EP2683549A1

EP2683549A1 - Improved composite system for packaging

Info

Publication number: EP2683549A1
Application number: EP12707988.7A
Authority: EP
Inventors: Carsten Kaisig; Torsten Byl; Erhard Schwartz; Thomas Stumpf
Original assignee: SISI WERKE GmbH; Deutsche Sisi Werke Betriebs GmbH
Current assignee: Deutsche Sisi Werke Betriebs GmbH
Priority date: 2011-03-11
Filing date: 2012-03-08
Publication date: 2014-01-15
Also published as: PE20141443A1; CA2827259A1; BR112013023159A2; MA35028B1; AR085638A1; US20140044901A1; RU2013138179A; ECSP13012930A; ZA201306482B; KR20130133281A; EP2497636A1; AP4070A; KR101550874B1; WO2012123085A1; TW201236935A; US9359119B2; AU2012228732B2; UA110638C2; NZ614844A; MX341027B

Abstract

The invention relates to a multi-layer composite system suited for producing film packaging, for example, for food stuff. The multi-layer composite system is in particular suited for producing stand-up pouches, suited for packaging liquid food stuff, particularly drinks.

Description

Improved composite system for packaging

The present invention relates to a multilayer composite system, suitable for the production of film packaging, for example for food. Particularly suitable is the multilayer composite system for the production of stand-up pouches, suitable for packaging liquid foods, in particular beverages.

State of the art

Food packaging composed of composite systems, in particular stand-up pouches or stand-up pouches, are known. Typical composite systems for such stand-up pouches are generally adhesive-laminated and / or extrusion-laminated or coated, with metallic films in particular being present as a barrier layer support or as a layer for improving mechanical properties. Other layers of such laminates are plastic layers, which can be designed differently depending on the application. Typical here so far is the use of materials that are produced on a petroleum base and / or are not biodegradable or compostable

Such composite systems and stand-up pouches and production processes for stand-up pouches or other packaging systems are known, for example, from the prior art EP 2 223 866 A1, WO 2008/037447, or EP 0 600 502. The composite systems disclosed therein are not biodegradable, so that packaging produced therefrom can only be disposed of conventionally, while disposal by composting is not possible. At the same time, these composite systems use energy-consuming starting materials, such as metal foils, and moreover, they use petroleum-based materials. However, it is desirable, in particular in the food industry, to avoid ecologically compatible materials and in particular to dispense with the use of metal foils (since they are produced with high use of energy and other resources, such as water). In addition, compostability would open up a simple disposal route, as such laminates and packages can then be readily reused in accordance with the now widespread waste disposal systems. The use of materials based on renewable raw materials would also not burden the existing resources of oil and also contribute to the improvement of the C02 balance. WO2009 / 005947 A1, WO96 / 31303 A1, DE 202005011641 U1, JP2010069766A, CN2457074 and WO2008 / 037447 disclose packaging materials.

Object of the present invention

The present invention thus has as its object to provide a composite system, in particular suitable for producing a stand-up pouch, wherein the composite system has the necessary properties for producing such food packaging, such as stability, impermeability to liquids, gas transmission, etc., where largely ecologically compatible or biodegradable Materials should be used.

Brief description of the invention

This object is achieved by a composite system according to claim 1. Preferred embodiments of this composite system are given in the dependent claims 2 to 8 and the following description. Furthermore, the present invention also provides a food packaging, comprising the composite system according to one of claims 1 to 8. Preferably, this food packaging is a stand-up pouch.

Detailed description of the invention

The composite system in accordance with the present invention comprises as an essential component a layer of paper, and at least one barrier layer, characterized in that the composite system does not comprise a metal foil.

Further embodiments of the composite system according to the invention and associated advantages are listed below. The additional layers defined below, preferably used layer materials, layer thicknesses and further embodiments can be combined with one another as desired, the following specific layer sequences of the composite system according to the invention serve to describe and illustrate the present invention, but this is not limited to such specific examples.

Paper layer:

The composite system in accordance with the present invention has as a substantial layer a paper layer. This paper layer typically has a thickness in the range of 150 to 15 μm, preferably 100 to 25 μm, particularly preferably 80 to 30 μm, such as for example, about 35, 45 or 50 pm. According to the invention, any type of paper can be used, including papers with fillers, such as kaolin, talc, titanium dioxide, starch, calcium carbonate, etc. The paper to be used according to the invention can be uncoated or coated paper, with papers having very short fibers being preferred. Particularly preferred are transparent papers, eg glassine paper, a paper made from finely ground pulp.

