LT3889B - Packaging laminate with excellent sealing and barrier properties and also packaging container manufactured from the packaging laminate - Google Patents

Abstract

The flexible laminar packing material has excellent blocking and sealing properties. It has a structural layer (11) consisting of plastic and aggregate, mixed with a plastic and blocking layer consisting of the same plastic as the structural layer but mixed with a different plastic than used in the structural layer. The blocking layer is put onto one side of the structural layer. In order to improve the laminar packing material sealing properties there is a blocking layer (12) made of an electrically conductive material, the best made of soot are finely distributed in the blocking layer. Due to the conductive material the laminar packing material may be thickened by high frequency heating (IH) and dielectric sealing.

Description

BACKGROUND OF THE INVENTION The present invention relates to a flexible, laminate or sheet-like packaging material having excellent sealing and barrier properties, having a structural layer of plastic and filler mixed with plastic, and a barrier layer of the same plastic as the structural layer mixed with another type. plastic placed on one side of the structural layer. In addition, the invention relates to packaging containers made of a laminate packaging material made from a packaging material by folding, thermoforming or other mechanical forming process.

Sterile packaging technology is often used for the packaging and transport of sensitive oxygen and / or light products. It can be applied to liquid foods such as juice, wine, edible oil, and medical (pharmaceutical) biologicals that could otherwise be easily damaged or destroyed by brief exposure to oxygen or light. Sterile packaging is often adapted to other products, such as milk, to extend the shelf life of the packaged product and maintain its freshness without freezing.

Sterile packaging materials require oxygen and light, as well as bacteria, to ensure better protection of the packaged product. In addition, packaging materials must be durable and mechanically strong to withstand the external loading of the packaging material during transportation and use. Of course, it is desirable that the Packaging Material be readily produced and disposed of after use, or be otherwise disposed of in accordance with modern environmental requirements.

A large group of known sterile packing materials is made of a laminate consisting of a reinforced structural layer of paper or cardboard on the one hand and an aluminum (aluminum foil) barrier layer which provides the desired insolubility of the packaging and is sealed in one structural layer. side, and other coatings made of plastic (usually polyethylene) to make the material easily sealable by hot sealing.

Sterile packages are usually made from known packaging material with modern packaging machines that efficiently and quickly form, fill and close packages from tape or preform. Such well-known packages are Tetra Brik and Tetra Rex products.

The Tetra Brik is made of a tube which is shaped like a tube by joining the two longitudinal sides together in a flap. The tube is filled with contents and divided into closed cushion packages by pressing perpendicular to its longitudinal direction below the level of filling of the tube. The packages are separated from each other by cross-sections through the transverse clamping zones and are given the desired, usually parallelepipedic, final shape, during which the double triangular corner packing tongues are folded and secured to the adjacent packing wall.

The known packaging material has several serious drawbacks, which are due to the use of aluminum foil, which is a low-elastic, often rupture in the tension areas of the material during the manufacture of the packaging and breaks the sealing of the packaging. In addition, aluminum foil is expensive, which increases the cost of the packaging material. Known packing material lacks the hygroscopicity of a paper or cardboard layer, which makes the packing material quickly lose its mechanical strength and makes the packaging soft and difficult to process. Therefore, the paper or cardboard layer should be thick enough to provide the necessary rigidity and shape stability to the packaging, which increases the tension in the material and creates the risk of cracks in aluminum foil during packaging manufacturing.

Therefore, packaging technology has always been looking for alternative packaging materials that have neither a fibrous layer nor an aluminum foil layer and which have the disadvantages of known paper or cardboard packaging materials.

Such a solution to some of the above problems is described in EP-A-0 353 992. This material has a reinforced structural layer of plastic and filler mixed with plastic and is less expensive and less sensitive to moisture than paper or cardboard. A similar packaging material is also described in EP-A-0 353 496.

Packaging material consisting only of plastic and filler mixed with plastic as described in both European patents is not airtight for both oxygen and light, requiring an additional airtight layer to be used in the manufacture of sterile packages. Both patent applications mention only expensive, tear-resistant aluminum foil.

Swedish patent application no. 9100057-0 describes a packaging material which, like the materials described above, has a reinforced structural layer of plastics and a filler mixed with a plastics material, but instead of an aluminum foil uses an oxygen barrier composed of the same plastics as the structural layer. with a different plastic. In Swedish application no. 9100057-0 discloses a material wherein the structural layer plastic comprises a propylene homopolymer having a melt index of less than 1 ASTM (2.16 kg; 230 ° C) or an ethylene propylene copolymer having a melt index of 0.5-5 ASTM (2.16 kg; 230 ° C) and a copolymer of ethylene vinyl alcohol.

