SE534211C2 - Process for making a substrate containing regenerated cellulose and a substrate made according to the process - Google Patents

Abstract

The invention relates to a process for manufacturing a substrate wherein the process comprises the steps of providing a substrate containing cellulose fibers, adding a solution containing dissolved and / or partially dissolved fibers to the surface of the substrate and adding a solution containing a regeneration solution to the surface of the substrate so that they dissolve or partially dissolve. fi brer regenerates on the surface of the substrate and then dries the substrate to form a dry substrate. The invention also relates to a substrate made according to the process.

Description

20 25 30 35 534 2'l'l carton which will improve the properties of the paper or carton required by different types of printing methods.

WO2007 / 003699 describes the dissolution and regeneration of cellulose fibers. The regenerated cellulose fibers are then coated on the surface of the paper.

However, it is difficult to handle a solution of regenerated cellulose. The regenerated cellulose polymers, particles or fibers are often unstable when in solution. The solution containing regenerated cellulose can also have problems with rheology, which makes it difficult to apply regenerated cellulose to a surface and this then gives rise to runnability problems. Another problem is that a small amount of dissolved and / or partially dissolved fi brers can regenerate, ie the yield can be very low. In addition, there may be a large amount of dissolved sugar or polysaccharides present which may give rise to problems later in the process, such as problems with high BOD or COD levels.

Thus, there is a need for an improved process for providing a surface of a regenerated cellulose substrate.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a process for manufacturing a substrate containing regenerated cellulose in an improved manner.

Another object of the present invention is to provide a substrate with improved mechanical properties, such as strength and rigidity.

These objects and other advantages are achieved by the process of claim 1.

By adding a solution containing dissolved and / or partially dissolved fibers and a regeneration solution to the surface of the substrate, it is possible to regenerate the cellulose on the surface and thus it is possible to provide a surface of a substrate with regenerated cellulose in a simple and improved manner.

This is achieved by the independent requirements and preferred embodiments of the process they ide are initiated by the independent requirements. The invention relates to a process for manufacturing a substrate, the process comprising the steps; providing a substrate containing cellulosic fibers, adding a solution containing dissolved and / or partially dissolved fibers to the surface of the substrate and adding a regeneration solution to the surface of the substrate so that the dissolved or partially dissolved fibers regenerate on the surface of the substrate, followed by drying the substrate . In this way, it is possible to provide a surface of a substrate with regenerated cellulose in a simple and efficient manner. The regenerated cellulose may preferably be in the form of polymer, particles or fibers which during formation will be incorporated into the support structure of the surface of the substrate. In this way, stronger bonds are formed between the regenerated cellulose and the fibers or other components of the paper, such as fillers, in the substrate compared to if regenerated cellulose particles are added to the surface. In addition, the complicated storage and application of regenerated cellulose to a surface as well as the retention of small regenerated sugars or polysaccharide molecules is avoided.

The solution containing dissolved erbres and / or partially dissolved fibres can be added to the surface before adding the regeneration solution. It is also possible to first add the regeneration solution to the surface of the substrate followed by the addition of the solution containing dissolved and / or partially dissolved fi bres. In both cases the regeneration of the dissolved and / or partially dissolved sker takes place on the surface of the substrate.

The concentration of dissolved and / or partially dissolved fi fibers in the solution containing dissolved and / or partially dissolved fibers may be between 0.01-50% by weight but preferably between 0.1-5% by weight.

If the cellulose is dissolved and / or partially dissolved in an alkaline solution, it is possible to regenerate the cellulose by adding a solution with a low pH, preferably a solution with a pH below 6. The regeneration solution may be an acid or another chemical solution. The acidic solution may preferably be citric acid, phosphoric acid, sulfuric acid, acetic acid, hydrochloric acid. A low pH solution such as polyaluminum chloride (PAC) or polyaluminum nitrate (PAN) can also be used.

If the cellulose is dissolved and / or partially dissolved in an acidic solution, it is possible to regenerate the cellulose by adding a solution with a higher pH, preferably with a pH above 8. The regeneration solution can thus be an alkaline solution, preferably sodium hydroxide.

