DE19734941A1 - Process for making paper - Google Patents

Abstract

The invention relates to a method for producing paper, mat, laminate or similar material web (16) using a binder feeding mechansim (12) and by subsequent hardening, in particular of a material web (16) having high plybond strength which is then varnished. In this method, a water-dilutable acrylate in the form of a binder is fed to the material web at the binder feeding mechansim (12). The material web is then hardened by an electron beam, after the water content has been evaporated off. In accordance with the invention, after feeding the binder, or after the impregnation process, the material web (16) containing the noncrosslinked acrylate is dried and the water is evaporated from the binder, preferably an emulsion. The material web (16) is then printed and crosslinkage or polymerization begun. After printing, a varnish is applied that is capable of being hardened by an electron-beam. The material or paper web can be pressure-impregnated with the acrylate. The binder present in noncrosslinked residual paper, or the excess binder from the impregnating procedure, in particular acrylate emulsion, is preferably returned (18, 20, 28, 32) to the binder feeding mechansim (12).

Description

The invention relates to a method for producing Pa pier, paper fleece, laminate or the like. Material web with a Binder feed device and under the following hardness ten - especially one by means of a painting process further treated gap-proof material web - which at the Binder feeder a water-dilutable acrylate is supplied in the form of a binder, the so be acted material web after the water content evaporated is hardened with electron beam.

Such a method is described in DE 44 13 619 C2, the it can be seen that it is known, in particular as Cover films for abrasion, scratch and chemical resistant Coating for the wood-based panel industry used upcoming finish foils by painting substrates to manufacture. They are called fissure-proof paper and within papermaking in the paper machine through the use of hardenable mixtures of condensates on resins based on melamine and urea as well as acrylic lat dispersions on a as a binder feeder serving size press. The curing of such resin mixtures are thermal. To be less water to act and reduce drying capacity to be able, is proposed in DE 44 13 619 C2 the size press of the paper machine is a system of something Server-thinnable, electron beam curable acrylic in the form a dispersion, emulsion or solution. The Hardening takes place after the water content has evaporated the use of electron beam technology either directly in the paper machine or outside.

The inventor has set himself the task at the beginning to improve the described method further, esp in particular the printability and the deformability heights, and proposes as a solution the teaching of the independent  Claim before; the subclaims give favorable Wei training.

According to the invention, the material web is after feeding of the binder - especially after the acrylate impregnation tion - dried while removing the water from the binder evaporates. The product from this process step ent holds non-cross-linked acrylate and becomes - if necessary after one-sided calendering, d. H. Smooth over one Roller - subsequently printed; after printing advantageously a lacquer curable with an electron beam (ESH lacquer) applied as a top layer and then the Vernet tion or polymerization triggered.

The - preferably provided by pressure impregnation - Impregnation process should with polyester, epoxy, urethane or Full acrylate at room temperature, especially 200 to 400 m / min conveyor speed carried out as well Material web on a - advantageously a ver Chromed surface offering - heated roller contact be dried, this from about 20 to 25% water to 2 to 4% water.

The non-crosslinked material web will be good with preference Wettability and a smooth surface thanks to the Ka landrierens printed for example in the gravure printing process; the polymers increase flexibility and deformability ability / walkability of the material web and promote a clean Pressure training. The one in the usual way produced defects at the low pressure including a reduction in the conciseness or loyalty of the Playback - for example when printing with a wood pattern - no longer occur here.

It is clear that generally more flexible manufacturers tion and usage properties can be achieved.  

The recycling of the emulsion is of particular importance; the polymers present in uncrosslinked paper residues or the emulsion, dispersion or solution can also be used Binder feed device, in particular for the size press, be recycled, like those from the impregnation process excess polymer-containing emulsion.

The uncrosslinked paper residues are in the pulp and pig elements on the one hand and the emulsion of polymer and water on the other hand open minded, after which the emulsion for Imprä gnier operation is returned.  

Further advantages, features and details of the invention result from the following description more preferred Exemplary embodiments and with reference to the drawing; this each shows a schematic representation in

FIG. 1 shows a sketch of a paper machine for making paper with integrated size press;

Fig. 2: a detailed section in the area of the size press.

A paper machine 10 for producing paper or paper nonwoven - for example a weight of 45 g / cm ² - contains a size press 12 with here two rollers 14 for impregnating the continuous paper web 16 with acrylate. In the size press 12 , the paper web 16 between the rollers 14 is pressure-impregnated; the acrylate penetrates the paper pores or between the fibers as a prepolymer.

The impregnation can take place, for example, per m ² with 15 g of acrylic lat - about polyester, epoxy, urethane or full acrylate - and about 15 g of water per m ² at a speed of the paper web 16 of about 200 to 400 m / min at room temperature . The total water content of the impregnated paper produced in this way is approximately 20 to 25%.

This evaporates during a subsequent drying process Water from the emulsion; the acrylate is not yet ver nets. This drying is done by contact drying a steam-heated and chrome-plated roller, the What water content drops to 2 to 4%. The prepolymers are there not affected by.

Then a smoothing process takes place over another Roller (one-sided calendering).  

The non-crosslinked end product can then be printed on, for example by gravure printing; since the paper web 16 offers a smooth, dense surface with good wettability, especially in aqueous systems, the result is a clean pressure formation.

