DE2403034A1 - Six-ply, laminate, collapsible, container - made of polyolefin, ethylene-acrylic acid copolymer, aluminium foil, and polyacrylic acid components - Google Patents

Abstract

A six-ply, laminate is made up of the following layers: (a) a polyolefin layer (e.g. HDPE) 0.0005-0.007'' thick; (b) an ethylene-acrylic acid copolymer layer 0.0005-0.003'' thick; (c) an Al-fil, 0.0005-006'' thick; (d) an acrylic acid polymer layer 0.00025-0.001'' thick: (e) a polyolefin layer (suitable for printing upon) 0.001-0.005'' thick; (f) a polyolefin (e.g. LDPE) layer 0.005-0.003'' thick, as topmost lamina. The laminate is used in the mfr. of collapsible containers e.g. toothpaste tubes. A collapsible tube made of the laminate retains its ''folded'' shape when squeezed in use i.e. it does not tend to regain its original shape. Thus the contents does not tend to get sucked back into the tube. Indicia printed on layer (e) will stay there longer than when printed on a metal layer.

Description

Composite material and container made therefrom The invention relates to on a composite material, especially for use in collapsible containers as well on containers made of this material.

It has long been known to manufacture at least partially metal of collapsible containers, such as Toothpaste tubes or the like to be replaced by different plastic materials, as this results in lower manufacturing costs as well as simplified manufacturing processes can be achieved. As a result, it will much easier to apply different prints to the material, for example To print instructions for use or advertising imprints on the plastic, whereby the Printing process is far easier to accomplish because a flat surface is available stands; it is much more difficult to put prints on round metal containers. In addition, it has been shown that every print on plastic material lasts better than on metal.

So far, however, plastic containers have had a serious disadvantage, which has prevented them from being used in all areas of packaging technology Find. This disadvantage is that plastic materials always strive to to take on their original shape again after deformation} which has the effect of that such plastic containers part of the content that is squeezed out of them was sucked back after the pressure was released. This results in, that such containers cannot be rolled up permanently, as is the case with metallic ones Containers is easily possible, in which you squeeze out the last remainder of the contents can and at which it is possible to determine beforehand at any time, how much of the contents is left in the container.

In U.S. Patent 3,347,419 is a composite material foldable one Tube described, the material of which consists of a metallic intermediate layer, on which a thermoplastic layer is applied inside the tube. At the The subject of this patent is the metal foil to provide a protective jacket against the penetration of oxygen from the atmosphere and at the same time to form the Prevent essential oil from leaking out of the tube body. With the well-known Material is the thermoplastic layer by means of an adhesive layer and at high Temperature associated with the metal foil. The ratio of the thickness of the metal foil to the thickness of the plastic layer is only about 1: 7, which is completely inadequate, to overcome the dimensional stability of the plastic layers. The applicant of this However, this was probably not the aim of the invention at the time.

It is the object of the present invention to provide a composite material from To create aluminum and plastic, which can be converted into collapsible containers, especially tubes, can be processed and has sufficient folding properties, for example to be used with tubes.

The object is achieved according to the invention in that the following Individual materials are used: (a) a first layer in a thickness of 0.0005-0.007 Zoll1 consists of a polyolefin, (b) on top of that a second layer of one thickness from 0.0005-0.003 inches of ethylene acrylic acid based material, (c) above a third layer Op005-0.006 inches thick of aluminum foil, (d) above a fourth layer 020025-0.001 inch thick of acrylic acid, (e) above a fifth layer 0.001-0.005 inches thick of a polyolefin backing for prints, as well as (f) above a sixth layer as a cover layer in one thickness from 0.005-0.003 inches of a polyolefin.

The composite material according to the invention makes it possible without any problems To produce collapsible containers, in particular tubes for toothpaste, glue, food, etc. The material retains its folded shape at all times. Through this is the material in terms of its foldability is equivalent to the previously known Metal. But it is easier to process, print and also cheaper. Imprints are additionally protected against smudging by the fact that they are underneath the top layer of plastic are protected.

The invention is explained by means of a drawing which shows a Shows section through the composite material.

The composite material is based on a layer 1 made of polyolefin built up. This material is preferably made of polyolethylene or lower high density and has a thickness of 0.0005-0.007 inches, in one embodiment a material 0.0015-0.002 inches thick was used. This is the one Layer that comes into direct contact with the contents stored in the container. A layer 2 made of ethylene-acrylic acid or a layer lies on top of the above-mentioned base layer another material that can be applied well to aluminum and a thickness of 0.005-0.003 inches, and preferably 0.001-0.0015 inches thick. About this Layer is a layer 3 of an aluminum foil cder made of an aluminum-based alloy, 0.005-0.003 inches thick, preferably 0.001-0.0015 inches thick. Above this Layer is a layer 3 made of aluminum foil or an aluminum alloy from 0.0005 to 0.006 inches, preferably 0.002 inches, thick.