It is also possible to provide a surface of a substrate with more than one layer of regenerated cellulose. This can be done by adding a second solution containing dissolved and / or partially dissolved fibers and a second regeneration solution so that two layers of regenerated cellulose are formed on the surface of the substrate. It is also possible to provide the substrate with three, four or more layers of regenerated cellulose in the same way.

The present invention also relates to a substrate made according to the process mentioned above. The substrate is preferably a pressure substrate. The substrate can also be a packaging material used in the formation of various packages. When regeneration of the dissolved and / or partially dissolved fibers takes place on the surface of the substrate, the regenerated cellulose polymer, particles or brims will be incorporated into the fibrous structure on the surface of the substrate and thus bind more strongly to the surface of the substrate. The substrate may also comprise various salts which are formed during the regeneration of cellulose and which are preferably not washed away from the substrate.

Detailed Description The invention relates to a process for the manufacture of a substrate by the addition of a solution containing dissolved and / or partially dissolved salts and a regeneration solution which will regenerate the dissolved and / or partially dissolved salts on the surface of the substrate. The regenerated cellulose polymer, particles or fi forms a macro, micro or nanostructure on the surface of the substrate and this will improve the printing properties of the substrate.

It has been found that the formation of regenerated cellulose polymer, particles or fibres on the surface of a substrate increases the bond between the fi structure on the surface of the substrate and the regenerated cellulose. When the formation takes place on the surface, the regenerated cellulose polymer, particles or brims will be incorporated into the berry structure of the surface of the substrate and the bond will thus become stronger. In addition, the regenerated cellulose will act as a binder, increasing the wet strength of the substrate and reducing dusting problems.

It is also possible to modify the charge of the surface of the substrate.

For example, by regenerating the dissolved and / or partially dissolved fi brema by the addition of acidic chemicals, such as PAC or PAN, the regenerated cellulose will be cationic and thus. By adding the cationically regenerated cellulose, the surface of the substrate will be slightly cationic or amphoteric. This is advantageous when the substrate is printed with anionic ink, for example ink for ink jet printing. The anionic ink will bind better and stronger to the cationic surface of the substrate.

The process according to the invention makes it possible to modify the charge in an easy way. When the regeneration of the dissolved and / or partially dissolved salts takes place on the surface, it is possible to modify the regenerated cellulose by adding chemicals to the surface. This avoids the risk of the chemicals reacting in an undesirable way before they are added to the surface.

During the regeneration of cellulose, other components, such as salts, are also formed. Previously, these components were normally washed away before adding the regenerated cellulose to a substrate. However, it has been found that it is advantageous to retain these components on the surface of the substrate. The components are mostly different types of salts and these are good for destabilizing black particles. If the regeneration solution contains sodium hydroxide or calcium hydroxide, sodium salts and calcium salts will be formed. The process according to the invention thus also facilitates the addition of components such as salts to the surface of the substrate.

The substrate according to the invention will have a strong surface as the regeneration of the dissolved and / or partially dissolved brides takes place on the surface and the bonding between the regenerated cellulose or pigments and the bricks of the surface of the substrate will increase. The mechanical strength of the surface of the substrate will increase the strength of the entire substrate. It is also possible to reduce the strength of the untreated substrate and still obtain a sufficiently strong substrate. The substrate is preferably a paper or board. The substrate is preferably a printing substrate which will be printed in a subsequent printing process. The substrate can also be a packaging material used to form various packages.

The dissolved fibers can be made by any known method. It is advantageous to use a process that requires little energy. The amount of dissolved fi brie solution containing dissolved fi bres may be between 0.01 -50% by weight but it is preferred that the concentration be between 0.1-5% by weight. Higher concentration can increase the viscosity too much and thus make it difficult to add the solution to the surface of the substrate. However, too low a concentration can increase the amount of water added to the substrate.

