DE10062417A1 - Heat-sealable multilayer films with defined gas permeability and their use as packaging material, in particular cheese packaging - Google Patents

Abstract

The invention relates to multiple layer films, comprising at least one outer seal layer, a < 10 mu m thick barrier layer consisting of a partially crystalline polyamide mixture of a xylylenediamine adipate and an aliphatic polyamide containing solid, nanoscale fillers as nucleation agents, which for the number-weighted average of all of the dispersed fillers have an extension of </= 10 nm for at least one dimension and an extension of at least 100 nm for another dimension 100 nm; and a plastic support layer, with the exception of a corresponding polyamide layer.

Description

The present invention relates to multilayer films with which not like as usual to minimize permeability to water vapor, gases and Aromas are targeted, but rather an attempt is made to maintain the filling quality balance with the natural environment.

Numerous products of everyday life and especially groceries are made industrially produced and packed in various types of film that are suitable for typical desired properties of the respective filling material as possible to get long period of time. The best-before date (MHD) is here Defines the day / month / year up to which a packaged product can be used safely det or can be consumed.

Nentwig describes the state of the art with regard to plastic film (Joachim Nentwig: Plastic foils, Carl Hanser Verlag 1994, Munich). specially Stoeckhert writes about polyamides (Dr.-Ing. Klaus Stoeckhert: Polyamide, Poly amide foils and polyamide composite foils, new packaging 8/1984), for poly propylene write Wagner u. Beckmann (H. Wagner and P. Beckmann: Oriented Polypropylene films, new packaging 2/1979) and plastic composite films Writes Hinsken (Dipl.-Ing Herrmann Hinsken: plastic composite films, new ones Packaging 2/1990).

The manufacture and use of heat-sealable packaging films serve the purpose of Production, maintenance, distribution and hygienic, informative self-service Marketing of food.

Different products place different demands on permeability speed of the packaging materials / foils to be used. Corresponding design specifications  in the development of combination films from commercially available individual films are taken into account and lead to success specific to the product.

The chip packaging, for example, in particular requires water vapor-tight packaging to maintain the crispness / crispiness. Biaxially oriented polypropylene films (BOPP) offer the ideal conditions for this, since their particularly high oxygen permeability of <1000 cm ³ / m ² . Their use is therefore widespread.

Pre-baked baguettes packed under atmospheric exchange Buns require gas-tight packaging so that the protective atmosphere is retained as a fungistatic and so that a product-deforming pseudo-vacuum is not created due to CO2 loss. EVOH-containing and other composite films with oxygen permeability <2.0 cm ³ / m ² × d have proven themselves for this.

These packaging examples almost present films for their manufacture unlimited international offer in variety and quantity.

In contrast, industrial production and packaging occupy a special position of natural cheese in pieces, slices or grated / grated if Depending on the variety, the ripening process varies in duration and intensity The time of packaging lasts (cheese packaging) and hermetically Bomb sealed packaging through the development of carbon dioxide would.

The composite films proven for this group of applications mainly consist of biaxially oriented polyamide (PAB) as occasionally also printed carrier film of 12 or 15 µ and 35 to 60 µ thick olefinic sealing layers and have oxygen permeabilities between 30 and 50 cm ³ / m ² .day .bar on. In exceptional cases, biaxially oriented polyester films (PET) are used in place of the PAB for particularly strongly gassing varieties or for products with a proven short shelf life, while accepting an increased risk of kink breakage compared to PAB, thus achieving an O2-Du of approx. 90 cm ³ / m ^2nd day bar.

The number of suppliers of PAB films is very limited and the PAB price level especially high. In addition, PAB is a hygroscopic substance with one for which Refinement process to repeat foils, defective dimensions stability. Although PET is cheaper, it is prone to buckling and permeable due to the fact that it is not uni in combination with olefinic standard sealing layers universally usable.

It was therefore the task to provide packaging films with a defined gas permeability, which can also be used for outgassing packaging goods such. B. natural cheese and do not contain a carrier film made of biaxially oriented polyamide. The entire film should ideally have the appropriate oxygen permeability, depending on the product, between 30 and 50 cm ³ / m ² .day.