Suitable alloys based on aluminum are, for example, the alloys 1100 and 3003 or other alloys that are not too stiff and neither are they exhibit excessive brittleness when subjected to deformation.

The film should be thick enough to withstand water, To be impermeable to steam, especially water vapor and gas.

Over this layer is a relatively thin layer 4 of ethylene acrylic acid, which is thinner than Layer 2 and is 0.00025-0.001 inches thick and is preferably 0.0005 inches thick. A layer 5 lies on top of this layer made of low or medium density polyolefin, such as polyethylene or Polypropylene; prints can be applied to this layer or layer, for example Descriptions, individual words or two-dimensional or decorative symbols, in particular for advertising purposes. The thickness of this layer can be selected from 0.001-0.005 inches and is preferably approx.

0.002 in. A layer 6 intended as a protective layer Polyolefin low density, such as polyethylene or polypropylene, is above the aforementioned Layers. This layer can be chosen to be between 0.005-0.003 inches thick and is preferably -0.0015 inches thick.

The best processability and properties of the invention Composite material results when a thickness ratio between the metal and the total thickness of the plastic layers used is selected from 1: 3 to about 1: 5 and the corresponding weight ratios are between 1: 2 to 1: 4; at In these conditions the material retains its shape as soon as it is folded. Preferably a weight ratio of 1: 3 is chosen, while the total thickness of the composite material should be between 0.008 and 0.009 inches.

The material described in two-dimensional form is based on conventional side by side working extruders and using printing machines, for example Cylinder printing machines. According to the invention, the extruded material under the necessary pressure and with the necessary temperature and possibly other, physical requirements, including the exact dimensioning of the thicknesses heard.

Once the composite material is extruded, it can be placed in collapsible containers processed, and this can be done by a method and an arrangement, as described, for example, in U.S. Patent Application No. 189,083 dated 10/14/71 will. Such containers were designed with sufficient property to be folded, designed so that they do not move like other containers made of standard plastic composite material behavior. In contrast to this, the containers with the material according to the invention how metal containers are folded or rolled up.

Two exemplary embodiments according to the invention are given below, which are explained by the drawing: Example I position no. Thick material 1 0.002 "High Density Polyethylene 2 0.001" Ethylene Acrylic Acid 3 0.002 "Alloy 1100 4 0.0005 t ethylene acrylic acid Location no. Thickness of material 5 0.002 Inch Low Density Polyethylene 6.001 "Low Density Polyethylene Example II position no. Thickness Material 1 0.0015 "Low Density Polyethylene 2 0.0015" Ethylene Acrylic Acid 3 0.002 "Alloy 3003 4 0.0005" Ethylene Acrylic Acid 5 0.002 "Medium density polyethylene 6 0.001" Low density polyethylene Here the densities of polyethylene have the following values: density of polyethylene Specific gravity low 0.910 to 0.925 medium 0.926 "0.940 high 0.941" 0.965

Claims (7)

Claims 0 composite material, in particular for use in Foldable containers, not marked through the use of the following individual materials: (a) A first layer (1) 0.0005-0.007 inches thick, consisting of one Polyolefin, (b) thereover a second layer (2) 0.0005-0.003 inches thick made of a material based on ethylene-acrylic acid, (c) above a third layer (3) 0.0005-0.006 inches thick of aluminum foil, (d) above a fourth Layer (4) 0.00025-0.001 inch thick of acrylic acid, (e) above one fifth layer (5) 0.001-0.005 inches thick of a polyolefin as a carrier for prints, as well as (f) above a sixth layer (6) as a cover layer in one 0.005-0.003 inches thick made from a polyolefin. 2. Composite material according to claim 1, characterized in that g e k e n n -z e i c h n e t that the ratio of metal thickness to the total thickness of all plastic layers between 1: 3 and 1: 5. 3., composite material according to claim 1 and / or claim 2, characterized in that g It is not noted that the first layer (1) is made of high density polyethylene consists, the second layer (2) made of ethylene acrylic acid, the third layer (3) made of aluminum foil, the fourth layer (4) made of ethylene acrylic acid, the fifth layer (5) and the sixth Layer (6) consist of low density polyethylene. 4. Composite material according to one or more of claims 1 to 3, by noting that the weight ratio of metal to plastic is about 1: 2 to 1: 4. 5. Composite material according to one or more of claims 1 to 4, in that the material thickness is dimensioned so that the material is impermeable to water, steam, especially water vapor and gas. 6. composite material according to one or more of claims 1 to 5, by noting that the weight ratio of metal to plastic 1: 3. 7. Collapsible container, thereby g e k e n n n z e i c h n'e t that it consists of one Material according to one or more of claims 1 to 6. Blank page