated with synthetic resin is directly base, for example a chipboard, using low pressure.

The decorative paper used for the above-mentioned coating materials is white or colored with or without additional printing.

So-called decorative base papers as starting materials for the production of the above-mentioned coating materials have to meet special requirements, such as high opacity for better coverage of the substrate, uniform formation and grammage of the sheet for uniform resin absorption, high light resistance, high purity and uniformity of the color for good reproducibility of the pattern to be printed, high print quality of the patterns to be printed, high wet strength for a smooth impregnation process, appropriate absorbency to achieve the required degree of resin saturation, dry strength during rewinding processes in the paper machine and during printing in the printing machine.

Decorative base papers generally consist of high-white sulfate pulp, predominantly hardwood pulp, up to 45% pigments and fillers as well as wet strength agents, dry strength agents, retention agents, rheological additives and fixing agents. Decorative base papers differ from conventional papers in that they have a much higher filler content and do not contain the usual mass sizing or surface sizing with the well-known sizing agents such as alkyl ketene dimers.

Some of the requirements described above can already be covered by the well-known decorative base papers consisting of a single layer of fibre material. Such decorative base papers are used, for example, in EP 1 207 233 B1 and EP 1 379 729 A1 In addition, decorative base papers are known in the state of the art with which a good print result can be produced, for example with inkjet printing machines. The problem is that obtaining a good print quality often requires the Impregnation ability of the decorative base papers is impaired. For example, it is EP 1 749 134 A1 It is known to apply a color-receiving layer to the decorative base paper in order to improve its print quality. However, applying the color-receiving layer to the decorative base paper leads to a significant deterioration in the impregnation properties and thus in the further processing of the decorative base paper, since the pores of the decorative base paper, particularly on its surface, are reduced or even closed by the mass of the color-receiving layer. In addition, the additional work step of applying a color-receiving layer leads to increased use of material and time and thus higher production costs.

In addition to impregnability and printability, opacity is one of the most important properties of decorative base paper. This indicates the covering capacity of the carrier material. To ensure sufficient opacity, pigments with a high refractive index are added to the fiber in large quantities. These pigments are necessary because many alternative pigments such as silicates, which are used in other paper products, have a refractive index comparable to the impregnating resins. A small difference in the refractive indices of the pigments, the pulp and the impregnating resins leads to a very low opacity of the decorative film after impregnation. In addition, the decorative base paper itself serves as a carrier material for color design or the application of prints and decorations. Wood or stone patterns that are produced using printing processes such as gravure printing or on digital inkjet printing machines are particularly popular. The print is applied to the surface and the components of the inks penetrate the surface of the paper depending on the amount applied. Due to the pigments with a high refractive index, such as titanium dioxide, contained in the decorative base paper, a comparatively high proportion of colorants in the inks is required to achieve the desired color intensity, as the light is strongly scattered by these pigments and thus less light hits the colorants. The deeper the inks, and thus the colorants contained therein, penetrate into the decorative base paper, the stronger the The color effect of the colorants is weakened by the pigments with a high refractive index present in the decorative base paper. A decorative base paper that ensures good optical coverage of the carrier material due to its high opacity inevitably has negative effects on the achievable color intensity and thus on the print quality and the optical design.

FR 2 997 421 A1 describes a decorative paper that has both good printability using inkjet printing and good resin absorption capacity, as the paper contains fillers with a high oil absorption capacity. However, these fillers have a low refractive index, which is why the opacity of the decorative paper is low.

EP 1 627 953 A1 describes a decorative paper that contains comparatively small amounts of titanium dioxide and calcined aluminum silicate as a filler. Calcined aluminum silicate has a low refractive index of 0.1 to 1.2 compared to titanium dioxide, but contains enclosed micro air chambers that lead to a high opacity of the decorative paper.

Against this background, the object of the invention was to provide a decorative base paper which does not have the aforementioned disadvantages of the prior art and is characterized in particular by a high print quality combined with good opacity and impregnability.

