SE451311B - PROCEDURE FOR PREPARING AN ALUMINUM-BASED LAMINATE FILM AND PROCEDURE FOR PASTORIZING FOOD IN PAGE PREPARED - Google Patents

Description

15 20 75 30 35 451 311 z parts and percentages in the present description refer to parts by weight and percent by weight, respectively. The adhesive coated substrate is led to a series of furnaces, in which the solvent is evaporated. The substrate is then passed over a hot roller, and its glued surface is brought into contact with the aluminum foil.

The layers are pressed together with a rubber roller. Thereafter, the aluminum foil layer in this polyester / polyurethane / aluminum foil laminate is coated with the same adhesive, whereupon the laminate is again passed into a series of furnaces and the solvent in the adhesive is evaporated. The laminate of polyester / polyurethane / aluminum foil / polyurethane is passed over a hot roll and its glued surface is brought into contact with a film of corona-treated polyethylene of medium density.

This is pressed onto the laminate with a rubber roller. The product is a 5-layer laminate of polyester / polyurethane / aluminum foil / polyurethane / polyethylene of medium density. The polyethylene layer is the sealing layer, which means that when the above laminate is formed into bags, the polyethylene layer is innermost and the polyester layer is outermost.

The above laminate has a bonding strength which is normally sufficient. A typical value is 280 grams per cm.

However, we have faced the problem that 3 to 4%, which is a significant proportion, of bags made from these laminates have had to be discarded. This is due to delamination and the opening of seals or joints. In addition, the process for producing the laminate is relatively lengthy due to the time required to drive the solvent away from the adhesive.

We have now invented a process for producing a laminate film which differs from the 5-layer product described above. Tests on a film laminate made in accordance with the present invention have shown a bond strength of at least 280 grams per cm prior to pasteurization. Quite surprisingly, the bond strength increases as a result of pasteurization to at least 320 grams per cm after pasteurization. In addition, the laminate can be produced more easily, since only one passage through a solvent evaporation oven is required instead of two passages in the above-mentioned process.

More particularly, the invention relates to a process for producing an aluminum-based laminate film by bonding a substrate layer to one side of an aluminum foil layer by means of a binder such as a polyurethane resin, F; P 15 45 35 s 451 311 and providing a sealing layer to the other side of the aluminum foil layer. The basic principle here is that the aluminum foil is bonded to a layer of a polymer of ethylene and / or propylene, as a sealing layer by means of a layer of an ionomer which is substantially free of solvent. This means that an ethylene-acrylic acid copolymer or ethylene-vinyl acetate copolymer can be used instead of an ionomer. In this way, the use of solvent-based adhesive or binder can be avoided when bonding the sealing layer to the aluminum foil. The aluminum foil layer can be supported by any polymeric layer or polymeric layers suitable or suitable for use in the laminate film for packaging purposes.

The process according to the invention is characterized in that the application of the sealing layer to the other side of the aluminum foil layer is carried out by melt-extruding to the aluminum foil layer a layer of substantially solvent-free binder, which comprises (i) an ionomer or (ii) an ethylene-acrylic acid copolymer containing from 2 to 10% acrylic acid units or (iii) an ethylene-vinyl acetate copolymer containing from 5 to 40% vinyl acetate units, and contacting the sealing layer with said substantially solvent-free adhesive layer without using a separate heating step for pretreating the substantially solvent-free adhesive layer.

An example of a laminate film which can be produced according to the invention is a laminate film comprising the following layers in it a substrate layer of a polymer bonded in the following order: (a) material; (b) a primer or primer; (c) layers of polyethylene having a density in the range of 0.89 to 0.935 g / cm (d) an aluminum foil layer; (e) a substantially solvent-free adhesive layer of (i) an ionomer, (ii) an ethylene-acrylic acid copolymer containing from 2 to 10% acrylic acid units or (iii) an ethylene-vinyl acetate copolymer containing from 5 to 40% vinyl acetate units; and (f) a sealing layer of an ethylene and / or propylene polymer.

When the terms "low density" and "medium density" or "medium density" are used in connection with polyethylenes, they mainly refer to densities from 0.89 to 0.925 and from 0.926 to 0.935 g / am, respectively. The ionomer "is a copolymer comprising units of an alpha-monoolefin, preferably ethylene, an unsaturated organic acid, preferably an α, β-unsaturated carboxylic acid such as methacrylic or acrylic acid, and a salt of such an acid, preferably an alkali metal salt, eg sodium salt, or a zinc salt It is usually obtained by partial neutralization of a bipolymer of the components alpha-mono-olefin and unsaturated organic acid.The proportions of the three components in an ionomer are eg 80 -95% alpha-mono-olefin, 2-10% unsaturated acid and 0.5-10% metal salt of the unsaturated acid. Usually the proportion of the salt component does not exceed 5%. An ionomer, which we have found to be particularly useful, is Surlyn 1652. The solvent-free adhesive layer is usually a molten extruded layer.

