FR2687645A1 - RECYCLABLE CARTON BASED MULTI-LAYER MATERIAL FOR PACKAGING. - Google Patents

Abstract

Disclosed is a recyclable material for packaging liquids which has an upper surface remote from the product to be packaged and a lower surface in contact with the product to be packaged. This material includes a main layer of cardboard (1), a mineral coating layer (2) on the upper surface of the main layer, a printing ink layer (3), at least one varnish layer (4) on the surface of the layer (3), and a layer of plastic material (5, 6, 7, 8, 9) on the lower surface of the main layer (1), the mechanical strength of which is such that this layer of plastic material can be removed substantially as a single block during a pulping process carried out during material recycling.

Description

The present invention relates to a multilayer material based on cardboard

  usable as packaging material, which includes an upper surface distant from the product to be packaged and a lower surface in

  contact with the product to be packed.

  Cartons intended for packaging must meet several conditions imposed in particular by the product which must be packaged. In the case of a carton intended for packaging liquids, these conditions are in certain cases

  very severe Cartons intended for the packaging of liquids typically include-

  a main layer consisting of cardboard, the remote surface of the product to be packaged is covered with a layer of plastic material so as to form a printable upper surface, liquid-tight and heat-sealable which allows sterilization of the packaging , while the surface of the main cardboard layer which faces the product to be packaged is covered with a multiplicity of layers of plastic material, such as layers of low density polyethylene, between which a barrier layer is provided , for example made of ethylene vinyl alcohol copolymer (EVOH) or aluminum, so as to form a lower surface impermeable to liquids and gases. Thanks to the barrier layer, the cardboard-based material is impermeable in particular to oxygen. what is necessary for aseptic packaging Typically, the layer of cardboard that is present in a material to packaging for liquids of this type is firmly bonded by means of neutral adhesives, such as adhesives based on ketene dimers, so that the penetration value at the raw edge, which expresses the degree of gluing, is relatively weak and that the cardboard layer itself constitutes what is known as a wet-resistant cardboard which lends itself poorly to normal pulping operations of waste In addition, because the cartons intended for packaging of liquids are covered with plastic on both sides they constitute a material that is not substantially wettable and rot-proof This type of material is therefore not suitable for recycling since it can hardly be

  broken down during normal pulping operations.

  To overcome these drawbacks, the present invention aims to provide a packaging material based on cardboard which can be used as cardboard for packaging liquids even in an aseptic packaging while being suitable for recycling raw materials in disintegrators

conventional.

  According to a first embodiment of the present invention, this object can be achieved by means of a cardboard-based material comprising a layer

  main carton containing more than 40% mechanical pulp and the penetration of

  tion at the raw edge, measured for 24 h with 1% lactic acid, is in the range of 0.5 to 2.5 g / m, a layer of mineral coating on the upper surface of the main layer, at least one layer of varnish on the surface of the mineral coating layer, and a layer of plastic material on the lower surface of the main layer, the mechanical strength of which is such that this layer of plastic material can be removed substantially in one block during the pulping process implemented during material recycling. According to a second embodiment of the present invention, the cardboard-based material comprises a main layer of cardboard containing more than 40% of mechanical pulp and whose penetration at the raw edge, measured for 24 h with lactic acid at 1%, is in the range of 0.5 to 2.5 g / m, a mineral coating layer on the top surface of the main layer, a layer of printing ink on the surface of the coating layer mineral, at least one layer of varnish on the surface of the layer of printing ink, and a layer of plastic material on the lower surface of the main layer, the mechanical strength of which is such that this layer of plastic material can be removed substantially in one block during the process

  reduction paste implemented during recycling of the material.

  According to a third embodiment of the present invention, the cardboard-based material comprises a main layer of cardboard containing more than 40% of mechanical pulp and whose penetration at the raw edge, measured for 24 h with lactic acid at 1%, is in the range of 0.5 to 2.5 g / m, a layer of mineral coating on the top surface of the main layer, a layer of varnish on the surface of the mineral coating layer, a layer printing ink on the surface of the varnish layer, at least one layer of varnish on the surface of the printing ink layer, and a layer of plastic material on the lower surface of the main layer, of which the mechanical strength is such that this layer of plastic material can be removed substantially in one block during the pulping process put in

  works during material recycling.