This object was achieved by a decorative base paper for decorative coating materials, wherein the decorative base paper comprises two fiber layers, wherein the first fiber layer comprises more than 5% by weight of at least one pigment with a refractive index of greater than 2.0, based on the dry pulp of the first fiber layer, and the second fiber layer comprises less than 5% by weight of at least one pigment with a refractive index of greater than 2.0, based on the dry pulp of the second fiber layer, wherein the second fiber layer comprises at least 1% by weight of at least one pigment with a refractive index of less than 2.0, based on the dry pulp of the second fiber layer.

It has surprisingly been found that it is possible to provide a decorative base paper with a high print quality, which at the same time has a high opacity and good impregnation capacity, if the decorative base paper comprises two fiber layers that have a different proportion of pigment(s) with a high refractive index of greater than 2.0. The proportion of pigment(s) with a high refractive index in the first fiber layer is higher than in the second fiber layer. The first fiber layer therefore has a high opacity and behaves in its properties like a decorative base paper known in the prior art that has only one fiber layer. The second fiber layer of the decorative base paper according to the invention can advantageously be specifically adapted to the requirements of the respective printing process. Due to the lower opacity of the second fiber layer, the colorants in the ink are used more efficiently, so that with the decorative base paper according to the invention it is possible to use fewer colorants to achieve the same color intensity compared to the prior art. A further advantage of the decorative base paper according to the invention is that a high print quality is obtained without an additional ink-receiving layer having to be applied to the decorative base paper, so that the decorative base paper according to the invention has good impregnability and can be produced more easily and cost-effectively.

A decorative base paper within the meaning of the invention is a paper which, in contrast to conventional papers, is neither sized in the mass nor has undergone surface sizing.

The decorative base paper according to the invention has at least two fiber layers. When the decorative base paper is used to produce a decorative coating material, the first fiber layer serves as a cover for a carrier material and is in full-surface contact with the carrier material. The second The fiber layer can be printed with a decoration. When using the decorative base paper to produce a decorative coating material, the second fiber layer is in full contact with the first fiber layer on its back and can have a decoration on its front side (visible side), which faces a viewer in the finished decorative coating material. In contrast to a paper composite formed by placing individual paper layers on top of one another and bonding them with resin or adhesive, the two fiber layers of the decorative base paper according to the invention are mechanically connected to one another by the respective pulp fibers of the individual fiber layers.

The first fiber layer can contain pulp and pigments as well as common additives. Common additives can be wet strength agents, dry strength agents, retention agents, rheological additives and fixing agents.

The first fibrous layer has more than 5% by weight, preferably more than 15% by weight, particularly preferably more than 25% by weight, of at least one pigment with a refractive index of greater than 2.0, based on the dry pulp of the first fibrous layer. It has proven particularly advantageous if the first fibrous layer has a higher amount of pigment(s) with a refractive index of greater than 2.0 than the second fibrous layer. The refractive index is determined using the usual methods known to the person skilled in the art at the wavelength of the sodium D line (nD) of 589 nm using a refractometer.

Particularly practical, the first fibrous material layer contains 6 - 50 wt. %, preferably 15 - 48 wt. %, particularly preferably 25 - 45 wt. % of at least one pigment with a refractive index of greater than 2.0, based on the dry pulp of the first fibrous material layer. The proportion of more than 5 wt. % of at least one pigment with a refractive index of greater than 2.0 in the first fibrous material layer ensures a high opacity of the decorative base paper and thus a high covering capacity compared to a carrier material in a decorative coating material.

Suitable pigments with a refractive index of greater than 2.0 are, for example, titanium dioxide and zinc sulfide or mixtures thereof. According to a preferred embodiment of the invention, the at least one pigment with a refractive index of greater than 2.0 contains titanium dioxide or consists thereof.

