奥地利专利AT518457A1 Packaging laminate with a carrier layer and a polyolefin layer

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专利摘要:
For a packaging laminate (1) with a carrier layer (2) made of aluminum and a polyolefin layer (3) with high bond strength connected therewith via an adhesive layer (4) or adhesion promoter layer (8), it is provided that the adhesive layer (4) or adhesion promoter layer (8 ) facing surface of the carrier layer (2) has a prepared by silicization or titanization modified surface layer (5).
公开号:AT518457A1
申请号:T50271/2016
申请日:2016-04-04
公开日:2017-10-15
发明作者:Dr Kornfeld Martin；Ing Robert Kitzberger Dipl；Resch Helmut；Teubenbacher Jasmin；Ing Schedl Adolf
申请人:Constantia Teich Gmbh；
IPC主号:

专利说明:

Packaging laminate with a carrier layer and a polyolefin layer
The subject invention relates to a packaging laminate with a carrier layer and a polyolefin layer connected thereto, as well as a production method for such a packaging laminate. Likewise, the invention relates to a deep-drawn packaging tray of such a packaging laminate.
In the packaging industry, film-like laminates are often used as a starting material for the production of packaging. Depending on the application, a variety of laminate structures come into question. Aluminum foil is used as a carrier layer in many packaging laminates because aluminum ensures excellent product protection, is easy to process and forms a barrier to external influences in packaging laminates. The support layer of aluminum is usually combined with other layers to the packaging laminate, wherein the other layers can be laminated with the aluminum layer or the other layers can be extruded on the aluminum layer in the case of plastics. When laminating, the connection is made by means of an adhesive. For use as a packaging laminate, of course, sufficient adhesion between the aluminum support layer and an associated plastic layer is required to prevent the packaging laminate from being delaminated or manually separated in use. In packaging laminates are most often polyolefins, such. Polypropylene (PP) or polyethylene (PE) in different types, for use. Therefore, in packaging laminates, on the one hand, special adhesives are used and, on the other hand, surface treatments such as e.g. a Flammbehand- treatment, corona treatment, surface chromating, etc., for use, in particular with increased demands on the delamination resistance. This made it possible to produce packaging laminates that met the requirements.
Due to stricter legal frameworks for packaging laminates, especially for food packaging, the choice of possible adhesives and / or the possibilities of surface treatment are considerably reduced.
For example, adhesives used hitherto, in particular based on epoxy resin, often contain bisphenol-A. Bisphenol-A, however, is a Group 3 chemical of the International Agency for Research on Cancer (IARC), i. not classifiable for human carcinogenicity, and is therefore undesirable in packaging laminates. There are also strict regulations regarding the permissible content of chromium in packaging and the handling of chromium compounds. The rules will be tightened even further. This makes the use of past adhesives and surface treatments difficult or impossible.
However, other possible adhesives do not achieve the required adhesion between the aluminum support layer and the associated polyolefin layer, especially when a manufactured package is treated in a sterilization process. Sterilization is carried out in an autoclave at typical temperatures of 121 ° C and higher and for periods in the range of 30 minutes (30-45 minutes). By the sterilization process, but also by the contents in a package itself, the adhesive is loaded, which reduces the adhesion and reduces the delamination resistance. The available adhesives, in particular, therefore do not offer the required sterilization resistance. Previous surface treatments to improve adhesion are either insufficient with such adhesives, e.g. a flame treatment or corona treatment, or not or only more limited possible, such. the chromating of the surface.
It is therefore an object of the subject invention to provide a packaging laminate with a support layer of aluminum and a polyolefin layer associated therewith, and an associated manufacturing method, which has sufficient adhesion between these layers.
This object is achieved according to the invention in that the carrier layer of aluminum is bonded to the polyolefin layer via an adhesive layer or adhesion promoter layer, the surface of the carrier layer facing the adhesive layer or the adhesion promoter layer having a modified surface layer produced by silicatization or titanization. The production process according to the invention is characterized in that an aluminum foil as a carrier layer is titanized or silicated on a surface, an adhesive is applied to the silicided or titanized surface and a polyolefin film is laminated onto the adhesive layer. Alternatively, an adhesion promoter and a polyolefin film are coextruded onto the carrier layer. By silicating or titanization sufficient bond adhesion between the support layer and the polyolefin layer can be built up in order to use the composite as a packaging laminate can. Above all, the modified surface layer increases the anchoring of the adhesive layer on the aluminum of the carrier layer, since it has been found that the packaging laminate delays primarily to aluminum. Quite essential, therefore, a sufficient bond adhesion after a sterilization process can be achieved, in particular also with filling material or simulant. Simulant is a mixture or solution that simulates a product in its chemical properties. These are, for example, mixtures of oils, vinegar, spices, citric acid, etc. In addition, by the Siikatisierung or titanization and the corrosion resistance of the packaging laminate can be increased.