The essential paper layer according to the invention is typically relatively far on the side of the composite system which is directed towards the finished food packaging, and the paper layer to be used according to the invention, in particular the preferred paper layer of glassine paper, contributes in particular to the mechanical strength and rigidity of the composite system of the present invention. The preferred use of glassine paper also leads, due to the transparency of this paper, that different types of printing are possible because, for example, reverse printing methods are possible in which the inside of the glassine paper layer is printed (the printed image then shines through the outside, so in particular Damage and abrasion on the printing on the outside of the paper layer can be avoided). The paper material of this layer can furthermore be equipped with additional additives, such as absorbers, etc. Thus, the contribution of this layer to the overall properties of the composite system can be optimized.

In addition, the use of paper layers makes it possible to make a contribution to climate protection, since renewable raw materials are used to produce the paper, including the glassine paper, so that an overall improvement in the C0 ₂ balance is made possible here.

Barrier layer:

Furthermore, the composite system in accordance with the present invention comprises at least one barrier layer. Here, depending on the desired configuration of the composite system, various options are possible, both with regard to the type of barrier layer, the position of the barrier layer in the composite system and also with regard to the number of barrier layers. The composite system of the present invention may comprise one or more barrier layers, such as one, two or three barrier layers. These may differ with regard to their type and position in the composite system. The barrier layer can be, for example, a barrier material layer and / or a sealing layer with barrier property and / or a lacquer layer, as described in each case below. Barrier material layer:

The first option is the provision of a barrier material layer on the inside of the food package in the paper layer described above. Such a barrier material layer in accordance with the present invention preferably comprises a carrier layer having a preferably vapor-deposited layer of barrier material. Alternatively, it is also possible to apply the layer of barrier material as a lacquer, as described below. In this case, the carrier layer is the main constituent of the barrier, since the preferably vapor-deposited layer of barrier material itself is only a few angstroms, or the lacquer layer provided as an alternative is also significantly thinner than the carrier layer. The carrier layer preferably comprises as main component a material which is biodegradable and / or produced from renewable raw materials. Particularly suitable materials as a carrier layer for the barrier material layer to be used according to the invention are polylactic acid materials and cellglass. Polylactic acid materials are already being used for film materials and packaging, for example as mulch film or for shopping bags. Other known applications of polylactic acids are disposable cutlery, straws and screw cap cans. Another preferred material for the barrier layer is cellophane, a material also known as cellulose hydrate or cellophane.

The preferred materials for the carrier layers of the barrier material layer of the present invention already have some barrier suitability, in particular to liquids. These barrier carrier layers typically have a thickness of about 10 to 100 μm, preferably 12 to 50 μm, particularly preferably 15 to 40 μm, for example about 25 μm.

In order to ensure the desired barrier property, however, it is necessary to provide the support layer defined above with a layer of barrier material. According to the invention, vapor-deposited barrier materials are used in particular since a desired barrier effect, in particular with respect to oxygen, C0 ₂ but also water vapor, can thus be ensured with a very thin layer (a few angstroms). According to the invention suitable barrier materials are vapor-deposited layers of (semi) metal oxides or (semi) metals, for example aluminum, Si0 ₂ , Al ₂ 0 ₃ , or other oxides and mixed oxides or mixtures. Preference is given to the oxide materials, since thus can be dispensed with in total on the use of a metal layer.

The vapor-deposited layer of the barrier material is preferably applied to one side of the carrier layer, but it is also possible to apply this vapor-deposited barrier on both sides of the carrier layer. The barrier, as defined above, comprising the carrier layer and the vapor-deposited layer of barrier material is preferably arranged in the composite system according to the invention such that the vapor-deposited barrier is present on the side of the carrier layer facing away from the paper layer. However, other configurations are possible. Often, due to considerations with regard to the manufacturing process (ie order of application / incorporation of the individual layers of the composite system), an arrangement is selected which ensures that the barrier material is covered as quickly as possible by a further layer to this relatively sensitive layer from damage to protect in the further manufacturing process.

