FR2618726A1 - Impermeable multilayer internal laminate (composite) for a tubular packaging body made of composite materials and packaging thus obtained - Google Patents

Abstract

The present invention relates to an impermeable multilayer internal laminate (composite) for a tubular packaging body 1 made of composite materials, comprising one or more layers 3 of a more rigid material than that of the said laminate (composite) and, optionally, an external layer 2 which may or may not be printed, such as a label, or a layer guaranteeing impermeability, the laminate (composite) itself being composed of three layers 4, 5 and 6 and the layer 4 in contact with the body 1 of the tubular packaging being made of kraft paper, and a packaging material thus obtained. The laminate (composite) is characterised in that the intermediate layer 5 is a polymer or copolymer film, assembled by laminating, extrusion, co-extrusion or calendering.

Description

Waterproof multilayer internal complex for
tubular packaging body made of materials
composites and packaging thus obtained
The present invention relates to a sealed internal multilayer complex for a tubular packaging body made of composite materials comprising one or more layers of a material that is more rigid than said complex and, optionally, an outer layer, whether or not printed, such as a label , or a layer guaranteeing the seal1, the complex itself being composed of three layers and the layer in contact with the body of the tubular packaging being made of kraft paper.

The existing packaging of the box, container, barrel, barrel type is all composed of a tubular body, of round, polygonal section, or any other sections, of a cover and of a bottom. The structure of the tubular body, produced by spiral, straight, convolute or other winding, is generally as follows - an internal waterproof complex, compatible with the pro
packet, normally comprising three necks
ches, the layer with barrier properties
ensuring a perfect seal being composed of a
aluminum film. Usually an opti
male is obtained with a layer thickness
aluminum of the order of 7 to 12t4. This layer
of aluminum is covered, on each side, with a neck
che of a different material, namely on one side of pa
pier kraft and the other with a thermoplastic film.
normally uses kraft paper with a grammage of com 2
taken between 40 and 60 g / m2 and a polyethylene film,
preferably high density, because it slides better during
spiraling, with a thickness between 12 and
40 y. The assembly of these different layers is carried out
read either by lamination, or by extrusion or co
extrusion, either by calendering.

- one or more layers of a more rigid material than
the internal complex, usually cardboard, the number
of layers depending, of course, on the stiffness
desired.

- an outer layer or complex, printed or not. I1
can be a single layer, for example a
printed quet of the trade name of the pro
duit or other indications. He can also
be a complex guaranteeing optimum sealing
male from outside to inside, to protect
the different layers of cardboard of a possible at
dyed by an external product.

 The bottom and the lid of such packages are, in general, currently made of steel or aluminum crimped onto the body of the package.

 The cover of the packaging can also be in the form of an aluminum membrane, for example with a thickness of about 60, covered with a coating which welds on the polyethylene. Optionally, this membrane can be surmounted by a cap or a protective cap made of synthetic material.

 However, these packages have a number of drawbacks, mainly related to the presence of aluminum in the composition of the internal complex.

Indeed, aluminum has the distinction of being extremely fragile and it cracks very easily, for example, during mechanical forces transmitted to the packaging at the time of crimping or sealing of the bottom and / or the cover on the body of the packaging.

Aluminum, which tends to crease, may break at the folds, which inevitably leads to microporosities and micro-leaks. Such a phenomenon leads to sealing, corrosion and delamination problems. These problems are particularly troublesome, inter alia for the packaging of aggressive products, such as carbonated drinks, fruit juices, paints, or for pasteurized or sterilized products, and are further increased when the box is pressurized, for gas the products.

 Furthermore, the internal complex is placed inside the body of the packaging by spiral, straight, convolute or other winding. One end of the complex is folded over and is welded to the other end of said complex. I1 follows two folds at the level of the internal complex, therefore inevitably at the level of the aluminum layer, which involves, as we saw previously, breaks and leaks.

 The general problem to be solved by the object of the present invention is therefore to design an internal waterproof multilayer complex for a tubular packaging body which is resistant and which does not break when folded, as is the case, either during the crimping or welding of the cover or the bottom on the body of the package, or during the positioning of the complex by winding inside said body of the package.

 This complex must therefore be more mechanically resistant to crimping and soldering, have greater resistance to pressure, and therefore have better resistance to the aggressiveness of the packaged products, this while having the desired barrier properties, in particular as regards relates to oxygen permeability, water vapor permeability and breaking strength.

 According to the present invention, the problem is solved in that the intermediate layer of sealed multilayer internal complex is a polymer or copolymer film, assembled by lamination, extrusion, coextrusion or calendering.

The invention will be better understood from the following description, which relates to a preferred embodiment, given by way of nonlimiting example, and explained with reference to the appended schematic drawings, in which
FIG. 1 is a sectional view of a packaging body provided with an internal complex according to the invention, and
Figure 2 is a perspective view in section, on a different scale, of a packaging body at the weld of one end of the internal complex according to the invention on the other end of said complex.

 According to the invention, the intermediate layer 5 of the internal complex of the tubular packaging body 1 is a polymer or copolymer film, assembled by lamination, extrusion, coextrusion or calendering.

 This layer 5 may advantageously have a thickness between 12 and 20 P and be covered with a metallization 7, with a thickness of about 300 Á.

 According to a first variant of the invention, the intermediate layer 5 is made of polyester or copolyester.