In particular in the case of single-color printing, the printing roller is used as Part of the coating system, e.g. B. for wood reproduction tion, designed in line.

After printing, an electron-curable topcoat, a so-called ESH lacquer, is applied to the paper web 16 by application rollers. Only then does the crosslinking or polymerization take place, preferably at about 170 kV with a penetration depth of about 150 micrometers.

The cross-linked web product produced in the manner described then looks, for example, as follows: on an underlying, impregnated paper layer of approximately 60 g / m ² is an - optionally multi-layer - color layer with a thickness of up to 2 micrometers of approximately 1 to 2 g / m ² , the top layer of ESH lacquer with 10 to 12 micrometers and 10 to 12 g / m ² . This end product can then e.g. B. with wood-based panels, such as chipboard, plywood, medium density (MDF) or high density (HDF) fiber boards with the help of adhesive.

It is particularly important that thanks to the described Process with a condensation resin-free and formalde hydrated dispersion, suspension or solution very good pro product properties can be achieved.

The method according to the invention also allows recycling of polymers or polymer-containing dispersions, emulsions or solutions in paper scraps; in paper production paper residues amount to up to about 10% of Ge velvet discharges, especially uncrosslinked scraps of paper at the end the smoothing process or printing.  

On the size press (size press) 12 , an overflow 18 for unnecessary binder, for example an emulsion (acrylate / water), is returned to a binder reservoir 20 as shown in FIG. 2; this results in a pure cycle of binders in a closed circuit.

The inlet 24 of the storage container 20 containing a metering valve 22 is connected to a mixing container 26 for raw materials, the underflow 28 with a filter 30 , which connects a return line 32 to the size press 12 .

The uncrosslinked paper residues are opened up and separated into

• - pulps and pigments as well
• - binders (e.g. emulsion; water and polymer),
  wherein the binder - as described - is recycled.

While within the scope of the invention, the mate not required rial back into the binder cycle has so far had to the - condensation resin - paper residue too high Ko should be disposed of as special waste.

Claims (17)

1. A process for the production of paper, paper fleece, laminate or the like. Material web with a binder feed device and with subsequent hardening, in particular a gap-resistant material web further treated by means of a painting process, to which a water-dilutable acrylate in the form of a binder is fed to the binder feed device. wherein the material web treated in this way is hardened with the electron beam after the water has evaporated, characterized in that after the addition of the binder, the non-crosslinked acrylate-containing material web is dried and the water is evaporated from the binder, that the material web is then printed on finally the crosslinking or polymerization is triggered. 2. The method according to claim 1, characterized by a Emulsion as a binder, preferably in a Size press is fed. 3. The method according to claim 1 or 2, characterized records that after printing one with electrons jet curable lacquer is applied, 4. The method according to claim 1 or 3, characterized records that the material or paper web with the Acrylate is pressure impregnated.   5. The method according to any one of claims 1 to 4, characterized characterized in that the impregnation process with poly ester, epoxy, urethane or full acrylate for room temperature temperature with a conveying speed of 200 to 400 m / min is carried out. 6. The method according to claim 4 or 5, characterized in that the impregnation with 10 g to 20 g, preferably with about 15 g, acrylate and 10 g to 20 g, preferably with about 15 g, water content per m ² paper web one Weight of 30 g to 60 g, preferably 45 g, takes place. 7. The method according to any one of claims 1 to 6, characterized characterized in that the paper web on a heated th roller, in particular a roller with chrome Surface that is contact dried. 8. The method according to claim 1 or 7, characterized records that the paper web of about 20 to 25% Water content dried to 2 to 4% water content becomes. 9. The method according to claim 1, characterized in that the paper web is calendered before printing becomes. 10. The method according to any one of claims 1 to 9, characterized draws by applying pigmented or transparent electron beam curable lacquer (ESH- Varnish) after the printing process. 11. The method according to at least one of claims 1 to 10, characterized in that the cross-linked paper web with an underlying impregnated paper layer on top of a possibly multilayer Color layer and a covering layer covering this is made from ESH lacquer.   12. The method according to claim 11, characterized by a paper layer with about 60 g / m ² , a color layer to about 2 microns and a cover layer of 10 to 12 g / m ² . 13. Process for the production of paper, paper fleece, La minat or the like. Material web, especially one by means of of a painting process treated gap-resistant Paper web, which is a water-dilutable, electron radiation-curable acrylate in the form of an emulsion, one Dispersion or a solution is supplied, esp special procedure according to one of the preceding Pa tent claims, characterized in that in unver existing paper residues or the polymer-containing emulsion for binder feeder tion can be returned. 14. The method according to claim 13, characterized in that excess bandage from the impregnation process medium, especially acrylic emulsion, recycled becomes. 15. The method according to claim 13 or 14, characterized records that the uncrosslinked paper residue in the cell fabric and pigments on the one hand and the emulsion on the other Polymer and water, on the other hand, are digested, after which the emulsion is returned to the impregnation process becomes. 16. The method according to any one of claims 13 to 15, characterized characterized in that the binder or the emulsion is returned through at least one filter. 17. The method according to any one of claims 12 to 15, characterized characterized in that the binder or the emulsion emulsion coming from a mixing container becomes.