It is preferred that the solution mostly contains dissolved fibres but it is also possible to regenerate partially dissolved fibres on the surface of the substrate. The solution added to the surface of the substrate may thus contain partially dissolved substitutes or dissolved solvents. Partially dissolved bras are made by stopping the dissolution process before the bras are completely dissolved. These partially dissolved cells may be swollen or expanded and may also regenerate by the addition of a regeneration solution.

The amount of regenerated cellulose on the surface of the substrate is preferably between 0.01-2 g per side of the substrate. However, the amount varies depending on the desired properties of the final product.

The regeneration solution is a low pH solution or a high pH solution. Depending on the pH of the partial or complete dissolution of cellulose fibers, ie if the pH is alkaline or acidic, the regeneration solution must be neutral or of opposite pH in order for the dissolved and / or partially dissolved acids to regenerate. The regeneration solution may have a pH below 6, preferably between 2-. If an acidic regeneration solution is to be used, it is preferred to use sulfuric acid, but other acids such as acetic acid, citric acid, phosphoric acid or hydrochloric acid may also be used. In addition, a low pH solution such as polyaluminum chloride (PAC) or polyaluminum nitrate (PAN) can also be used.

Other examples of possible chemicals are; sodium orthoborate (borax), sodium bisulate, sodium bicarbonate, sodium dihydrogen phosphate, carbon dioxide or a combination of two or two of these substances. Acidic salts of weak bases and strong acids such as ammonium sulfate, aluminum sulfate and the like can also be used alone or in combination with any of the substances mentioned above.

It is also possible to use water as a neutralizing medium.

The regeneration solution may have a pH above 8, preferably between 10-12. If an alkaline regeneration solution is to be used, it is preferred to use sodium hydroxide but other alkali solutions such as calcium hydroxide may also be used.

One side of the substrate can be treated with the solution containing dissolved and / or partially dissolved och bres and a regeneration solution. However, it is also possible to treat both sides of the substrate.

It is preferred that the solution containing dissolved and / or partially dissolved salts and the regeneration solution be sprayed on the surface of the substrate.

However, most other methods of applying the solutions can also be used, for example by means of rollers in combination with one or more presslm presses, by means of spray nozzles positioned in one or fl your lines across the substrate, with spray nozzles adapted for dosing at least two components , using curtain coaters or a combination of any of these methods. If a curtain coater is used, it is possible that two or more curtains come from the same coater.

The solution containing the dissolved and / or partially dissolved solution and the regeneration solution can also be applied by means of a sheet or roll-fed printing press or conversion machine. An offset, exogra or ink jet printing press can, for example, first print the solution containing dissolved and / or partially dissolved tablets and then transfer the regeneration solution to the surface and thus form a wet in wet application step before a third layer is applied without or with intermediate drying.

It may also be possible to use on-site spray systems to dispense the solution containing dissolved and / or partially dissolved salts and the regeneration solution. The treatment can then be followed by drying or alternatively impact or impact release printing.

It is possible to first add the solution containing dissolved and / or partially dissolved salts to the surface of the substrate followed by the addition of the regeneration solution. However, it is also possible to first add the regeneration solution to the surface of the substrate followed by the solution containing dissolved and / or partially dissolved fi bres. Either way, the regeneration of the dissolved and / or partially dissolved fibres will occur on the surface of the substrate. By adding the two solutions separately, the problems of storing regenerated cellulose are avoided.

It may also be possible to mix the solution containing dissolved and / or partially dissolved salts with the regeneration solution just before adding to the surface of the substrate. In this way, the regeneration of the dissolved and / or partially dissolved fibers will take place just before addition or during addition of the solutions to the surface of the substrate.

It is also possible to make multilayer coatings with the process according to the invention, ie to make more than one layer with regenerated cellulose.

This can be done by adding more than one solution containing dissolved and / or partially dissolved fibers and more than one regeneration solution. In this way, a substrate with fl your layers of regenerated cellulose will be formed.

When a printing substrate is manufactured, it may be necessary to provide the substrate with a large amount of regenerated cellulose to obtain the desired printing properties. It can be difficult to add large amounts of regenerated cellulose in one step and it is therefore sometimes necessary to add more than one layer of regenerated cellulose to the surface of the substrate.