According to the invention it is preferred if the above-defined barrier material layer is applied to the paper layer described above. In this case, customary adhesion-promoting layers can be applied therebetween, which typically have a thickness of less than 20 .mu.m, more preferably a thickness of from 1 to 10 .mu.m, particularly preferably from 2 to 5 .mu.m. Suitable materials and types of application for such layers are known to the person skilled in the art and suitable examples are adhesive layers (extrusion adhesive, laminating adhesive, etc.). Again, it is again preferred if the materials for such adhesive layers are biodegradable and / or on renewable resources

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based.

The preferred materials mentioned above for the backing layer, such as lactic acid materials and cellglass, furthermore make it possible to vapor-deposit very thin layers of barrier material because of their smooth surface obtained during film production, since no great compensation for a rough surface of the backing layer has to be created here. At the same time, the barrier materials described above adhere well to the carrier layer, thus ensuring reliable production of the barrier layer comprising the carrier layer and the vapor-deposited layer of barrier materials.

In addition to its barrier effect, this barrier layer also contributes to mechanical strength, but also to UV protection. By using fillers and additives, these properties can be further modified and optimized, using customary methods known to those skilled in the art. For example, materials have been used as UV absorbers or fillers to increase rigidity.

Another option of a barrier layer is a correspondingly configured sealing layer, which is described below.

Sealing layer:

Further, the composite system in accordance with the present invention comprises a sealant layer applied to one side of the above-described barrier material layer. This sealing layer is arranged to be the innermost of the constituent layers of the composite system, i. H. the sealing layer is typically directly the inner layer of a finished food package. Also, the sealing layer in accordance with the present invention is preferably made from biodegradable or preferably even compostable materials and / or materials based on renewable raw materials.

Preference is given in particular to polymeric materials based on polyesters, for example the polylactic acid materials already described above, but also PBAT (polybutylene adipate terephthalate) and other similar materials and mixtures thereof. For example, a material commercially available from BASF under the name Ecoflex® is suitable.

The sealing layer preferably has a thickness of about 10 to 200 μm, preferably 20 to 150 μm, particularly preferably 100 to 50 μm, for example about 90, 75 or 60 μm.

The sealing layer can also be provided again with additives and fillers as described above for the other layers. Once again, the properties of the composite system can be modified and optimized.

In order to securely apply this sealing layer to the above-described barrier layer, it is possible in turn to use a subbing layer, which is configured as already described above. To further improve the adhesion, additional techniques for improving the adhesion of the individual layers may also be used, such as surface treatments by means of a flashing process or corona discharge, etc.

Furthermore, the sealing layer described above may also be coated with barrier materials, preferably vapor-deposited. In this case, those already described above Materials are used, particularly preferred are again oxidic coatings, in particular SiO _x , AIO _x , mixtures thereof and other oxides. Such barriers can be applied again on one or both surfaces of the sealing layer, wherein, in particular for cost reasons, the application on a surface is usually sufficient. If the sealing layer described here comprises such a barrier layer, in embodiments of the present invention it is possible to dispense with the barrier material layer described above, since in this embodiment the sealing layer takes on the barrier effect so that a layer structure with a paper layer and a sealing layer provided thereon is possible, while still sufficient barrier properties and mechanical properties of the overall composite system can be achieved. By using the polyester materials described above, it is again ensured that the composite systems of the present invention consist essentially of materials that are at least biodegradable or preferably compostable.

Another option of a barrier layer is a lacquer layer, which is described below lacquer layer

Another option for a barrier layer is a lacquer layer that can be applied to the paper layer, for example. Suitable examples of lacquer layers are nitrocellulose-based lacquers. These can serve, for example, as a moisture barrier. Suitable application modes, layer thicknesses and materials for such layers are known to the person skilled in the art.

adhesive layers

If necessary, adhesive layers may be provided between the layers described herein to improve adhesion, using conventional adhesive materials known to those skilled in the art, for example the extrusion adhesives and laminating adhesives already mentioned above. Suitable materials are known to those skilled in the art and again it is to be stated that it is preferable if the materials for such adhesive layers are biodegradable and / or based on renewable raw materials. Such adhesive layers are preferably used between the paper layer and the barrier layer, in particular between a paper layer and a carrier layer which is part of a barrier material layer as defined above. Furthermore, adhesive layers are preferably provided between the sealing layer and the barrier layer, wherein it is again a preferred embodiment when such an adhesive layer is disposed between the sealing layer and the sealing layer. layer and the carrier layer of the barrier material layer is provided. However, it is also an option to provide an adhesive layer between the paper layer and the barrier layer or layer and the barrier layer so that this adhesive layer is provided in contact with the layer of barrier material. Such adhesive layers improve the adhesion of the individual layers of the composite system, but they can also additionally contribute to barrier properties, in particular against Sauerstoffpärmeation.

