NL9401752A - Laminated packaging or covering material, method for the production thereof and packaging or covering formed from this material. - Google Patents

Description

Laminated packaging or covering material, method for the production thereof and packaging or covering formed from this material

The present invention relates to packaging or covering material for use in, for example, bags, covers for steel coils or in insulating material of roof coverings.

A layered material is known which is used to form bags for storing and transporting, for example, caprolactam or other granules. Such bags are exposed to very harmful environmental influences, such as light, moisture, mechanical loads and the like, and the bag must protect the contents against them. The layered paper can be used independently or as an outer bag in a so-called double bag and in the known embodiment consists of five layers, namely a paper layer successively, a polyethylene adhesive layer, a woven polypropylene layer, another polyethylene adhesive layer and finally another paper layer. Although such a complex layered material is strong, it is on the other hand expensive and not recyclable due to the mixture of paper and plastic.

The object of the present invention is to provide a new layered packaging or covering material, wherein the above-mentioned problems are effectively remedied.

To achieve this goal, the material according to the invention is characterized in that the material consists exclusively of at least three layers of paper bonded by biopolymer-based adhesive.

Manufacturing the material exclusively from paper and biopolymer-based adhesive creates a fully recyclable material, which offers major environmental benefits. Furthermore, it has surprisingly been found that the total strength of the layered material is considerably greater than the addition of the strengths of the individual paper layers. Although this synergy effect in the field of plastics is known, it is a surprising result in the paper industry. If a very strong type of paper is chosen for the paper layers (for example with a TEA of 3.3 - 3.5), a very strong material is created.

The biopolymers-based adhesive advantageously consists of starch glue, to which a moisture-resistant additive is preferably added. These measures provide a moisture-resistant material in an inexpensive manner.

A special embodiment of the material, which is intended in particular for forming packaging bags, is characterized in that parallel ribs are formed on the material, which in the case of bags extend in the longitudinal direction of the bags. These ribs impart rigidity to the material in a direction perpendicular thereto which is particularly desired in bags during the filling of the bags, because the bags remain upright due to the rigidity during filling and do not tend to collapse or to to bend.

The ribs in the material are preferably formed by passing the web of material between rolls in a wet state, at least one of which, but preferably the rolls on either side of the paper, are provided with circumferential grooves. In this way, the paper is compressed between the roll grooves and forced into the roll grooves, creating a rigid paper with rigidity provided by the ribs.

The invention will be further elucidated hereinafter with reference to the drawing, which shows an exemplary embodiment of the material according to the invention.

In the exemplary embodiment according to the drawing, use is made of five layers of paper 1-5 which are interconnected by a biopolymers-based adhesive 6, in particular starch glue. Of course, the starch glue will not only be present between the paper layers 1-5, but also therein. A moisture-resistant additive has been added to the starch in order to make the material moisture-resistant or. waterproof. For the paper layers 1-5, a very strong paper with a TEA (Tensile Energy Absorption) of 3.3 - 3.5 can be used, but of course any desired type of paper can be used depending on the application. The number of layers can also be varied. The drawing uses five layers of paper, but it is also possible to use only three or four layers or more than five layers.

The illustrated exemplary embodiment of the material is intended in particular for making strong bags for packaging granulates, such as caprolactam.

In this case, an outer bag can be formed from the material according to the invention, in which a removable inner bag can be arranged. According to the invention, to impart stiffness to the bag in order to leave the bag well open during filling, parallel ribs 7 with grooves 8 on the opposite surfaces of the material are formed therebetween to impart stiffness to the material perpendicular to the ribs. Therefore, the ribs will extend in the longitudinal direction of the bag. The ribs, which need only be a few micrometers in height, are preferably made immediately after joining the five layers of paper with starch adhesive between them by passing the material web wet in the nip of circumferentially grooved rollers.

Tests have shown that the total strength of the shaped material according to the invention in the illustrated exemplary embodiment with five layers of paper is 1.6 to 1.7 x greater than the strength of the five layers of paper individually, which is surprising. Therefore, it is possible by the invention to provide an inexpensive, fully recyclable but also strong material.

The invention is not limited to the exemplary embodiment shown in the drawing and described above, which can be varied in various ways within the scope of the invention. For example, other biodegradable substances may have been added to the paper.

Claims (8)

1. Layered packaging or. covering material provided with at least two paper layers bonded by adhesive, characterized in that the material consists exclusively of at least three paper layers bonded by biopolymer-based adhesive. The material of claim 1, wherein the adhesive consists of starch glue. The material according to claim 2, wherein a moisture-resistant additive is added to the starch glue. 4. Material as claimed in any of the foregoing claims, in particular for forming a packaging bag, in which parallel ribs are formed on the material. A method for manufacturing a web of material according to any one of the preceding claims, wherein at least three layers of paper with a biopolymer-based adhesive in between are joined together and rolled together. The method of claim 5, wherein the wet web is fed between rollers, at least one of which is provided with circumferential grooves. Bag formed with the material according to any one of claims 1-4. A bag according to claim 7 made with paper according to claim 4, wherein the parallel ribs extend in the longitudinal direction of the bag.