The packaging laminate is thus particularly suitable for the production of packaging trays by a deep-drawing process. The packaging trays can then be filled with a filling material, sealed and sterilized.
If the polyolefin layer is multilayered, the properties of the polyolefin layer or of the packaging laminate can be adjusted flexibly.
For optical reasons, it is often preferred if a lacquer layer or protective layer of plastic is provided on the surface of the carrier layer facing away from the polyolefin layer. It is also advantageous if the surface of the carrier layer facing the lacquer layer or protective layer has a modified surface layer produced by silicatization or titanization in order to improve the adhesion between the carrier layer and the lacquer layer or protective layer.
In order to improve the adhesion to the polyolefin layer, it is advantageous if the surface of the polyolefin layer facing the carrier layer is corona or flame pretreated.
When using a polyurethane adhesive, an acrylate-based adhesive or a polyester-based adhesive, the requirements with regard to, in particular with regard to the food law, safety of the adhesive can be met.
In order to further improve the adhesion or to achieve an improved corrosion protection of the packaging laminate, the carrier layer may comprise a primer layer, wherein between the carrier layer and the primer layer another modified surface layer produced by silicization or titanization is provided.
The subject invention will be explained in more detail below with reference to Figures 1 to 5, which show by way of example, schematically and not by way of limitation advantageous embodiments of the invention. It shows
1 shows a laminated packaging laminate according to the invention,
2 shows an exemplary manufacturing process of such a packaging laminate,
3 shows a coextruded packaging laminate according to the invention,
4 shows an exemplary manufacturing process of such a packaging laminate, and FIG. 5 shows a carrier layer with additional primer layer.
FIG. 1 shows a laminated packaging laminate 1 according to the invention with a carrier layer 2 made of aluminum (layer thickness typically 60-160 pm) and a polyolefin layer 3 connected thereto (layer thickness typically 25-30 pm), in particular a layer of unrectified polypropylene (CPP). The lamination takes place by means of an adhesive layer 4, typically with a layer thickness of 4-8 pm or a basis weight of 4-8 g / m 2.
As adhesive for the adhesive layer 4 according to the invention is a polyurethane adhesive system, an acrylate-based adhesive or a polyester-based adhesive, typically as a 2-component adhesive, for use, and mixtures of such adhesives are conceivable. The adhesive could also be colored if necessary before the orders. However, the achievable adhesion between an aluminum layer and a polyolefin layer with an above-mentioned adhesive would not be sufficient for the requirements in a packaging laminate 1, in particular in a sterilization-resistant composite. Therefore, the surface of the aluminum support layer 2 facing the polyolefin layer 3 is silicided or titanized prior to lamination.
The silicatization or titanization is known to be a surface treatment in the form of a flame treatment in which a silicon compound such as a silane or a titanium compound as a titanium-containing chemical compound is blended in the fuel gas-air mixture for flame generation. The silicon compound or titanium compound thereby produces a thin (few nanometers), usually invisible to the naked eye, modified surface layer 5, e.g. an SiO x or TiO x layer, on the support layer 2, which increases the surface tension and thus the adhesive properties of the aluminum surface. Silicate or titanation is e.g. known from US 2005/0019580 A1.
By silicating or titanization, the adhesive properties of the aluminum surface of the carrier layer 2 are improved to such an extent that a sufficient adhesion between the aluminum support layer 2 and the polyolefin layer 3 is achieved with the abovementioned adhesives. In particular, the anchoring of the adhesive to the carrier layer 2 is improved , In this case, the bond strength is increased by up to 3 N / 15 mm in the case of silicatization and by up to 4 N / 15 mm in the case of titanization, as peel tests have shown. Thus, the required bond strengths, even after sterilization, of at least 6N / 15mm, or of at least 5N / 15mm after loading by a product or simulant, can be achieved, the associated maximum marking values are at about 7.5N / 15mm (at Silicatization) - 9N / 15mm (on titanization).