In addition to the pigment(s) with a refractive index greater than 2.0, small amounts (less than 15% by weight) of pigment(s) with a refractive index less than 2.0 can also be used in the first fiber layer. Examples of pigments with a refractive index less than 2.0 that can be used in the first fiber layer are the pigments with a refractive index less than 2.0 described below in connection with the second fiber layer.

According to a preferred embodiment of the invention, the opacity of the decorative base paper is at least 80%, preferably at least 85%, particularly preferably at least 90%, measured according to DIN 53146 with an ACE colorimeter from Data Color. The titanium dioxide content in the decorative base paper was determined according to DIN 54370. The basis weight of the first fiber layer preferably makes up the majority of the total basis weight of the decorative base paper. The basis weight of the first fiber layer can be at least 40 g/m ² , preferably between 40 g/m ² and 250 g/m ² , particularly preferably between 55 g/m ² and 120 g/m ² . This achieves an optimal balance between sufficient coverage of the substrate (sufficient opacity) on the one hand and the lowest possible consumption of starting materials on the other.

The second fibrous material layer of the decorative base paper according to the invention can comprise, in addition to pulp and optionally pigments, conventional additives. Conventional additives can be wet strength agents, dry strength agents, retention agents, rheological additives and fixing agents. Fixing agents as used here do not mean the dye-fixing substances that can be used in the second fibrous material layer according to the invention, as defined further below.

The usual additives can be used in amounts customary in the prior art in the second fibrous material layer of the decorative base paper according to the invention. According to a preferred embodiment of the invention, the usual additives are used in an amount of 0.02% by weight, preferably at least 0.05% by weight, particularly preferably at least 0.2% by weight to at most 5% by weight, based on the dry pulp of the second fibrous material layer.

The second fibrous material layer has less than 5% by weight, preferably less than 3% by weight, particularly preferably less than 1% by weight, very particularly preferably none, of at least one pigment with a refractive index of greater than 2.0, based on the dry pulp of the second fibrous material layer. In principle, the same at least one pigment with a refractive index of greater than 2.0 that was already described above in connection with the first fibrous material layer can be present in the second fibrous material layer. The second fibrous material layer has a very low, preferably no, opacity. As a result, the colorants in the ink are used more efficiently when printing the second fibrous material layer of the decorative base paper according to the invention than with a comparable single-layer decorative base paper with high opacity.

The second fibrous material layer can additionally contain dye-fixing substances selected from salts and/or cationic polymers. According to a preferred embodiment, the proportion of salts and/or cationic polymers in the second fibrous material layer is at least 0.5% by weight, preferably at least 2% by weight, particularly preferably at least 5% by weight, and at most 20% by weight, based on the dry pulp of the second fibrous material layer.

Suitable cationic polymers are, for example, polyvinylamine, polyacrylamides and polyethyleneimines. Suitable salts are alkaline earth metal salts, in particular alkaline earth metal halides and alkaline earth metal nitrates or mixtures thereof.

The use of calcium chloride, magnesium nitrate or mixtures thereof is particularly preferred.

The dyes usually used in printing inks for gravure printing or for digital printing processes such as inkjet printing are anionically charged. These anionic dyes are fixed to the surface of the fiber layer by the salts and/or cationic polymers. The presence of dye-fixing substances in the second fiber layer therefore improves the printability of the decorative base paper.

According to the invention, the second fibrous layer contains at least 1% by weight of at least one pigment with a refractive index of less than 2.0, based on the dry pulp of the second fibrous layer. According to a preferred embodiment of the invention, the second fibrous layer contains at least 5% by weight, particularly preferably at least 10% by weight and at most 40% by weight of at least one pigment with a refractive index of less than 2.0, based on the dry pulp of the second fibrous layer.

The at least one pigment with a refractive index of less than 2.0 can be selected from aluminum oxide, aluminum hydroxide, boehmite, clay, calcined clays, kaolins, in particular natural kaolins, delaminated kaolins and other aluminum silicates, including synthetic ones, talc, diatomaceous earth, aluminum trihydrate and silicas (e.g. precipitated or pyrogenically produced silicas) and mixtures thereof. A cationized pyrogenic silica is preferably used as the silica.

