NZ218394A - Tubular multi-layer film and manufacture thereof - Google Patents

Description

NEW ZEALAND PATENTS ACT, 1953 No.: Date: COMPLETE SPECIFICATION TUBULAR, MULTI-LAYER FILM AND METHOD OF MANUFACTURE 1-7Wc, THE DOW CHEMICAL COMPANY of 2030 Dow Center, Abbott Road, Midland, Michigan 48640, United States of America, a corporation organized and existing under the laws of the State of Delaware, United States of America hereby declare the invention for which 1 / we pray that a patent may be granted to fRe/us, and the method by which it is to be perfc to be particularly described in and by the following statement: (followed by la) 1 -lUs TUBULAR,MULTI-LAYER FILM AND METHOD OF MANUFACTURE The present invention relates to a multilayer tubular film and a method of making the film by extrusion. More particularly, the present invention relates to a multiple-layer composite film in which a central or core layer provides a substantially uniform, relatively low oxygen transmission rate therethrough over the entire peripheral surface of the film, including the weld line produced during extrusion of the film.

Film structures which include a polyvinylidene chloride layer have, in the past, been difficult to extrude into a tubular form. Extrusion of polyvinyl-idene chloride resins, such as Saran , presents special problems due to the thermal degradation of the polymer 1 which can occur in the extrusion die. It has been found, however, that by using a multi-component feed-block in which the polyvinylidene chloride resin is in the center of the feedblock, the resin in the center moves more quickly through the die than the resinous materials adjacent to the die walls, making extrusion ,521-F I of the resin in the center possible. The polyvinylidene chloride core is encapsulated by a thermally stable synthetic resinous material, such as polye-ff\ thylene. When the resin is extruded through the feedblock, the resulting extrudate includes a central or core layer of the polyvinylidene chloride resin.

A problem in forming an encapsulated polyvinylidene chloride resin into a tubular film by extrusion resides in the production of a seam produced 10 during the extrusion process. This seam extends longitudinally along a weld line of the tubular extrusion. Generally, an extrusion die used to produce a tubular extrusion defines an annular chamber into which a synthetic resinous material is forced. The resinous 15 material divides into two substreams which flow in opposite directions around the annular chamber, meeting on the opposite side of the chamber where they recombine. The streams then exit from the annular chamber through an annular opening and, at the point of recombination, 20 define the weld line.

It will be appreciated that if a feedblock having a core of a polyvinylidene chloride resin and outer, encapsulating polyethylene layers were to be extruded in this fashion, the polyvinylidene chloride 25 core layer would not recombine along the weld line.

Instead, only the encapsulating resinous material would recombine at the weld line. Since a polyethylene layer permits a much higher level of gas transmission therethrough as compared to a layer of polyvinylidene chloride 30 of the same thickness, a tubular composite film having non-uniform gas transmission properties is produced. ,521-F r This is particularly undesirable where the film is to be used for the containment of a gas-sensitive material. For example, if the tubular film having a gap in the ^ polyvinylidene chloride layer along its weld line were to be utilized for meat storage, the shelf life of the product would be shortened due to the transmission of oxygen through the gap in the barrier layer. It will be appreciated that a film having areas of high gas > transmission would be unacceptable for this and many other applications.

One solution to this problem, as suggested by U.S. Patent No. 4,042,661, issued August 16, 1977 to Cook, is to extrude coaxially two multi-layer tubular film structures, with the weld lines of the two film 15 structures spaced from each other around the periphery of the final tubular film. While providing a solution to the problem discussed above, Cook requires several polyvinylidene chloride core layers. Thus, the structure would be very complicated and difficult to manu-20 facture. For a given film thickness, the individual layers would become too thin to extrude where a plurality of multi-layer film structures are employed.

Accordingly, there is a need for a composite film having a core layer which, in tubular form, pro-25 vides a generally uniform barrier to oxygen trans-^ mission therethrough around its periphery and which is simple in construction.

Since the film of the invention does not have a seam as would occur by an overlapping of the layers, ,521-F fc^ the integrity of the film is strong. The film has a uniform thickness over its entire circumferential extend and is therefore more easily flattened and rolled-up. A film with a thicker seam is not readily 5 rolled up since the superimposed seams form a bulge in the rolled up film which tends to become more pronounced the more turns of the film are wound on to a roll. Any recurring deformity in a film therefore has a tendency to build up as the film is rolled up, even-10 tually causing a creasing, misalignment, and tearing of the film.

Any non-uniformities in the film of the invention are randomized so that such non-uniformities can not cause excessive bulging as the film is rolled 15 up. The term "randomizing" herein refers to a distribution of non-uniformities of the film over the surface of the roll as the film is rolled up.

Since there is no bonding or welding of the film of the invention, the film has a uniform strength 20 and a uniform thickness.