In a peel test, a test strip of the packaging laminate 1 is pulled apart at free ends of the carrier layer 2 and the polyolefin layer 3. The free ends are clamped in a tractor and pulled apart while measuring the force. With a width of the test strip of 15mm you get the specification of the bond strength with xN / 15mm. The specification of the bond adhesion is hereby the almost constant one
Peel value (Peelwert) and not the maximum Anreißwert that occurs at the beginning of the peel test as a force peak. As a rule, a number of peel tests are also carried out to determine the bond strength, and the required bond adhesion is determined as the mean value from the individual measurements.
Neither the silicatization nor the titanization produces substances or substance concentrations that would be banned in a packaging laminate 1, in particular in an application for the packaging of food, questionable or by statutory provisions. Likewise, the said adhesives are harmless in packaging laminates 1 and, in particular, bisphenol-A free adhesives are available.
The polyolefin layer 3 can additionally be corona- or flame-pretreated on the surface facing the adhesive layer 4 in a known manner, or else be silicided or titanized, which also increases the bond strength in the packaging laminate 1 on the plastics side. Likewise, the polyolefin layer 3 could be colored if necessary.
The polyolefin layer 3 could in this case also be multilayered, e.g. in a coextruded multilayer polyolefin film as the polyolefin layer 3. The multilayer polyolefin film may contain other materials than polyolefin in the core. However, the outer layers of the multilayer polyolefin film are made of polyolefin.
On the surface of the carrier layer 2 facing away from the adhesive layer 4, a colored or transparent lacquer layer 6 can also be provided. Possible lacquers for the lacquer layer 6 are one-component epoxy lacquer systems or one-component polyester lacquer systems. Preferably, the paint is applied with a grammage of 2.5 g / m 2 (dry). Instead of an outer lacquer layer 6, a protective layer of plastic such as polyester or polypropylene (e.g., unstretched polypropylene CPP) could also be laminated or extruded.
In order to improve the adhesion between the lacquer layer 6 or protective layer and the carrier layer 2, it is also possible to pretreat the lacquer layer 6 or the protective layer facing surface of the aluminum carrier layer 2 before painting by silicating or titanating in order also to adhere to the aluminum adhesion properties there improve.
Both the adhesive for the adhesive layer 4 and, if present, the lacquer for the lacquer layer 6 or the plastic for the protective layer are preferably resistant to sterilization in order to be able to produce sterilizable packaging from the packaging laminate 1. Sterilization-resistant means that the required bond strength is not lost due to the sterilization process, typically temperatures around 130 ° C for periods of 30 minutes.
The packaging laminate 1 is often deep-drawn into packaging trays, wherein the coating layer 6 or the protective layer of plastic forms the outside of the packaging tray and the polyolefin layer 3 faces the interior of the packaging tray. The polyolefin layer 3 can also form the function of a sealing layer for closing the packaging shell, for example with a closure plate. For this purpose it can also be provided that an oil layer 7 is preferably applied to the surface of the polyolefin layer 3 facing away from the adhesive layer 4 in order to enable the deep-drawing process. The oil is normally applied only shortly before thermoforming and distributed process-wise usually on the opposite surface of the packaging laminate 1. The oil for the oil layer 7 is often made of (medical) white oil and / or glycerol mono oleate and is preferably with a grammage of about 0.2 to 1 g / m 2, preferably 0.5 to 0.7 g / m 2. Alternatively, vegetable oils or dissolved vegetable waxes, e.g. Carnauba wax, used for this purpose.
FIG. 2 shows an exemplary manufacturing process for a laminated packaging laminate 1 according to FIG. An aluminum foil (carrier layer 2) is unwound from a roll 20 and fed to a coating unit 21 (optional) in which a lacquer layer 6 is applied to a surface of the carrier layer 2. The lacquer layer 6 is dried or polymerized in a following drying channel 22. Thereafter, the opposite surface is silicided or titanized in a surface treatment plant 23 to form the modified surface layer 5 on the aluminum support layer 2. The adhesive is applied to the modified surface layer 5 in an adhesive applicator 24. The applied adhesive is dried in a further drying channel 25. Since aluminum is combined with a polyolefin, only the dry lamination itself is an option since, in the case of wet lamination, the solvent could not or could not volatilize sufficiently quickly and bubble formation would occur. The carrier layer 2 treated in this way is then fed to a laminating unit 26. The laminating unit 26 is simultaneously supplied with a polyolefin film (polyolefin layer 3) from a roll 27. The lamination takes place in the laminating unit 26 between a pair of rollers which compresses the carrier layer 2 and the polyolefin layer 3. The finished packaging laminate 1 can then be wound onto a roll 28 and further processed by the roll 28. If the finished packaging laminate 1 is to be deep-drawn into a shell, cup or the like, it may be provided before deep-drawing to provide the free surface of the polyolefin layer with an oil layer 7.