By way of nonlimiting example, one can use a metallized polyester of 12 P thickness of the X 870 type, known under the trade name Melinex and manufactured by the company ICI, polyester which also allows excellent bonding of the metallization. . This type of polyester has an oxygen permeability of 0.5 cm / m / 24 h corresponding to the ASTM D 1434 standard (temperature 23 "C, relative humidity 0%), a
2 water vapor permeability of 0.15 g / m2 / 24 h corresponding to standard ASTM D 1434 (temperature 23 "C, relative humidity 85%), and a breaking strength, in lengthwise, 2.36 dN and crosswise 2.58 dN, corresponding to the standard
ASTM D 882 75B.

 A complex provided with such an intermediate layer 5 therefore unexpectedly and surprisingly exhibits the desired barrier conditions, in particular excellent impermeability values, while being much more resistant to folds and to pressure than a complex with an intermediate layer of aluminum. For example, the resistance to breakage of a 99.2% aluminum layer of 12 U thickness has a resistance to rupture in the length direction of 1.12 dN and in the transverse direction of 0.96 dN.

 According to a second variant of the invention, the intermediate layer 5 is made of polyamide or copolyamide.

Such a polyamide film may, for example, be that known under the trade name Selar manufactured by the company Du Pont de Nemours.

 According to another variant of the invention, the intermediate layer 5 is made of polyurethane.

 It could, of course, be made of other polymer or copolymer materials, such as a polyethylene terephthalate, a polybutylene terephthalate, etc.

By way of nonlimiting example, the complex may have one of the following compositions, respectively for layers 4, 5 and 6 - kraft paper 4 / metallized polyester film 5 / poly film
ethylene 6 - kraft paper 4 / metallized polyester film 5 / polypo film
pylene 6 - kraft paper 4 / metallized polyester film 5 / iono film
mother 6 - kraft paper 4 / polyamide film 5 / polyethylene film 6 - kraft paper 4 / polyamide film 5 / polyacrylonitrile film 6; - kraft paper 4 / metallized polyester film 5 / iono film
mother and coextruded polyethylene film 6.

As an ionomer 6 film, it is advantageous to use that known under the trade name Surlyn manufactured by the company Du Pont de
Nemours.

 As indicated above, the three layers 4, 5 and 6 can be assembled together by laminating, extrusion, coextrusion or calendering.

 In the variant of laminating, it is possible to use a barrier adhesive, such as, for example, a polyvinylidenchloride adhesive (PVDC).

The present invention also relates to a tubular packaging whose body 1 is made of composite materials comprising one or more layers 3, optionally an outer layer 2, printed or not, such as a label or a layer guaranteeing sealing as well as an internal waterproof multilayer complex according to the invention
The layers 3 forming the framework of the packaging body 1 will, in general, be made of cardboard, while the outer layer 2 will be in the form of a single layer (label) or of a complex guaranteeing the tightness of the outside to inside.

 The connection of layers 2, 3 and 4 can be ensured, in a known manner, by sealing or gluing.

 Of course, the invention is not limited to the embodiment described and shown in the accompanying drawings. Modifications remain possible, in particular from the point of view of the constitution of the various elements, or by substitution of technical equivalents, without thereby departing from the scope of protection of the invention.

Claims (10)

 1. Sealed multilayer internal complex for body (1) of tubular packaging made of composite materials comprising one or more layers (3) of a more rigid material than said complex and, optionally, an external layer (2), whether or not printed, such a label, or a layer guaranteeing the seal, the complex itself being composed of three layers (4, 5 and 6) and the layer (4) in contact with the body (1) of the tubular packaging being made of kraft paper, complex characterized in that the intermediate layer (5) is a polymer or copolymer film, assembled by lamination, extrusion, coextrusion or calendering.  2. Complex according to claim 1, characterized in that the intermediate layer (5) is covered with a metallization (7).  3. Complex according to one of claims 1 and 2, characterized in that the intermediate layer (5) is made of polyester or copolyester.  4. Complex according to claim 3, characterized in that the intermediate layer (5) is polyester 121l thick metallized on a thickness of 300 A, whose oxygen permeability is 0.5 cm cm3 / m2 / 24 h corresponding to ASTM D 1434 (temperature 23 "C, relative humidity 0%), the 2 permeability to water vapor is 0.15 g / m2 / 24 h corresponding to ASTM standard D 1434 (temperature 23 "C, relative humidity 85%), and the breaking strength is, in the longitudinal direction, of 2.36 dN and in the transverse direction of 2.58 dN, corresponding to ASTM D 882 75B.  5. Complex according to any one of claims 1 and 2, characterized in that the intermediate layer (5) is made of polyamide or copolyamide.  6. Complex according to any one of claims 1 and 2, characterized in that the intermediate layer (5) is made of polyurethane.  7. Complex according to any one of claims 1 and 2, characterized in that the intermediate layer (5) is a polyethylene terephthalate or polybutylene terephthalate.  8. Complex according to claim 2, characterized in that it has one of the following compositions, respectively for the layers (4, 5 and 6) - kraft paper (4) / metallized polyester film (5) / po film  lyethylene (6) - kraft paper (4) / metallized polyester film (5) / po film  lypopylene (6) - kraft paper (4) / metallized polyester film (5) / film  ionomer (6) - kraft paper (4) / polyamide film (5) / polyethylene film  (6) - kraft paper (4) / polyamide film (5) / polyacrylo nitril film (6); - kraft paper (4) / metallized polyester film (5) / film  ionomer and coextruded polyethylene film (6).  9. Complex according to any one of claims 1 to 8, characterized in that the intermediate layer (5) has a thickness between 12 and 20k.  10. Tubular packaging, the body (1) of which is made of composite materials comprising one or more layers (3), optionally an outer layer (2), whether or not printed, such as a label or a layer ensuring sealing as well as an internal waterproof multilayer complex according to any one of claims 1 to 9.