  The material according to the invention solves the problem posed by the decomposition

  sition of such a material during a pulping process, based on

  three fundamental concepts First of all, the hydrophobic, thermo-

  weldable and allowing the sterilization which constitutes the external surface of the material is no longer constituted by a surface layer of plastic material but by a mineral coating applied to the surface of the cardboard and by at least one layer of varnish applied to the surface of the mineral coating Preferably, the mineral coating layer also plays the basic role for the printing ink layer. During the pulping, the varnish layer (s) and the mineral layer decompose into small particles which do not not disturb

  processing, for example in a cardboard machine, the pulp produced.

  According to a second fundamental concept relating to the cardboard-based material according to the invention, the layer of plastic material formed on the surface of the material which is in contact with the liquid which is to be packaged is not intended to decompose during pulping but has mechanical strength such that it separates from the cardboard substantially in one block during pulping It is therefore possible to remove this plastic layer from the disintegrator without degrading the quality of the pulp produced The resulting plastic waste can be easily recovered from the disintegrator for use, for example, in the manufacture of products which

  are typically obtained from plastic waste.

  According to the third fundamental concept, the decomposition of the cardboard itself is ensured through the use for the manufacture of this cardboard of at least 40% mechanical pulp, in particular from grated wood, the penetration at the raw edge of the layer of cardboard, measured for 24 h with 1% lactic acid, being sufficiently high, that is to say in the range from 0.5 to 2.5 g / m, preferably from 1 to 2 g / m The numerical value of the penetration at the raw edge represents the quantity in grams of lactic acid at 1% which penetrates into the carton in 24 h per meter of gross edge of carton at a temperature of 23 C and a relative humidity 65% Thus, in the material according to the invention, the fibrous material is easily decomposable although it is

  in contact with hydrophobic layers.

  In the following, the cardboard-based multilayer material usable for packaging liquids, according to the present invention, will be described in more detail with reference to the accompanying drawing, the single figure of which represents a cross section of an embodiment. , shown by way of example only, of

  cardboard material according to the invention.

  As shown in the single figure, the main part of the material consists of a layer of cardboard 1 whose thickness, from 200 to 450 μm, depends mainly on the size of the packaging which must be obtained from this material. cardboard layer 1 must be sufficiently resistant to humidity while being easily decomposable during pulping, and its penetration at the raw edge must be within the range of 0.5 to 2.5 g / m, preferably from I to 2 g / m This type of cardboard is preferably made from a pulp in which the proportion of mechanical pulp is at least 40%, preferably from to 80% It is preferably a pulp produced by a wood grating process which can be used as mechanical pulp Suitable adhesives which can be used to adjust the penetration at the raw edge of the cardboard so that it is within the desired range are adhesives based on r sines and neutral adhesives, in particular combined together in suitable mixing proportions The adhesives conventionally used in cartons for packaging liquids are neutral adhesives such as adhesives based on ketene dimers and alkylsuccinic anhydrides Le replacing at least part of the neutral adhesive with a resin-based adhesive makes it possible to lower the degree of sizing of the dough and to improve the decomposition of the dough during reduction into dough. the material decomposes during reduction

  as a paste while being sufficiently resistant to humidity.

  According to the invention, a mineral coating 2 is applied for example at a rate of 10 to 20 g / m 2 on the surface of the main layer of cardboard 1 which is distant from the product which is to be packaged. The mineral coating can be a clay by example The main function of the mineral coating is to provide the cardboard with a surface suitable for printing while easily decomposing during pulping, thereby exposing the layer of cardboard 1 to moisture. When it decomposes, the coating mineral does not form particles which may cause problems in the subsequent processing of

  the dough or during its transformation into a product.