According to the invention, this was achieved by a flat combination of 12 μ-PET, 20 μ-coex BOPP and 15 µ Homo-BOPP films as printed or unprinted carriers components with coextruded sealing layers made of polyolefins, adhesion promoters and special polyamide blends that already have a low layer thickness of <10 µ show similar barrier effects, such as 15 µ thick biaxially stretched PA6, in the for Cheese packaging mainly used combination films with polyolefini standard sealing layers.

The subject matter of the invention is therefore a multilayer film with an entire layer thickness in the range of 30 to 90 µm, the one or more layers of biaxial oriented polyethylene terephthalate (PETP) or polypropylene (PP) and one or several in the laminated, co-extruded polyolefinic sealing layer (Coex-PP), layer and layer of a mixture of layers of the same thickness partially crystalline polyamide and nanoparticle-containing aliphatic polyamide, with a single layer thickness of 2 to 7 µm. The total layer thickness of the Multi-layer film according to the invention is preferably 40 to 70 microns, the  one or more layers of the polyamide containing nanoparticles mixture, preferably 2 to 4 microns.

The multilayer films according to the invention have a defined oxygen permeability in the range between 20 and 60, preferably between 30 and 50 cm ³ / m ² .D.bar.

The multilayer films can have one or more layers in white or different colored colored included.

The nanoparticles are usually platelets made of aluminum silicate, the PA 6 have been added during the polymerization. Your size is below 800 nm, preferably in the range between 50 to 400 nm Nanoparticles usually in an amount of 1 to 5 wt .-%, based on the Total amount of components of the PA 6 / MXD 6 / nanoparticle layer.

The polyolefins in the sealing layer are preferably PE, PP, or EP copolymers Terpolymers.

The films according to the invention can of course also be in three or more layers Composite foils are used as an intermediate layer, whereby they have no seals have a task.

Another object of the invention is the use of the invention Multilayer films for the production of films, in particular packaging films, with printable on both sides.

Furthermore, the invention also includes the use of the described inventions Multi-layer films according to the invention as packaging films, in particular outgassing foods such as natural cheese or yeast. The invention is preferred appropriate packaging film used as cheese packaging.  

The novel coex seal containing the inventive barrier function Layers can be unexpectedly problem-free and with regard to barrier requirements manufacture in a targeted manner. They are new because they differ from standard thinking approaches not maximizing or minimizing with the commercially available standing commercial products is dealt with, but systematically on moderate barrier target.

The combination of PET and, in particular, BOPP carrier films with barrier functions containing coex sealing layers according to the invention surprisingly succeeds in industrially producing new packaging films suitable for the cheese industry, which offer the following economic, process and application-related advantages over the prior art:

• - lower manufacturing costs
• - lower price (DM / m ² )
• - optionally reducing the basis weight, increasing the area off prey
• - no hygroscopic component in the printing process
• - Greater security for repeat and passport maintenance in printing and casings tion
• - Poly embedded between polyolefins and protected from water absorption amid in the lamination process
• - Improved slidability and workability on vertical and horizontal working packaging machines
• - With BOPP reduced water vapor permeability (weight loss d. Pack)
• - Odor level reduced with BOPP due to alcohol-dilutable pressure Colours.

It was not expected that BOPP films would melt comparatively early (165 ° C) against the later melting PAB- (214 ° C) established in the cheese industry  and even PET films (240 ° C), due to the often poor temperature consistency of the sealing tools of packaging machines would be enforced.

The technical controllability of the only 3 to 5 μ was particularly surprising thick functional barrier layer and the marketable consistency of their Effect.

The combination films according to the invention are produced in accordance with known methods Techniques by adhesive lamination, sandwich coating or extrusion lamination of the printed or unprinted carrier film (BOPP or PET instead PAB) using after the coextrusion process, as in DE-A 196 27 905 manufactured special sealing layer films with integrated limited Barrier function, d. H. with the target deviating from DE-A 196 27 905, Do not maximize the barrier effect, but rather target the product requirements to adapt by the PA-provided with layer-structured nano-particles Minimize coex layer to thicknesses down to 3 µ, or with normal PA6 too is blending if the application-related small layer thickness is required production engineering problems stand in the way.  

Examples

The relevant properties of the inventions corresponding to the intended use Films according to the invention are checked by checking the oxygen permeability, cloudiness and seal strength (HDS) over a film-compatible temperature range (Sealing curve) determined. Product-specific suitability and suitability for ver Marketing and processing on packaging machines can thus be assessed.