Shellac layer

Another option is the provision of additional shellac layers consisting essentially of shellac. Such shellac layers can be provided at arbitrary positions in the composite system and preferably these layers have a comparatively small thickness, typically less than 20μηι, preferably about 1 to 10 [im, particularly preferably 2 to 5 [im.

Such shellac layers may be provided between the paper layer and the barrier layer, between the barrier layer and the sealing layer, or else between the carrier layer and the layer of barrier material. One or more layers of shellac may be provided so as to further improve the barrier effect of the composite material of the invention.

The options described here for barrier layers can be used individually or in combination in the composite system according to the invention, depending on the desired application. The number of these layers can be chosen freely and, for example, one, two or three barrier layers can be present, which can be the same or different.

Overall, the present invention thus provides an improved composite system, suitable for the production of food packaging, in particular stand-up pouches, wherein the use of metal foils without adversely affecting the barrier properties and mechanical properties can be dispensed with and based essentially on renewable resources and / or biological degradable polymer materials are used.

In addition to the essential layers and optional subbing layers described above, the composite system of the present invention may include additional layers, such as a paint on the outer surface of the paper layer, or another sealant layers on the inside and / or outside of the composite system. Exemplary composite systems can therefore be constructed as follows (from outside to inside, based on a food packaging):

Lacquer / Paper Layer / Adhesive / Barrier Material Layer / Adhesive / Sealing Layer Paint / Paper Layer Adhesive / Barrier Material Layer / Adhesive / Sealing Layer with Barrier Material Paint / Paper Layer / Adhesive / Sealing Layer with Barrier Material Paper Layer / Adhesive / Barrier Material Layer / Adhesive / Sealing Layer Paint / Paper Layer / Barrier Material Layer / Sealing Layer

However, the present invention is not limited to these exemplary embodiments.

The composite system in accordance with the present invention is particularly suitable for the production of food packaging, especially for liquid or semi-liquid foods, preferably beverages, especially fruit juices and other fruit drinks. In particular, the composite system according to the invention makes it possible to produce a stand-up pouch by conventional production methods, so that food packaging can be provided which is essentially based on biodegradable raw materials and can be composted for disposal, for example.

Claims

claims

A composite system suitable for producing food packaging comprising a paper layer and a barrier layer, characterized in that the laminate does not comprise a metal foil and further characterized in that the barrier layer comprises a biodegradable material.

2. Composite system according to claim 1, characterized in that furthermore a sealing layer is present.

3. The composite system according to claim 1 or 2, characterized in that the barrier layer is applied to the paper layer and the sealing layer is applied to the opposite surface of the barrier layer.

4. Composite system according to one of claims 1 to 3, characterized in that the paper layer consists of transparent paper.

5. Composite system according to one of the preceding claims, characterized in that the barrier layer comprises a carrier layer and a vapor-deposited barrier material layer, wherein preferably the carrier layer of polylactic acid materials or cell glass and the barrier material layer consists of vapor-deposited (semi) metal oxides.

6. Composite system according to one of the preceding claims, characterized in that the paper layer has a thickness of 10 to 100 pm.

7. Composite system according to one of the preceding claims, characterized in that the sealing layer comprises a vapor-deposited barrier material layer.

8. Composite system according to one of the preceding claims, characterized in that between the paper layer and the barrier layer and / or between the barrier layer and the sealing layer, a adhesion-improving layer is provided.

9. Composite system according to one of the preceding claims, characterized in that one, two or three barrier layers are present.

10. Composite system according to one of the preceding claims, characterized in that compostable materials are contained, preferably that the composite system is compostable.

1 1. A food package, comprising the laminate according to any one of claims 1 to 8.

12. Food packaging according to claim 9, characterized in that it is a stand-up pouch.