This latter packaging material can be improved and the present invention illustrates how to implement it.

This object is achieved by the fact that in the laminate packing material described herein, the barrier layer also contains conductive material of fine particles.

By introducing fine-grain, electrically conductive material into the barrier layer of the packaging material, the packaging material according to the present invention has excellent sealing properties and can be compacted by high frequency heating (IH) and dielectric sealing. Thermal sealing of known packing material without fine grain electrically conductive material is carried out using heat that fuses the outer plastic coatings of the laminate material, which makes it possible to produce the same amount of heat in the laminate material by inductive or dielectric heating according to the present invention. sealed much more tightly than before.

In addition to fine-grained electrically conductive material, other known electrically conductive materials may be used in the manufacture of the packaging material, the best results being obtained if the electrically conductive material consists of carbon, which makes the packaging material completely opaque to light.

The fine-grained electrically conductive material may be, for example, either pure soot or soot mixed with another fine-grained carbon, such as graphite. Ideally, it consists of a mixture of soot and graphite, since the barrier layer containing both carbon black and graphite is not deformable in cold conditions and is much easier to form than the barrier layer, where the fine-grain electrically conductive material consists only of soot. If the barrier layer contains only soot, the latter amount is between 10 and 15% by weight, preferably 12% by weight, since more than 15% by weight of soot makes the barrier fragile and difficult to form, and less than 10% by weight makes the barrier layer elastic. and easy to form but with poor electrical conductivity. On the other hand, if the barrier layer consists of both soot and graphite, the soot content can be as low as 5% without deteriorating the electrical conductivity, provided that the graphite content by weight is at the same time 15-25, preferably 20% by weight.

According to a preferred embodiment of the invention, the layered wrapping material has an outer sealing layer of the same plastic as the structural layer plastic, i.e. a propylene homopolymer having a melt index of 1 by ASTM (2.16 kg; 230 ° C), or an ethylene propylene copolymer having a melt index of 0.5 to 5 by ASTM (2.16 kg; 230 ° C) which is applied to the barrier layer.

The invention will be described in more detail below with reference to the drawing which shows a cross-sectional view of the packaging material.

The packaging material is designated by the number 10. The layered packaging material 10 comprises a reinforced structural layer 11 and a barrier layer 12 which covers one side of the structural layer corresponding to the inner side of the sterile packaging material being manufactured and provides the laminate packaging material with excellent oxygen and light sealing properties. The layered material 10 in the best embodiment further comprises an outer layer 13, as shown, which covers the barrier layer 12 and which, on the one hand, protects the barrier layer 12 of the laminate material from direct contact with the sterile contents of the sterile Packaging. facilitates thermal formation of the laminate during packaging production.

The structural layer 11, the barrier layer 12 and the outer sealing layer 13 can be made as separate films which are subsequently bonded to each other to form the finished laminate 10. Preferably, the laminate is produced by co-pressing, whereby the layers are pressed simultaneously in a known manner and fused with one another in the heat of compression.

The reinforced structural layer 11 comprises, as above, a plastic and a filler mixed with a plastics material such as a propylene homopolymer having a melt index less than 1 by the ASTM (2.16 kg; 230 ° C) or an ethylene propylene copolymer having a melt index of 0, 5 to 5 by ASTM (2.16 kg; 230 ° C). The amount of filler in the structural layer varies within a wide range and is 50-80% of the weight of the structural layer. The preferred amount of filler is about 65%. The type of filler may vary and is not a criterion of the present invention. Virtually any filler known in the art can be applied, even chalk, clay (kaolin), talc and mica, both individually and in combination with one another. The preferred filler is chalk.

The barrier layer 12 consists of a mixture of plastic and fine-grained electrically conductive material mixed with plastics. The plastic mixture consists of partly the same plastic as the structural layer and partly different plastic than the structural layer. The same plastic may be a propylene homopolymer with a melt index of less than 1 ASTM (2.16 kg; 230 ° C) or an ethylene propylene copolymer with a melt index of 0.5 to 5 ASTM (2.16 kg; 230 ° C). . Other types of plastics may be non-oxygen resistant plastics, such as ethylene vinyl alcohol copolymer (EVOH), polyvinylidene chloride and polyamide, most preferably ethylene vinyl alcohol copolymer (EVOH). The fine-grained electrically conductive material of the structural layer is preferably composed of carbon material, such as pure soot or soot mixed with graphite.