The preferred thicknesses of the layers are as follows: 1. Substrate layer 10 - 30 μm 2. Base layer 3 Bonding layer 8 - 50 μm 4. Aluminum foil layer 8 - 20 μm 5 Solvent-free adhesive layer 10 - 50 μm 6. Sealing layer 20 - 100 μm A preferred laminate made according to The invention is a 6-layer laminate having the following sequence: low density polyester / base layer / low density aluminum foil / ionomer / medium density polyethylene.

Normally, the substrate requires a surface treatment, especially the application of a primer or primer to bond the same to the bonding layers. Suitable primers are known for this purpose. A polyurethane adhesive containing ethyl acetate solvent is useful. When the substrate layer is of a polyester, it usually requires surface treatment before the primer is applied. This can be done by corona treatment in a known manner. Thus, the process usually comprises the initial steps of corona treatment of a polyester, followed by application of a layer of solvent-based primer and stripping of the solvent in said primer in an oven or series of ovens, before the substrate is ready to receive bonding layers. tct. Only one passage in an oven is required in this procedure, which more than compensates for the use of a bonding layer in addition to the substrate.

According to a variant of the invention, bags manufactured via the method for producing a laminate film are also provided, the sealing layer being located at the innermost part.

The invention further relates to a process for pasteurizing a foodstuff, which process comprises heating the foodstuff in a bag made from the laminate film described above at a temperature of from 70 to 115 ° C and for a period of time sufficient to effect pasteurization (pasteurization). the ringing time is usually from 20 minutes to Z hours depending on the temperature). Preferably the heating is carried out in a liquid aqueous medium, e.g. steam in a steam oven or hot water.

From the above it appears that the invention is particularly useful in the pasteurization of foods (including beverages), especially processed meat, e.g. ham and bacon pieces.

The following examples illustrate the invention.

EXAMPLE A laminate was prepared by the process of the invention. More specifically, a film of polyester (polyethylene terephthalate) was corona treated and the film was coated with a primer in the form of a polyurethane adhesive, after which the solvent in the adhesive was evaporated in an oven. Low density polyethylene was melt extruded at a melting temperature of 320-330 ° C between the polyester layer and an aluminum foil to form the intermediate bonding layer. The resulting 4-layer laminate and a medium density polyethylene film were brought close to each other, and a layer of the ionomer Surlyn 1652 was applied between them by melt extrusion at a temperature of 310-SZOOC. In this way a laminate is prepared with the following structure: êkikí Thickness in μm Polyethylene terephthalate 12.5 Primer 0.7 LD-polyethylene 16.0 Aluminum foil 9.0 Surlyn 1652 ionomer 25.0 MD-polyethylene 75.0 451 311 The bond strength of the laminate was found to be at least 280 grams per cm. A bag was prepared from the laminate, which bag was subjected to pasteurization conditions in a steam oven at 115 ° C for 20 minutes. After pasteurization, the bonding strength of the laminate had increased to at least 320 grams per cm. -.- x

Claims (2)

A method of making an aluminum-based laminate film by bonding a substrate layer to one side of an aluminum foil layer by means of an adhesive, such as a polyurethane resin, and providing a sealing layer to the other side of the aluminum foil layer, by the application of the sealing layer to the other side of the aluminum foil layer is carried out by melt extruding into the aluminum foil layer a layer of substantially solvent-free binder comprising (i) an ionomer or (ii) an ethylene-acrylic acid copolymer containing from 2 to 10% of acrylic acid units or (iii) an ethylene-vinyl acetate copolymer containing from 5 to 40% vinyl acetate units, and contacting the sealing layer with said substantially solvent-free adhesive layer without using a separate heating step to treat it in essentially solvent-free adhesive layer. A process for pasteurizing a foodstuff, characterized in that a bag is made from a laminate film prepared according to claim 1, placing the foodstuff in the bag, closing the bag and heating the bag and its contents to a temperature of from 70 ° C to 115 ° C and maintains it at said temperature for a period of time sufficient to effect pasteurization of the food in the bag. k ä n n e t e c k -