Of course, the coating unit 21 may also be omitted if no lacquer layer 6 is desired or if the aluminum foil is already present with a protective layer of plastic. In particular, the protective layer of plastic could also be applied only after or simultaneously with the laminating of the polyolefin layer 3. It could also be provided, the support layer 2 on both sides to silicate or titanate.
FIG. 3 shows a coextruded packaging laminate 1 according to the invention. Here, the same layers are denoted by the same reference numeral, and the same applies to the one described above with respect to FIG.
The difference in the coextruded packaging laminate 1 is that an adhesion promoter layer 8 and the polyolefin layer 3 are coextruded onto the aluminum carrier layer 2, which is silicate-treated or titanized as described on the surface facing the polyolefin layer 3. This means that the adhesion promoter layer 8 and the polyolefin layer 3 are extruded onto the carrier layer 2 at the same time in an extruder. Due to the modified surface 5 of the carrier layer 2, sufficient composite adhesion to the carrier layer 2 can again be built up in the packaging laminate 1.
As adhesion promoter layer 8, preference is given to a polyolefin-based adhesion promoter, preferably a modified polypropylene compound, e.g. a maleic anhydride grafted polypropylene, for use.
A possible manufacturing process of the coextruded packaging laminate 1 is shown in FIG. Here, an aluminum foil on a roll 20 as a carrier layer 2 on a surface in a surface treatment plant 23 is titanized or silicided. The aluminum foil on the roll could already be painted on the opposite surface or coated with a plastic protective layer. Likewise, the aluminum foil before the surface treatment as described in Figure 3 could be painted or coated after an optional surface treatment with a protective layer of plastic. On the side with the modified surface layer 5, the adhesion promoter layer 8 and a polyolefin layer 3 or more polyolefin layer 3 ', 3 "are then extruded in an extruder 30.
The packaging laminate 1 can then be rewound on a roll 28 and fed to further manufacturing processes.
The protective layer could also be applied after laminating or after extruding the polyolefin film 3 in a subsequent operation.
Vorzusgweise the primer layer 8 and the polyolefin layer 3 are resistant to sterilization in order to produce sterilizable packaging from the packaging laminate 1 can.
The polyolefin layer 3 of the packaging laminate 1 is preferably a polypropylene (PP) polymer, e.g. from the group of PP homopolymers, PP random copolymers, PP block copolymers, HMS (high-melt strength) PP polymers, modified PP polymers. Mixtures of such PP polymers are also possible, the mixture also including fractions of other polyolefins, e.g. Polyethylene (PE), cyclo-olefin copolymers (COC), thermoplastic polyolefins (TPO) may contain. The polyolefin layer 3 may be unfilled, but may also contain conventional fillers, e.g. Talc, calcium carbonate (CaCO 3) and the like.
The polyolefin layer 3 could be multilayered in both the laminated and the coextruded packaging laminate 1 itself, as indicated in FIG. It could e.g. a first polyolefin layer 3 'with a second polyolefin layer 3 "and with the adhesion promoter layer 8 are coextruded. Thus, the various polyolefin layers 3 ', 3 "may have different properties, depending on the application and need. A first polyolefin layer 3 'could be e.g. an unfilled polyolefin layer and the second polyolefin layer 3 "is a filled polyolefin layer.
The outer layer of the polyolefin layer 3 in the packaging laminate 1, here e.g. the first polyolefin layer 3 'can again realize the function of a sealing layer. This polyolefin layer 3 'can therefore also be formulated, for example, in such a way that a more or less solid or easily peelable (peelable) seal is achieved for the consumer. This essentially also applies to the polyolefin layer 3 in the laminated packaging laminate 1.
In the case of coextruiderene additional functionalities could be realized, e.g. a coloring of a layer for optical reasons, moisture- or oxygen-absorbing additives, antimicrobial additives, etc.
Furthermore, the outermost layer of the polyolefin layer 3 may also have special release properties, e.g. to reduce or avoid the adhesion of contents, or to improve the emptying. For this purpose, this layer may also have surface structures, such as e.g. an embossing, exhibit. This also essentially applies to the polyolefin layer 3 in the laminated packaging laminate 1. For particularly aggressive, such as acidic products with low pH, or fat contents, the carrier layer 2 may also include an additional primer layer 9 for further improvement of adhesion or corrosion resistance as shown in Fig.5. This applies both to the laminated and to the coextruded packaging laminate 1. In this case, the primer layer 9, for example as an aqueous polymer solution in the form of a one-component, self-curing dispersion, would be silicided or titanized
Aluminum base support layer 2 ', on which a further modified surface layer 5' is provided, are applied. The primer layer 9 would then also be silicided or titanized to form the modified surface layer 5 of the carrier layer 2, whereupon the carrier layer 2 is joined to the polyolefin layer 3.