According to a particularly preferred embodiment of the invention, the at least one pigment with a refractive index of less than 2.0 contained in the second fibrous layer additionally has a specific surface area of at least 1 m ² /g, preferably at least 50 m ² /g, particularly preferably at least 100 m ² /g, in particular 150 m ² /g, most preferably at least 190 m ² /g, according to BET (according to DIN ISO 9277).

According to a particularly preferred embodiment of the invention, the second fiber layer has at least one pigment with a refractive index of less than 2.0 with a specific surface area of 200 to 330 m ² /g. It has been found that the addition of at least one pigment with a high specific surface area further improves the printability of the decorative base paper.

The basis weight of the second fibrous material layer preferably makes up the smaller proportion of the total basis weight of the decorative base paper. The basis weight of the second fibrous material layer can be at most 100 g/m ² , preferably between 15 g/m ² and 100 g/m ² , particularly preferably between 20 g/m ² and 50 g/m ² . The second fibrous material layer advantageously has the lowest possible basis weight. Basis weights of less than 15 g/m ² cannot be achieved in an economically viable manner using the currently common manufacturing processes.

The decorative base paper according to the invention can be used white or colored. Dye(s) can be used to color the decorative base paper according to the invention. Examples of inorganic dye(s) are metal oxides, hydroxides and oxide hydrates, metal sulfides, sulfates, chromates and molybdates or mixtures thereof. Examples of organic dye(s) are carbonyl colorants (e.g. quinones, quinacridones), cyanine colorants, azo colorants, azomethines and methines, phthalocyanines or dioxazines.

According to the invention, mixtures of inorganic dye(s) and organic dye(s) are preferred. For example, commercially available dyes such as iron oxide (EO) yellow (Bayferrox 415), iron oxide (EO) red (Bayferrox 110 M), carbon black (Carbofin LC 2900), dye blue PB 15, dye violet PV 23 and dye yellow PY 97 and mixtures thereof can be used.

The term dye(s) refers to a single dye or a dye mixture. In contrast to the pigment with a refractive index of greater than 2.0 present in the decorative base paper according to the invention and the optionally present pigment with a refractive index of less than 2.0, the dyes are brightly colored coloring substances, not white pigments or achromatic, non-coloring substances.

Which dye(s) are used depends on the desired coloring of the decorative base paper.

Depending on the type of material, the amount of dye(s) in the decorative base paper can be between 0.0001 and 5% by weight, in particular between 0.001 and 4% by weight. The quantity refers to the mass of the total pulp of the decorative base paper.

According to one embodiment of the invention, the first and second fibrous layers contain dye(s). Preferably, the ratio of the weight proportions of dye(s) in the first fibrous layer to the weight proportions of dye(s) in the second fibrous layer is less than 1, particularly preferably less than 0.5.

According to a further embodiment of the invention, only the second fiber layer comprises dye(s).

• glatt, d.h. mit Glätte nach Bekk über 80 s, insbesondere mit einem Yankeezylinder oder mit einem Kalander geglättet, oder
• ungeglättet < 80 s, und/oder
• sehr luftdurchlässig (Gurley-Werte unter 20 s/hml)(hml=100 ml) oder
• dicht (Gurley-Werte über 20 s/hml).

Depending on the application and the quality requirements, the decorative base papers used according to the invention can also be designed on one or both sides as follows:

• smooth, ie with a Bekk smoothness of over 80 s, in particular smoothed with a Yankee cylinder or with a calender, or
• unsmoothed < 80 s, and/or
• very air permeable (Gurley values below 20 s/hml)(hml=100 ml) or
• dense (Gurley values above 20 s/hml).

It goes without saying that smoothed paper usually has a lower air permeability than unsmoothed paper.