  In the embodiment shown in the figure, a layer of printing ink 3 is formed on the surface of the mineral coating 2 Of course, the thickness and the position of the printing ink vary depending on the pattern which must be printed and the ink layer may not be present at all points on the surface of the mineral coating 2 The ink layer

  printing is typically applied at a rate of 2 to 4 g / m 2.

  To protect the cardboard material according to the present invention against external humidity, two layers of varnish 4 are formed on the surface of the layer of printing ink 3. It is particularly important, concerning the treatment of the material based on carton according to the present invention, that the varnish layers 4 are preferably applied at the same time as the printing ink layer 3 or at least with the same machine In other words, the varnish layers 4 are formed by printing techniques Appropriate techniques include the use of an engraving roller unit and an offset process These two types of process make it possible to impart a desired thickness to the layer of varnish or layers of varnish and to make them coincide exactly Thus, in the areas of the packaging which must be manufactured at the level where the stresses caused by external humidity are the most accentuated, for example e at the bottom, the layer of varnish can be thicker than in the other areas of the packaging or else it is possible to use a multiplicity of layer of varnish Typically, the layers of varnish are applied at a rate of 2 to 6 g / m 2 The varnishes which can be used for this purpose include vinyl varnishes in which the diluent used is an alcohol / ester mixture such as an ethanol / ethyl acetate mixture. It is particularly advantageous to use as a layer of varnish an aqueous dispersion of polyacrylate With regard to the possibilities of recycling the material, it is essential that during a conventional pulping process the layers of varnish 4 decompose into particles which do not cause problems during the subsequent treatment of the pulp produced or during its transformation into a product while sufficiently protecting the material against humidity

external.

  In the embodiment shown by way of example in the figure, a multiplicity of layers of plastic material are formed on the lower surface of the main layer 1 of the cardboard-based material according to the invention, that is to say say on the surface which is in contact with the product These plastic layers are, starting from the cardboard layer 1, a layer of low density polyethylene 5, a bonding layer 6, for example of modified polyethylene, formed on the surface of the previous layer, a barrier layer 7 of ethylene vinyl alcohol copolymer (EVOH) formed on the surface of the previous layer, a second bonding layer 8 which, like the first bonding layer, is formed for example by modified polyethylene, formed on the surface of the preceding layer, and finally a layer 9, for example made of low density polyethylene, formed on the surface of layer 8 and which is in contact with vec the product to be packaged It should be noted that the figure shows an embodiment by way of example only and that it is possible to modify the plastic layers formed on the lower surface of the cardboard layer 1 as well as the number, composition and order of these layers. The number, order and composition of the layers are determined mainly by the product which is to be packaged. With regard to the possibilities of recycling the cardboard material according to the present invention, all of the plastic layers must have a mechanical strength such that these layers remain substantially in the form of a single block during a pulping process implemented in a conventional disintegrator, so that they can be removed entirely during the process. layers of plastic material must not produce particles or components of any other type which would be detrimental to the subsequent processing of the pulp produced during pulping. The plastic waste produced can be used for example for obtaining of products conventionally made from waste

plastics.

  As indicated above, the coating of plastic material in contact with the product, which, in the embodiment of the figure, consists of layers 5, 6, 7, 8 and 9, must remain in a single block during pulping The internal surface of a conventional carton intended for packaging milk, which

  is covered with polyethylene at a rate of 26 g / m 2, does not meet this condition.

  It has been found that it is possible to obtain a durable structure when the coating

  plastic material includes at least one material layer component

  higher density plastic than conventional low density polyethylene

  nel, i.e. 0.925 g / cm 3 Such a component can for example be a poly-

  high density ethylene (density 0.941 g / cm 3) or, in particular

  advantageous, an ethylene-vinyl alcohol copolymer (density 1.19 g / cm 3).

  However, plastics of this type must also have sufficient extensibility, preferably greater than 100% (according to standard ASTM D-638) Under these conditions it is possible to obtain a coating which remains in a single block during pulping even when it is

  applied at a rate of approximately 20 g / m 2.