权利要求:
Claims (15)
[1]
claims
1. Packaging laminate with a carrier layer (2) made of aluminum, which is connected via an adhesive layer (4) or adhesion promoter layer (8) with a polyolefin layer (3), wherein the adhesive layer (4) or adhesion promoter layer (8) facing surface of the carrier layer ( 2) has a modified surface layer (5) produced by silicatization or titanization.
[2]
2. Packaging laminate according to claim 1, characterized in that the polyolefin layer (3) has a multilayer structure.
[3]
3. Packaging laminate according to claim 1, characterized in that on the polyolefin layer (3) facing away from the surface of the carrier layer (2) a lacquer layer (6) or protective layer of plastic is provided.
[4]
4. Packaging laminate according to claim 3, characterized in that the lacquer layer (6) or protective layer facing surface of the carrier layer (2) has a modified surface layer produced by silicization or titanization.
[5]
5. Packaging laminate according to one of claims 1 to 4, characterized in that the carrier layer (2) facing surface of the polyolefin layer (3) corona or flame pretreated or silicided or titanized.
[6]
6. Packaging laminate according to one of claims 1 to 5, characterized in that the adhesive for the adhesive layer (4) is a polyurethane adhesive, an acrylate-based adhesive or a polyester-based adhesive.
[7]
7. Packaging laminate according to one of claims 1 to 5, characterized in that a bonding agent polyolefin-based for the adhesive layer (8) is provided.
[8]
8. Packaging laminate according to one of claims 1 to 7, characterized in that the carrier layer (2) comprises a carrier layer (2 ') made of aluminum and a primer layer (9), wherein between the carrier layer (2') and the primer layer (9) another provided by silicatization or titanization modified surface layer (5 ') is provided.
[9]
9. A method for producing a packaging laminate (1) in the form of a carrier layer (2) made of aluminum, which is connected via an adhesive layer (4) with a polyolefin layer (3), characterized in that an aluminum foil as a carrier layer (2) on a surface for the formation of a modified surface layer (5) titanized or silikati- Siert, on the silicided or titanized surface, an adhesive is applied and on the adhesive layer (4) a polyolefin film is laminated.
[10]
10. A method for producing a packaging laminate (1) in the form of a support layer (2) made of aluminum, which is connected via a bonding agent layer (8) with a polyolefin layer (3), characterized in that an aluminum foil on a surface for forming a modified surface layer (5) is titanized or silicated, and coextruded onto the silicided or titanized surface is an adhesion promoter and a polyolefin film.
[11]
11. The method according to claim 9 or 10, characterized in that on the polyolefin layer (3) facing away from the surface of the carrier layer (2) a lacquer layer (6) or a protective layer of plastic is applied.
[12]
12. The method according to claim 11, characterized in that the lacquer layer (6) or the protective layer facing surface of the carrier layer (2) is titanized or silicated.
[13]
13. The method according to any one of claims 9 to 12, characterized in that on the titanized or silicated surface of the aluminum foil, a primer layer (9) is applied, which is titanized or silicided and then connected to the polyolefin layer (3).
[14]
14. Packaging tray produced by deep drawing a packaging laminate (1) according to any one of claims 1 to 8.
[15]
15. Packaging tray according to claim 14, characterized in that on at least one surface of the packaging laminate (1) an oil for forming an oil layer (7) is applied.

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引用文献:

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

ATA50271/2016A|AT518457B1|2016-04-04|2016-04-04|Packaging laminate with a carrier layer and a polyolefin layer|ATA50271/2016A| AT518457B1|2016-04-04|2016-04-04|Packaging laminate with a carrier layer and a polyolefin layer|

US16/089,719| US20190118513A1|2016-04-04|2017-04-03|Packaging Laminate Having a Carrier Layer and a Polyolefin Layer|

RU2018138578A| RU2694753C1|2016-04-04|2017-04-03|Packaging laminate with bearing layer and polyolefin layer|

AU2017245573A| AU2017245573B2|2016-04-04|2017-04-03|Packaging laminate having a carrier layer and a polyolefin layer|

CN201780020802.0A| CN109070532A|2016-04-04|2017-04-03|Packing laminated product with supporting course and polyolefin layer|

EP17716489.4A| EP3439867B1|2016-04-04|2017-04-03|Packaging laminate with a carrier coating and a polyolefine coating|

RS20200771A| RS60486B1|2016-04-04|2017-04-03|Packaging laminate with a carrier coating and a polyolefine coating|

PCT/EP2017/057856| WO2017174510A1|2016-04-04|2017-04-03|Packaging laminate having a carrier layer and a polyolefin layer|

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