According to a preferred embodiment of the invention, the decorative base paper according to the invention has an impregnation behavior with a value of less than 10 s, particularly preferably less than 5 s. The impregnation behavior is determined according to the method explained in connection with the examples.

1. a) Bilden einer ersten Faserstofflage in einer ersten Siebpartie einer Papiermaschine, wobei die erste Faserstofflage mehr als 5 Gew.-% mindestens eines Pigments mit einem Brechungsindex von größer 2,0, bezogen auf den trockenen Zellstoff der ersten Faserstofflage, aufweist,
2. b) Bilden einer zweiten Faserstofflage in einer zweiten Siebpartie der Papiermaschine, wobei die zweite Faserstofflage weniger als 5 Gew.-% mindestens eines Pigments mit einen Brechungsindex von größer 2,0, bezogen auf den trockenen Zellstoff der zweiten Faserstofflage, aufweist,
3. c) Zusammenführen der ersten und zweiten Faserstofflage zu einem Dekorrohpapier.

Another object of the invention is a process for producing a decorative base paper according to the invention, comprising the following steps:

1. a) forming a first fibrous layer in a first wire section of a paper machine, wherein the first fibrous layer comprises more than 5% by weight of at least one pigment having a refractive index of greater than 2.0, based on the dry pulp of the first fibrous layer,
2. b) forming a second fibrous layer in a second wire section of the paper machine, wherein the second fibrous layer comprises less than 5% by weight of at least one pigment having a refractive index of greater than 2.0, based on the dry pulp of the second fibrous layer,
3. c) Combining the first and second fibre layers to form a decorative base paper.

The above explanations in connection with the decorative base paper according to the invention apply accordingly to the properties of the decorative base paper and the first and second fiber layers. The features explained below in connection with the manufacturing process are equally applicable to the properties of the decorative base paper according to the invention.

According to steps a) and b) of the method according to the invention, the first fiber layer is formed in a first wire section and the second fiber layer is formed in a second wire section of a paper machine.

The paper machine used can be a fourdrinier paper machine with or without top-side drainage, a cylinder-shaped paper machine or a gap-forming paper machine, as is the case, for example, in the EP 0 851 058 B1 The different fiber layers can be formed using several single-layer or multi-layer headboxes.

According to an alternative embodiment of the method according to the invention, the two fiber layers according to steps a) and b) can also be formed in a common step on a single wire section, such as a fourdrinier wire, a fourdrinier wire with top drainage, a round wire or a gap-former, using a multi-layer headbox. It is also possible to form the second fiber layer wet-on-wet using a secondary headbox placed on the first fiber layer. This can be done with or without subsequent top drainage.

Softwood pulp, hardwood pulp or mixtures of both types of pulp can be used to form the first and second fiber layers. The use of 100% hardwood pulp is preferred. However, mixtures of softwood/hardwood pulp in a mass ratio of 5:95 to 50:50, in particular 10:90 to 30:70, can also be used.

For this purpose, the pulp mixture can be ground at a consistency of 2 to 5 wt.% to a degree of grinding of 10 to 45°SR.

Depending on the fibre layer, the components mentioned above in connection with the decorative base paper according to the invention, such as pigments, dyes and wet strength agents such as polyamide/polyamine-epichlorohydrin resin, cationic polyacrylates, modified melamine-formaldehyde resin or cationized starches, are added in quantities customary in the production of decorative base papers and mixed well with the pulp mixture.

The thick stock produced in the mixing vat or continuously can be diluted to a consistency of about 1%. If necessary, other auxiliary materials such as retention aids, defoamers, dyes and other previously mentioned auxiliary materials or mixtures thereof can be added. This thin stock is fed via the headbox of the paper machine to the wire section or twin-wire section. The respective first or second fiber layer is formed.

According to the method according to the invention, the first and second fiber layers are combined in step c) to form a decorative base paper.