It is also possible to coat the substrate with a conventional coating before and / or after coating with the regenerated cellulose. This can be done to further improve the printing properties of the substrate.

After addition of the solution containing dissolved and / or partially dissolved fibers and the regeneration solution, the substrate is dried to form a dry substrate. All known processes for drying cellulose substrates can be used.

The substrate may contain other components commonly used in papermaking, such as sizing agents, fillers, OBA and other additives.

It is possible to add other components or additives separately or together with either the solution containing dissolved and / or partially dissolved or the regeneration solution. For example, it may be preferable to add starch together with the solution containing dissolved and / or partially dissolved broths which may further improve the properties of the substrate.

The substrate contains cellulose fibers and this includes not only cellulose fibers but all components derived from cellulose fibers.

Examples of such components are micro-glass cellulose (nanocellulose) or regenerated cellulose.

The dissolved and / or partially dissolved fibers may be cellulosic fibers from deciduous and / or softwood. However, other fibers can also be dissolved and / or partially dissolved and regenerated on the surface of a substrate. Examples of such berries may be plant berries such as berries from various cereals, baguettes, starch berries or other similar berries.

The substrate may contain leaves from deciduous and / or softwood. The substrate may contain chemical and / or mechanical pulp. Since the generation of the dissolved and / or partially dissolved fibres takes place on the surface of the substrate, the regenerated cellulose pigments or fibrers will bind more tightly to the surface of the substrate and thus become incorporated in the fi structure on the surface of the substrate. It is preferred that the substrate be a pressure substrate.

The pressure substrates according to the invention show improved pressure properties as both regenerated cellulose and sometimes also other components, such as various salts, can be present on the surface of the pressure substrate. The ability to modify the charge of the regenerated cellulose pigments or burners also makes it possible to improve the ability of the printing substrate to absorb ink in a desired manner. It is also possible that the substrate is a packaging material.

It may also be possible to add chemicals which will react to elevated temperature and / or reduced dry matter content and it is then possible to check that the regeneration of cellulose fibers or pigments takes place during the drying of the substrate. There are a number of different chemicals, such as different polymers and surfactants that are sensitive to changes in temperature and their properties change with increasing temperature and regeneration of the cellulose will then take place.

Claims (11)

11 Claims

1. A process for the production of a substrate which processcomprises the steps of: - providing a substrate comprising cellulosic fibres, - adding a solution comprising dissolved and/or partly dissolved fibresto the surface of the substrate, - adding a regeneration solution to the surface of the substrate so thatthe dissolved and/or partly dissolved fibres regenerates on the surface of thesubstrate, - drying the substrate.

2. The process according to claim 1 characterized in that the solutioncomprising dissolved and/or partly dissolved fibres is added to the surfacebefore the regeneration solution.

3. The process according to claim 1 characterized in that theregeneration solution is added to the surface before the solution comprisingdissolved and/or partly dissolved fibres.

4. The process according to any of the preceding claims characterizedin that the concentration of the dissolved and/or partly dissolved fibres in thesolution is between 0.01-50% by weight, preferable between 0,1-5% byweight.

5. The process according to any of the preceding claims characterizedin that the regeneration solution has a pH below 6.

6. The process according to any one of claims 1-4 characterized in thatthe regeneration solution has a pH above 8.

7. The process according to any of the preceding claims characterizedin that the process further comprises the steps of: - adding a second solution comprising dissolved and/or partly dissolvedfibres to the surface of the substrate, 12 - adding a second regeneration solution to the surface of the substrateso that a second layer of regenerated cellulose is formed on the surface ofthe substrate.

8. The process according to claim 7 characterized in that the processfurther comprises the steps of: - adding a third solution comprising dissolved and/or partly dissolvedfibres to the surface of the substrate, - adding a third regeneration solution to the surface of the substrate sothat a third layer of regenerated cellulose is formed on the surface of thesubstrate.

9. A substrate produced according to the process according to any ofclaims 1-8.

10. The substrate according to claim 9 wherein the substrate is aprinting substrate.

11. The substrate according to claim 9 wherein the substrate is apackaging material.