The oxygen permeability is determined in accordance with draft DIN 53380 Part 3 using the carrier gas method. It is defined as the amount of oxygen that diffuses through a square meter of film at a differential pressure of one bar in a given climate in 24 hours. It is measured with the Ox-Tran 100 from Mocon Instrument. Unless otherwise specified, the oxygen permeability is given in cm ³ / m ² .d.bar at 23 ° C and 75% relative humidity.

The amount of light that the film has after fluoroscopy is given as cloudiness with a central beam as scattered light, based on the total through quantity of light entering, leaves again. The measurement is carried out in accordance with the ASTM test standard D 1003-61, Procedure A.

The force in N, based on the test strip width of 15 mm, is determined as the seal strength, which is required for the splitting separation of a seal seam produced under defined conditions (pressure, temperature, time).
Sealing conditions: pressure 5 N / cm ² , time 0.5 sec, temperature 105 to 170 ° C, graded five Kelvin.
Measuring devices: sealing device from Brugger
Test strip cutter: with a cutting width of 15 mm. Tensile strength testing machine with measuring range 10 N and pull-off speed 100 mm / min.
Qualitative assessment: The aim of the experiments were

• - Oxygen permeability 30 to 50 cm ³ / m ² .d.bar
• - turbidity <10%
• - Seal strength <20 N / 15 mm

All substances mentioned are commercially available commercial products.

Preparation example

On an eight-layer blown extruder instead of that for the production of Barrier PE used ethylene vinyl alcohol a blend of PA MXD 6 and PA 6 containing nanoparticles, according to Example 5, as a 4 μ thick middle layer, embedded between adhesion promoter and polyethylene coextruded layers. The Melt temperature was 270 ° C, the expansion ratio 1: 1.6.

The thus obtained, separated into two webs and under one-sided electrical Pretreatment wrapped blown film was available on existing commercial ones Laminating lines with solvent-free polyurethane adhesives with various Backing films, laminated according to Examples 6. to 8. and the oxygen permeability of the multilayer films obtained.

1. Comparative example

PAB / PE film for the natural cheese industry

Suitable for natural cheese packaging in any dosage form.  

2. Comparative example

BOPP / PE film for various packaging

Too permeable to natural cheese packaging (risk of mold)

3. Comparative example

PET / PE film for various packaging

Occasionally in use for natural cheese with strong gas development and / or short MHD

4. Comparative example

Composite films with barrier layer PE

Too gas-tight for natural cheese packaging (bombages)  

5th example

50 μ-Coex sealing layer according to the invention with a moderate barrier function

The oxygen permeability of this sealing layer film was measured at 34 to 44 cm ³ / m ² .d.bar and used in Examples 6 to 8 as a composite component.

6th example

PET composite film according to the invention with defined gas permeability

Suitable for natural cheese packaging in any dosage form

7th example

BOPP composite film according to the invention with defined gas permeability

Suitable for natural cheese packaging in any dosage form  

8. Example

Coex-BOPP composite film according to the invention with defined gas permeability

Suitable for natural cheese packaging in any dosage form

Claims (10)

1. multilayer film with a total layer thickness in the range of 30 to 90 microns, characterized in that it has one or more layers of PA 6 / MXD 6 / nanoparticles with a layer thickness of 2 to 7 microns, optionally one or more sealing layers of polyolefins and optionally one or contains several layers of biaxially oriented PETP, PP or Coex-PP. 2. Multi-layer film according to claim 1, characterized in that it has oxygen permeabilities between 20 and 60 cm ³ / m ² .d.bar. 3. Multi-layer film according to claims 1 or 2, characterized in that it contains one or more layers colored white or different colors. 4. Multi-layer film according to one of claims 1 to 3, characterized in that the nanoparticles are made of natural or synthetic layered silicates consist. 5. Multi-layer film according to one of claims 1 to 4, characterized in that the nanoparticles have a size <800 nm. 6. multilayer film according to one of claims 1 to 5, characterized in that the polyolefins of the sealing layer PE, PP, EP copolymers or Terpoly mere are. 7. Use of multilayer films according to one of claims 1 to 6 for Production of foils with printable on both sides. 8. Use of multilayer films according to one of claims 1 to 6 as Packaging film.   9. Use according to claim 8, characterized in that the Packaging film is used for outgassing goods. 10. Use according to claim 8, characterized in that the Ver packaging film is a cheese frosting pack.