After the two fiber layers have been brought together, the decorative base paper is then dewatered and dried.

In the process according to the invention, dewatering and drying preferably take place after the two fiber layers have been brought together in step c). The basis weight of the dry decorative base paper produced can be 15 to 300 g/m ² , preferably 60 to 130 g/m ² .

Further objects of the invention are the use of the decorative base paper according to the invention for producing decorative coating materials and a decorative coating material comprising a decorative base paper according to the invention.

To produce decorative coating materials, so-called decorative papers or decorative films, the decorative base papers can first be printed and then impregnated or soaked with synthetic resins commonly used for this purpose.

Common synthetic resins used for this purpose include melamine-formaldehyde resin, urea-formaldehyde resin, phenol-formaldehyde resin, polyacrylates, acrylic acid ester-styrene copolymers or their compatible mixtures.

The amount of dry weight of the synthetic resin is 40 to 250%, preferably 80 to 125%, based on the basis weight of the decorative base paper.

Impregnation can also take place in the paper machine's size press. The decorative base paper can be impregnated in such a way that the paper is not completely impregnated. Such decorative papers are also referred to as pre-impregnated papers. In this case, the proportion of synthetic resin introduced into the decorative base paper by impregnation is 25 to 30% by weight, based on the basis weight of the decorative base paper.

After drying, the impregnated or partially impregnated decorative base papers can be varnished and then applied to a substrate such as a wooden panel or a wood-based material by thermal pressing.

FIG. 1

Schematische Darstellung eines erfindungsgemäßen Dekorrohpapiers (links) sowie beispielhafter Verlauf des Anteils (in Gew.-%) des darin enthaltenen Pigments mit einem Brechungsindex von größer 2,0 (rechts)

The invention is further explained with reference to the following figure and the following examples.

FIG. 1

Schematic representation of a decorative base paper according to the invention (left) and exemplary progression of the proportion (in % by weight) of the pigment contained therein with a refractive index of greater than 2.0 (right)

Figure 1 shows on the left side a schematic representation of a decorative base paper 1 according to the invention. The decorative base paper 1 comprises a first fibrous material layer 2, which has more than 5% by weight of at least one pigment 3 with a refractive index of greater than 2.0, based on the dry pulp of the first fibrous material layer. The decorative base paper comprises a second fibrous material layer 4, which less than 5% by weight of at least one pigment 3 having a refractive index greater than 2, based on the dry pulp of the second fiber layer.

To the right of the schematic representation of the decorative base paper 1 according to the invention, the course of the proportion (in % by weight based on the dry pulp of the respective fiber layer) of the pigment 3 contained in the first and second fiber layer with a refractive index of greater than 2.0 is shown as an example. From the exemplary course of the proportion of pigment 3, it can be seen that this is significantly above 5 % by weight in the first fiber layer 2 and below 5 % by weight in the second fiber layer 4. In the border area between the two fiber layers, there is a certain penetration of the paper fibers (not shown) of the first fiber layer 2 into the second fiber layer 4 and vice versa, whereby the mechanical entanglement of these paper fibers of the individual fiber layers with one another results in a firm bond between the two fiber layers in the decorative base paper 1. In the boundary area between the two fiber layers, there is also a slight penetration of the pigment 3 with a refractive index greater than 2.0 contained in the first fiber layer 2 into the second fiber layer 4. For this reason, a certain proportion of the pigment 3 with a refractive index greater than 2.0 is present in the second fiber layer. However, this amounts to less than 5% by weight based on the dry pulp of the second fiber layer 4.

examples pulp suspension for the first fiber layer

A pulp suspension was prepared by grinding a pulp mixture of 80% by weight eucalyptus pulp and 20% by weight pine sulphate pulp at a consistency of 5% to a degree of grinding of 33°SR (Schopper-Riegler). 1.8% by weight epichlorohydrin resin was then added as a wet strength agent. This pulp suspension was adjusted to a pH value of 6.5 with aluminium sulphate. A mixture of 30 wt.% titanium dioxide and 5 wt.% talc, 0.11 wt.% of a retention aid and 0.03 wt.% of a defoamer are added. The weight information refers to the weight of the pulp (dry).