The same plastics as in the structural layer 11, i.e. the amount of ethylenepropylene copolymer having a melt index of 0.5 to 5 by ASTM (2.16 kg; 230 ° C) may vary between 20 and 60% by weight for other types of plastics than in structural layer 11, i.e. the ethylene vinyl alcohol copolymer (EVOH) content may vary between 40 and 80% by weight. The amount of fine grain barrier layer 12 depends on the choice of fine grain material. If the conductive material comprises, for example, soot, it must be present in an amount of 10 to 15% by weight, preferably 12% by weight, and if the electrically conductive material consists of a mixture of soot and graphite, best, 6% by weight of soot and

15-20, preferably about 20% by weight of graphite respectively.

The outer sealing layer 13 of the present invention consists of the same plastic as the structural layer 11, i.e. a propylene homopolymer having a melt index of less than 1 ASTM (2.16 kg; 230 ° C) or an ethylene propylene copolymer having a melt index of 0.5-5 ASTM (2.16 kg; 230 ° C).

In a preferred embodiment of the invention, the layered wrapping material 10 has the following composition: The constructive layer 11 comprises about 35% by weight of an ethylene-propylene copolymer having a melt index of 0.5-5 ASTM (2.16 kg; 230 ° C) and about 65% by weight of filler. preferably chalk); barrier layer 12 consists of a mixture containing 34% by weight of an ethylene-propylene copolymer having a melt index of 0.5-5 by ASTM (2.16 kg; 230 ° C), 40% by weight of an ethylene-vinyl alcohol copolymer (EVOH), about 6% by weight soot and about 20% by weight of graphite; and the outer layer 13 is comprised of an ethylene propylene copolymer having a melt index of 0.5-5 ASTM (2.16 kg; 230 ° C).

Sterile laminated packaging material 10 shall be made hermetically and impervious to oxygen, light and 1.1 by folding, thermoforming or other mechanical means of laminating. packaging. For example, a tube is made of a sheet of laminated packaging material by hermetically sealing its longitudinal edges. The tube is filled with the desired contents and divided into closed cushion blocks by repeatedly pressing the tube transversely below its contents level. The packing blocks are separated from each other by cutting through transverse seam seams, and then, during the final forming operation, are provided with a final geometric shape, such as parallelepiped, which folds and secures the double triangular packing angle valves to the adjacent packing wall.

This laminated packaging material solves the previously described problems of paper and cardboard packaging materials in a simple and effective manner and overcomes the disadvantages of known non-fibrous packaging materials such as those described in both European patent applications and Swedish patent application no. 9100057-0. This packaging material is also valuable from an environmental point of view, since all its layers consist essentially of one and the same plastic, which can be easily disposed of using existing disposal technologies.

Claims (10)

DEFINITION OF INVENTION 1. A flexible sheet or strip packing material comprising a structural layer (11) of plastic and a filler mixed with a plastic material and a barrier layer of the same plastic material as the structural layer mixed with a different type of plastic than the structural layer. on one side of the structural layer, characterized in that the barrier layer also contains a fine-grain electrically conductive material. Layered packaging material according to claim 1, characterized in that the fine-grained electrically conductive material is evenly distributed throughout the barrier layer (12). 3. Laminated packaging material according to claim 1 or 2, characterized in that the fine-grained electrically conductive material consists mainly of carbon. 4. The layered wrapping material of claim 3, wherein the fine-grained electrically conductive material comprises soot. 5. The layered wrapping material of claim 3, wherein the fine-grained electrically conductive material comprises a mixture of soot and graphite. Layered wrapping material according to one of the preceding claims, characterized in that it has an outer layer (13) and the same plastic material as the structural layer (11) located above the barrier layer (12). Layered packaging material according to one of the preceding claims, characterized in that the structural layer (11), the barrier layer (12) and the outer layer (13) are produced by co-pressing. 8. The layered wrapping material according to one of the preceding claims, characterized in that the plasma layer of the structural layer (11) consists of a propylene homopolymer with a melt index of less than 1 according to ASTM (2.16 kg; 230 ° C) or an ethylene propylene copolymer with a melt index of 0. , 5-5 by ASTM (2.16 kg; 230 ° C). 9. The layered wrapping material of claim 8, wherein the plastic other than the structural layer (11) comprises ethylene vinyl alcohol copolymer (EVOH). 10. Packaging container, characterized in that it is made by folding, thermoforming or other mechanical processing of laminate packaging material.