Longitudinally stretched, vacuum vapor coated packaging films

Stock material or miscellaneous articles – Composite – Of polyamide

Reexamination Certificate

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C428S411100, C428S035700, C428S035800, C428S035900, C428S036700, C428S036910, C428S458000, C428S474400, C428S475800

Reexamination Certificate

active

06555242

ABSTRACT:

The present invention relates to longitudinally stretched, vacuum vapour coated films which are used in the industrial films sector, food packaging and other applications.
It is already known that vacuum vapour coating, for example with inorganic oxides, improves not only the optical properties but also the water vapour and gas barrier properties of a film. In many cases, the oxygen permeability of a film is reduced by a vapour coated organic and/or inorganic layer. An organic barrier layer is mainly introduced by coextrusion, by lamination or by coating. An inorganic layer is usually a metal layer and is applied either as a foil or by vacuum vapour deposition. In many cases, on economic grounds, an organic layer is laminated or coextruded and an inorganic layer is vacuum vapour coated.
U.S. Pat. No. 5,153,074 thus describes a composite film with a layer of modified maleic anhydride/polypropylene (homopolymer or copolymer). Coextrusion (or lamination) proceeds with an ethylene vinyl alcohol (EVOH) layer. The film is then vacuum vapour coated on the EVOH side. The film is biaxially stretched during the process. The film may be coextruded with this structure and the vacuum vapour coating is performed on the EVOH layer, so improving gas permeability properties.
EP-A-0 340 910 describes a similar packaging film. An oriented polyolefin film (or regenerated cellulose film) is coated with a resin polyester or nitrocellulose). This coating, combined with a vacuum vapour coated metal or metal oxide, improves gas or oxygen permeability properties.
EP-A-0 096 581 describes a composite film obtained from two laminated films. A film having an external polyolefin layer and an EVOH, PA or polyethylene terephthalate PET, layer is coextruded. This film is laminated by means of an adhesive to a thermoplastic film (PA, polymethyl methacrylate PMMA, polyethylene PE, polypropylene, PP, PS, PC, PVC, PVdC, EVOH) which has been vacuum vapour coated with metal or metal oxide. In practice, the vapour coated side is laminated against the inner layer of the first film. As a result, elevated gas or oxygen barrier properties combined with relatively good mechanical properties are obtained.
WO 97/38853 discloses a composite film, wherein the outer layer comprises transparent plastic materials (PA, PET or polyolefins), the heat sealing layer comprises polyolefin (PE or PP) and the interlayer comprises a vacuum vapour coated EVOH. These layers are individually extruded or coextruded and then coated or laminated together with primer or adhesive. It should be noted that it was the vapour coated side of the heat sealing layer which was laminated. The entire film may possibly be stretched. Gas or oxygen barrier properties are improved with such a structure and this embodiment.
However, all these known multilayer films have their limitations if the combination of
enhanced gas barrier properties
good mechanical properties with good flex crack resistance
extrudability and good film quality and
economic viability of the process
is required.
The films of U.S. Pat. No. 5,153,074 achieve good gas such as oxygen barrier properties thanks to the EVOH layer, vapour coating with metals or metal oxides and possibly stretching, but these films have inadequate mechanical properties for many applications because polypropylene is used as the base material.
A good gas barrier is achieved for the films of EP-A-0 340 910 by the vacuum vapour deposition of metal or metal oxide. Mechanical properties, however, are lacking since the base material is polyolefin. Moreover, the film contains no organic gas such as oxygen barrier material, such that the film loses its barrier properties in the event of delamination of the vapour coated layer.
The films of EP-A-0 096 581 exhibit good gas barrier properties, but these films are produced from two laminated films. These films are separately extruded, which makes the process more costly than a single stage process, such as for example coextrusion. Moreover, the film is not stretched, which would in general improve gas or vapour barrier properties and mechanical properties.
Good gas barrier properties are achieved with the films disclosed in WO 97/38853 by the EVOH layer, vacuum vapour coating and possibly stretching, but mechanical properties often prove inadequate. To this end, the layers should be individually extruded, which has a negative effect, for example, on the EVOH layer (fish eyes may form). It is known that extruding EVOH is difficult if the EVOH melt has direct contact with the metal walls of the die. A laminated composite is thus also difficult to stretch, so hindering any improvement of properties (gas or oxygen permeability and mechanical properties).
The object accordingly arose of providing a vacuum vapour coated, stretched, coextrudable multilayer film with very high gas barrier properties which exhibits improved mechanical properties. The vapour coated layer of the film should be delaminable and have elevated gas or oxygen barrier properties in the delaminable areas.
This object has been achieved according to the invention by providing a longitudinally stretched, vacuum vapour coated, multilayer film consisting of a gas barrier layer interposed between at least two polyamide layers wherein the gas barrier layer consists of EVOH with an ethylene content of 25 to 50 mol %, relative to the total moles of EVOH, wherein one or more elements of main groups or subgroups 3 and 4 of the periodic system of elements or the oxides thereof have been vacuum vapour coated onto one external side of the film.
The present invention accordingly provides a longitudinally stretched, vacuum vapour coated multilayer film comprising a gas barrier layer interposed between at least two polyamide layers consisting of
1. a gas barrier layer of EVOH having an ethylene content of 25 to 50 mol % and a layer thickness of between 0.5 and 10 &mgr;m preferably between 1 and 5 &mgr;m,
2. at least two polyamide layers, each having a thickness of between 3 and 25 &mgr;m, wherein
the film has been subjected to longitudinal stretching with a stretching ratio of approx. 1.5:1 to 8:1 and a layer of one or more elements from the group of main groups and subgroups 3 and 4 of the periodic system of elements or the oxides thereof is vacuum vapour coated onto the external side of one polyamide layer.
The barrier layer is interposed between two polyamide layers by coextrusion. The thickness of each of the polyamide layers, independently one of the other, is between 3 and 25 &mgr;m, preferably between 5 and 10 &mgr;m.
The vacuum vapour coated layer is a metal or non-metal oxide layer from the group of elements of main groups and subgroups 3 and 4 of the periodic system of elements and the oxides thereof, preferably a vacuum vapour coated aluminium layer, having an optical density of approx. 1.5 to 3.5. This layer is vapour coated onto an external layer. Longitudinal stretching proceeds with a stretching ratio of approx. 1.5:1 to 8:1, preferably of approx. 2:1 to 5:1.
This vacuum vapour coated layer is chemically removable, such that letters, diamond-shaped patterns and viewing windows may be incorporated into this layer with a printing press.
After this process, this film may be further processed. For example, a heat sealing layer may be laminated or coated onto the vapour coated side. Applying this layer improves the barrier properties of the resulting composite, because abrasion on the vapour coated surface is minimized and because this vapour coated layer is located closer to the neutral core of the film on kinking. This layer thus undergoes less damage by kinking and barrier action is improved.
The invented laminate is suitable as packaging material due to its good oxygen barrier properties. It has been found that vacuum vapour coating in accordance with the invention, together with longitudinal stretching, surprisingly considerably further improves this barrier action.
Thanks to the use of this combination (vacuum vapour coated, stretched film with the structure PA/EVOH/PA), it has proved possible to produce films w

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