pulp suspension for the second fiber layer

A pulp suspension was prepared by grinding a pulp mixture of 80% by weight eucalyptus pulp and 20% by weight pine sulphate pulp at a consistency of 5% to a degree of grinding of 33°SR (Schopper-Riegler). 1.5% by weight epichlorohydrin resin was then added as a wet strength agent. This pulp suspension was adjusted to a pH of 6.5 using aluminium sulphate. A mixture of 10% by weight silica (Aerosil 300) and 5% by weight calcined kaolin (Ansilex 93), 1% by weight CaCl2, 0.11% by weight of a retention aid and 0.03% by weight of a defoamer was then added to the pulp suspension. The weights refer to the weight of the pulp (atro).

On a paper machine with a double wire section, the two pulp suspensions were used on one wire section each and a decorative base paper was produced with a basis weight and ash content corresponding to the values given in Table 1. This is a decorative base paper in which the first and second fiber layers are mechanically firmly connected to one another via the paper fibers.

The resulting decorative base paper and the comparison papers were printed using an ink-jet digital printing system from Palis (digital printing system palis 2250) and using commercially available, aqueous ink-jet inks. The color density and print sharpness as well as the penetration and air permeability of the printed decorative base papers were determined in the laboratory.

Results

The test results in Table 1 show that the decorative base papers 1 and 2 according to the invention have a high opacity and can also be easily impregnated.

Compared to a commercially available bright decorative base paper (decorative base paper 3 in Table 1), the examples according to the invention exhibit significantly higher print sharpness and higher color densities.

Compared to a commercially available light decorative base paper with a color-receiving layer (decorative base paper 4 in Table 1), the print sharpness and color density are comparable. However, decorative base paper 4 shows significantly poorer impregnation behavior and lower air permeability than the decorative base papers 1 and 2 according to the invention, which is disadvantageous when processing the papers.

With the decorative base papers according to the invention it is therefore possible to overcome the disadvantages of commercially available decorative base papers of the state of the art. <b>Table 1</b> decorative base paper 1 - decorative base paper 2 Decorative base paper 3 - comparison (MPK TC5151; Schoeller Technocell GmbH & Co. KG) Decorative base paper 4 - comparison (MPK TC9650; Schoeller Technocell GmbH & Co. KG ) basis weight [g/m ² ] 70 90 70 90 ash content [%] 30 30 30 31 opacity 94 94 94 94 color receiving layer [yes/no] no no no Yes air permeability Gurley 13 17 16 34 penetration [s] 2 3 3 13 color density magenta 1.4 1.5 0.6 1.4 color density yellow 0.8 0.9 0.7 0.9 color density cyan 1.3 1.4 1.1 1.4 color density black 1.8 1.9 1.1 1.8 print sharpness 1 1 4 1

measurement methods basis weight

The basis weight was determined according to DIN EN ISO 536.

air resistance according to Gurley

The purpose of the test is to characterize the porosity of the paper structure and thus its impregnation capacity. The time required for a certain amount of air to flow through a paper surface at a constant pressure is measured. The measurement is carried out in accordance with ISO 5636-5 (2014) using the Densometer 121D from Lorenzen & Wettre. The measured values are given in Gurley seconds/100 ml. Values less than 25 s/hml indicate paper with very good air permeability. Values higher than 60 s/hml indicate a compacted structure and thus poor permeability.

opacity

The opacity was determined using an ACE colorimeter from Data Color according to DIN 53146. The lower the value, the less opaque the paper and the more transparent it is.

penetration

The penetration test is used to determine the behavior of the decorative base paper during impregnation. The penetration is the time in which the paper is saturated with resin perpendicular to the paper plane. To do this, a 70x70 mm sheet of decorative base paper is placed in a resin bath with the decorative side (side to be printed) facing upwards. The time from placing the sheet until it is completely saturated is recorded. A resin solution with 52% by weight resin is used for the resin bath. It is produced by dissolving powdered melamine-formaldehyde resin (Kauramin 773) in distilled water heated to 45 °C.