Generally, the tubular, multi-layer film of the present invention comprises a central barrier layer, an adhesive layer on each side of the barrier layer, and inner and outer surface or skin layers. The 25 adhesive layers completely cover the central barrier layer. Opposing edges of the central barrier layer have thinner edge portions which overlap by a substantial amount along a weld line such that the barrier layer has a uniform thickness providing a substantially 30 uniform gas transmission barrier at all points over the ,521-F _4_ tip entire peripheral surface of the tubular film. The inner and outer adhesive layers extend completely around the interior and the exterior of the core layer to protect the barrier layer from thermal degradation.

The inner and outer skin layers of the film are made of a synthetic resinous material such as, for example, polyethylene, polypropylene, and the like. The total thickness of the film is in the range of from 20 to 150 micrometer and, preferably about 50 micro-10 meter. The central barrier layer has a thickness of from 3.5 to 15 micrometer, preferably about 6 micrometer. The inner and outer adhesive layers each have a thickness of from 3.5 to 11.5 micrometer and, like the barrier layer, preferably have a thickness of about 6 15 micrometer. The inner and outer skin layers are substantially equal in thickness and together make up the remaining thickness of the film. The central barrier layer overlaps by approximately 15 mm along the weld line, which is sufficient such that the oxygen trans-20 mission rate of the tubular film adjacent the weld line is no greater than the oxygen transmission rate through other portions of the tubular film.

The invention particularly resides in a tubular, multi-layer, composite film, comprising a 25 central gas and vapor barrier core layer of a synthetic resinous material having opposing edges, inner and outer adhesive layers of a synthetic resinous material adhered to opposite sides of said central barrier layer, and inner and outer skin layers of a synthetic 30 resinous material adhered to said inner and outer ,521-F adhesive layers respectively, wherein the layers of said composite film are coextruded, and wherein the opposing edges of said core layer are in an overlapping relationship with each other along a weld line which 5 extends longitudinally along said tubular film such that the core layer provides a substantially uniform barrier to the transmission of gas and vapor over the entire surface of said composite film. f The invention also resides in a method of 10 making a tubular, multi-layer film comprising the steps of: a) extruding a core layer of a polymeric barrier material having opposing edges and inner and outer adhesive layers covering said core layer into a first stream, said first stream having a generally annular cross-section of uniform thickness, the edges of said core layer having edge portion of a lesser thickness than the remaining portion of said core layer, said edge portions being in an overlapping 20 relationship along a weld line; b) extruding a second stream of a polymeric ' 1 material having a generally annular cross-section, the second stream being positioned within the first stream and joined thereto by the inner adhesive layer; and 25 c) extruding a third stream of a polymeric material having a generally annular cross-section, the third stream surrounding the first stream and being joined thereto by the outer adhesive layer.

The step of extruding the tubular central 30 barrier or core layer includes the step of extruding the first stream such that the thinner edge portions of the core layer overlap each other by about 1.5 cm when the core layer has a thickness of about 6 micrometer ,521-F ask whereby the core layer is of substantial uniform thickness and provides a generally uniform barrier to the passage of gases and vapors, e.g. air or oxygen, ^ therethrough around its entire peripheral surface.

Accordingly, the present invention provides a multi-layer tubular extrudate having a central or core layer which acts as a barrier layer to limit the transmission of gas or vapor therethrough, and in which the extrudate has gas transmission properties in the region 10 of the weld line equivalent to those found in other regions of the extrudate.

These and other objects and other advantages of the invention will become apparent from the following detailed description, the accompanying drawings, 15 and the appended claims.

Figure 1 is a sectional view of a multi-layer tubular extrudate of the present invention, with the individual layer thicknesses greatly exaggerated for purposes of illustration; and Figure 2 is a partial sectional view, greatly enlarged, of the extrudate in the region of the weld line.

The tubular film of the invention comprises a central barrier layer 10 and an adhesive layer 12 and 25 14 adhered to opposite surfaces of the central barrier layer 10. The barrier layer 10 is made of a synthetic polymeric material, preferably a polyvinylidene chlor-ide resin, such as Saran , made by The Dow Chemical ,521-F Company. The material employed in the adhesive layers 12 and 14 comprise any one of a number of well known polymeric resinous materials such as, for example, ethyl vinyl acetate or copolymers of ethylene and 5 ethylenically unsaturated carboxylic acid, such as ethylene acrylic acid. The adhesive layers 12 and 14 completely cover the opposite surfaces of the central barrier layer 10. 1 As best seen in Figure 2, the opposing edge 10 portions 16 and 18 of the central barrier layer 10 overlap each other along the weld line. By virtue of this overlapping configuration, the central barrier layer 10 exhibits a substantially uniform oxygen transmission rate at all points along its periphery.