Claims (8)

  1 Multilayer material based on cardboard, usable as packaging material, comprising an upper surface distant from the product which is to be packaged and a lower surface in contact with the product which is to be packaged, characterized in that it comprises a main layer of cardboard (1) containing more than 40% mechanical pulp and whose penetration at the raw edge, measured for 24 h with 1% lactic acid, is within the range of 0.5 to 2.5 g / m, a layer of mineral coating (2) on the upper surface of the main layer, at least one layer of varnish (4) on the surface of the mineral coating layer, and a layer of plastic (5, 6, 7 , 8, 9) on the lower surface of the main layer, the mechanical strength of which is such that this plastic layer can be removed substantially in the form of a single block during the pulping process implemented during the recycling material. 2 Multilayer material based on cardboard, usable as packaging material, comprising an upper surface distant from the product which is to be packaged and a lower surface in contact with the product which is to be packaged, characterized in that it comprises a main layer of cardboard (1) containing more than 40% mechanical pulp and whose penetration at the raw edge, measured for 24 h with 1% lactic acid, is within the range of 0.5 to 2.5 g / m, a layer of mineral coating (2) on the upper surface of the main layer, a layer of printing ink (3) on the surface of the mineral coating layer, at least one layer of varnish (4) on the surface of the printing ink layer, and a plastic layer (5, 6, 7, 8, 9) on the lower surface of the main layer, the mechanical strength of which is such that this plastic layer can be removed substantially as a threshold l block during the pulping process which is implemented during the recycling of the material. 3 Multilayer material based on cardboard, usable as packaging material, comprising an upper surface distant from the product which is to be packaged and a lower surface in contact with the product which is to be packaged, characterized in that it comprises a main layer of cardboard (1) containing more than 40% mechanical pulp and whose penetration at the raw edge, measured for 24 h with 1% lactic acid, is within the range of 0.5 to 2.5 g / m, a layer of mineral coating (2) on the upper surface of the main layer, a layer of varnish on the surface of the mineral coating layer, a layer of printing ink (3) on the surface of the layer varnish, at least one layer of varnish (4) on the surface of the printing ink layer, and a layer of plastic (5, 6, 7, 8, 9) on the lower surface of the main layer , whose mechanical strength is such that this layer of material pl can be removed substantially as a single block during   of the pulping process implemented during material recycling.   4 Material according to claim 1 or 2, characterized in that the mechanical paste used for the production of the main layer is a paste produced from grated wood.   Material according to claim 1 or 2, characterized in that the proportion of mechanical pulp in the cardboard of the main layer is included between 40 and 80%.   6 Material according to claim 1 or 2, characterized in that the penetration at the raw edge of the main layer, measured for 24 h with   1% lactic acid is in the range of 1 to 2 g / m.   7 Material according to claim 1 or 2, characterized in that the adhesive used for the adhesion of the main layer is a mixture of a   neutral adhesive and a resin-based adhesive.   8 Material according to claim 1 or 2, characterized in that the   layer of mineral coating is applied at a rate of 10 to 20 g / m 2.   9 Material according to claim 1 or 2, characterized in that the layer of varnish comprises a vinyl varnish of which the diluent is a mixture   alcohol / ester, preferably an ethanol / ethyl acetate mixture.   Material according to claim 1 or 2, characterized in that the   varnish layer comprises an aqueous dispersion of polyacrylate.   11 Material according to claim 1 or 2, characterized in that the plastic layer (5, 6, 7, 8, 9) comprises at least one plastic layer component with a density greater than 0.925 g / m 3. 12 Material according to claim 1 or 2, characterized in that   the extensibility of the plastic layer is greater than 100%.   13 Material according to claim 1 or 2, characterized in that the plastic layer comprises a layer (5) of low density polyethylene in contact with the main layer (1), a first bonding layer (6) on the surface of the previous one, a layer of ethylene-vinyl alcohol copolymer (7) on the surface of the previous one, a second bonding layer (8) on the surface of the previous one and a layer of low-density polyethylene (9) on the surface of the previous one.