In order to ensure impregnation in conventional processes without restrictions in the process parameters, a value of less than 10 s must be achieved.

color density

The image quality is assessed by measuring the color density for the primary colors cyan, magenta, yellow and black. The color densities are measured using the SpectroEye densitometer from x-rite. Starting from zero, increasing values mean increasing color density.

print sharpness

The visual analysis of the print sharpness of the printed papers was carried out using a panel of three independent observers. Each of the three people gave a rating between 1 (very good) and 6 (very poor) according to the ink dot fineness. The print sharpness values given in the table represent the average of these three independent ratings.

Claims (14)

1. Decorative base paper for decorative coating materials,
   characterized in that the decorative base paper comprises two stock layers, the first stock layer having more than 5 wt.% of at least one pigment having a refractive index of greater than 2.0, based on the dry pulp of the first stock layer, and the second stock layer having less than 5 wt.% of at least one pigment having a refractive index of greater than 2.0, based on the dry pulp of the second stock layer, the second stock layer containing at least 1 wt.% of at least one pigment having a refractive index of less than 2.0, based on the dry pulp of the second stock layer.
2. Decorative base paper for decorative coating materials according to claim 1, characterized in that the at least one pigment having a refractive index of less than 2.0 in the second stock layer has a specific surface area of at least 50 m²/g according to DIN ISO 9277.
3. Decorative base paper for decorative coating materials according to claim 1 or claim 2, characterized in that the second stock layer can be printed with a pattern, in particular by means of the ink-jet printing process.
4. Decorative base paper for decorative coating materials according to any one of the preceding claims, characterized in that the second stock layer additionally contains dye fixative substances selected from salts and/or cationic polymers.
5. Decorative base paper for decorative coating materials according to claim 4, characterized in that the proportion of salts and/or cationic polymers in the second stock layer is at least 0.5 wt.%, based on the dry pulp of the second stock layer.
6. Decorative base paper for decorative coating materials according to any one of the preceding claims, characterized in that the second stock layer has a basis weight of at most 100 g/m².
7. Decorative base paper for decorative coating materials according to any one of the preceding claims, characterized in that the first stock layer has a basis weight of at least 40 g/m².
8. Decorative base paper for decorative coating materials according to any one of the preceding claims, characterized in that the first stock layer has more than 15 wt.% of the at least one pigment having a refractive index of greater than 2.0, based on the dry pulp of the first stock layer.
9. Decorative base paper for decorative coating materials according to any one of the preceding claims, characterized in that the opacity of the decorative base paper is at least 80% according to DIN 53146.
10. Method for producing a decorative base paper according to any one of the preceding claims, comprising the following steps:

    a) forming a first stock layer in a first wire section of a paper machine, wherein the first stock layer has more than 5 wt.% of at least one pigment having a refractive index of greater than 2.0, based on the dry pulp of the first stock layer,

    b) forming a second stock layer in a second wire section of the paper machine, wherein the second stock layer has less than 5 wt.% of at least one pigment having a refractive index of greater than 2.0, based on the dry pulp of the second stock layer,

    c) combining the first and the second stock layer to form a decorative base paper.
11. Method for producing a decorative base paper according to claim 10, characterized in that dewatering and drying take place after step c).
12. Method for producing a decorative base paper according to claim 10 or claim 11, characterized in that the paper machine is a paper machine having a double wire section.
13. Use of a decorative base paper according to any one of claims 1 to 9 for producing decorative coating materials.
14. Decorative coating material, comprising a decorative base paper according to any one of claims 1 to 9.

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