The multi-layer film further includes inner and outer surface or skin layers 20 and 22, respectively. The inner layer 20 extends completely around the interior surface of the tubular, multi-layer composite film, and the outer layer 22 extends completely 20 around the exterior surface of the tubular, multi-layer composite film. The skin layers 20 and 22 preferably are formed of a synthetic polymeric material such as, for example, polyethylene, polypropylene, and the like. When the central core layer is made of a high barrier 25 material such as Saran®, it is generally known that the Saran deteriorates as a result of exposure to an elevated temperature during extrusion from an extrusion die. Accordingly, the adhesive layers 12 and 14 protect the central barrier layer 10 from degradation.

The tubular multi-layer film of the present invention is formed by coextrusion. A co-extrusion ,521-F -9- £* S O J 7 ;die, such as is shown in U.S. Patent No. 4,365,949 is generally used to co-extrude three laminate layers simultaneously. Streams of a polymeric material are O supplied to the die to extrude inner and outer layers ;5 20 and 22, respectively. An inlet opening of the die is in communication with a central extrusion passage which is supplied with a stream of polyvinylidene chloride which is completely encapsulated by an adhesive layer of a polymeric material. This poly-10 vinylidene chloride/polymeric adhesive composite is extruded into a stream having a generally annular cross-section. The central extrusion passage is shaped to ensure that there is an overlap of the polyvinylidene chloride layer along a weld line as depicted in 15 Figure 2. This overlap produces an oxygen transmission level in the region of the weld line which is comparable to that provided by the polyvinylidene chloride layer in other areas of the tubular, multi-layer film. ;For a polyvinylidene chloride layer having a 20 thickness of approximately 6 micrometer, the overlap required is approximately 1.5 cm. The adhesive layers 12 and 14 not only bond the polyvinylidene chloride central barrier layer 10 together in an overlapping fashion at overlapping edge portions 16 and 18, but 25 they also join inner layer 20, extruded as a second extrusion stream, and outer layer 22, extruded as a third extrusion stream, to the central barrier layer 10. ;While the methods and compositions herein 30 described constitute preferred embodiments of the invention, it is to be understood that the invention is ;30,521-F ;-9- ;ami ;-iu- ;jf a e: 2 - -3 ■* esam 9 ~"m' """"" "" not limted to these precise methods and compositions, and that changes may be made in either without departing from the scope of the invention, which is defined in the appended claims. ,521-F

Claims (8)

/HATf/WS CLAIM IS:

1. A tubular, multi-layer, composite film, comprising a central gas and vapor barrier core layer of a synthetic resinous material having opposing edges, inner and outer adhesive layers of a synthetic resinous material adhered to opposite sides of said central barrier layer, and inner and outer skin layers of a synthetic resinous material adhered to said inner and outer adhesive layers, respectively, wherein the layers of said composite film are coextruded, and wherein the opposing edges of said central barrier layer are in an overlapping relationship with each other along a weld line which extends longitudinally along said tubular film such that the central layer provides a substantially uniform barrier to the transmission of gas and vapor over the entire surface of said composite film.

2. The tubular film of Claim 1 wherein said central barrier layer has a thickness of from 3.5 to 15 micrometer, said inner and outer adhesive layers each have a thickness of from 3.5 to 11.5 micrometer, and wherein the total thickness of the film is in the range of from 20 to 150 micrometer.

3. The tubular film of Claim 2 in which the edge portions of said central barrier layer overlaps by about 1.5 cm along said weld line. 30,521-F -11- 2183

4. The tubular film of any one of the preceding claims in which said central barrier layer comprises polyvinylidene chloride.

5. The tubular film of any one of the preceding claims in which said inner and outer surface layers are selected from polyethylene and polypropylene.

6. The tubular film of any one of the preceding claims, wherein said adhesive layers are selected from copolymers of ethylene and vinyl acetate and copolymers of ethylene and ethylenically unsaturated carboxylic acid.

7. The tubular film of any one of Claims 2 to 6 in uhich said central barrier layer and said adhesive layers each have a thickness of about 6 micrometer.

8. A method of making a tubular, multi-layer film comprising the steps of: a) extruding a core layer of a polymeric barrier material having opposing edges and inner and outer adhesive layers covering said core layer into a first stream said first stream having a generally annular cross-section of uniform thickness, the edges of said core layer having edge portion of a lesser thickness than the remaining portion of said core layer, said edge portions being in an overlapping relationship along a weld line; b) extruding a second stream of a polymeric material having a generally annular cross-section, the second stream being positioned within the first stream and joined thereto by the inner adhesive layer; and c) extruding a third stream of a polymeric material having a generally annular cross-section, the third stream surrounding the first stream and being joined thereto by the outer adhesive layer. umldthis^ day of ufb A. J. PARK & SON agentWor the applicants