Title of Invention

PROCESS FOR THE PRODUCTION OF A MULTILAYER COEXTRUDATE AND THE COEXTRUDATE PRODUCED BY THIS PROCESS

Abstract Process for the production of a multilayer coextrudate with a plastic layer that has release properties with respect to adhesives, where the materials producing the release properties are located within the plastic layer, wherein a first web (2,22) is provided in production of the coextrudate on one side of which a layer of adhesive (3, 23) is located, after which the plastic layer (4, 24) with the release properties follows, which is in turn bonded to a second web (5, 25), and further layers are provided that are located on either or both sides of plastic film.
Full Text FORM 2
THE PATENTS ACT, 1970 (39 of 1970)
COMPLETE SPECIFICATION (See Section 10, rule 13)
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PROCESS FOR THE PRODUCTION OF A-MULTILAYER COEXTRUDATE AND THE COEXTRUDATE PRODUCED BY THIS PROCESS



4P FOLIE FORCHHEIM GMBH of ZWEIBRUCKENSTRASSE 15-25, 91301 FORCHHEIM, DE GERMANY, GERMAN Company



The following specification particularly describes the nature of the invention and the manner in which it is to be performed : -



Process for the production of a multilayer coextrudate and the coextrudate produced by this process
The invention relates to a process for the production of a multilayer coextrudate with a plastic layer that has release properties with respect to adhesives, where the materials producing the release properties are located within the plastic layer.
The purpose of the invention is to indicate a process of the kind outlined above with which a composite material consisting of a web, an adhesive, a release layer and a further web for the release layer can be produced in an efficient way.
In the solution to this problem proposed by the invention, a first web is provided in production of the coextrudate on one side of which a layer of adhesive is located, after which the plastic layer with the release properties follows, which is in turn bonded to a second web.
At least the basic structure of the composite material is produced in a single operation by this coextrusion process.
It has proved to be particularly favourable in this context if in accordance with a further development of the invention the layers of the coextrudate are coextruded simultaneously.
Particularly efficient production of the entire layer structure is achieved as a result.
In a particularly advantageous development of the invention, the layers are extruded simultaneously by the blown film process.
It is, however, also possible in accordance with a further development of the invention that the layers are produced by the cast film process.
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In accordance with a further advantageous development of the invention, it is possible that a substrate web, to which the other layers are extruded in a single process operation, is provided as the first or second web.
This process is particularly favourable especially when a web is being used that is difficult or impossible to extrude at the same time, as all the other layers can be applied to the web that is acting as the substrate web in a single operation.
It is also very advantageous if in accordance with a further development of the invention a plastic film, to which the other layers are extruded in a single process operation, is provided as the substrate web.
A further advantageous development of the invention is characterised by the fact that at least the substrate web is oriented.
The coextrudate receives favourable strength properties as a result.
It is also possible in accordance with an advantageous development of the invention that the entire coextrudate is oriented.
All the layers that can be oriented can help to increase the strength properties in this case.
In accordance with an advantageous development of the invention, a multilayer coextrudate has at least two plastic films, between which a layer of adhesive and a further layer that has release properties with respect to the adhesive are located.
In a further advantageous development of the invention, further layers are provided that are located on either or both sides of the plastic films.
It has proved to be very advantageous if in accordance with a further development of the invention at least part of the coextrudate structure is oriented.
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Considerable increases in strength are achieved by orienting the substrate web or the finished coextrudate.
Two embodiments of the invention are illustrated in the drawings:
Fig.l is a diagrammatic view of the structure of a composite material that consists of four layers and
Fig.2 shows a further composite material consisting of five layers, again in a diagrammatic view.
1 in Fig. 1 is a composite material that consists of four layers and has been produced by the coextrusion process. A layer of adhesive 3, next to which a further layer 4 that has release properties with respect to the adhesive is located, is provided on one side of a first web 2. This release layer 4 is in turn bonded to a second web 5. If both of the webs 2 and 5 are made from a coextrudable plastic, all four layers can be produced simultaneously, not only by the blown film process but also by the cast film process. It is, however, also possible to coat the web 2 or the web 5 with the other layers subsequently by the coextrusion process.
Fig. 2 shows a further composite material 21 that consists of five layers. What is involved here is a web 22 that acts as the substrate layer for a release layer 24. This release layer 24 faces a layer of adhesive 23 that is bonded to a web 25 made of plastic. This web 25, which acts as the core layer, has a surface layer 26 on its side facing away from the layer of adhesive 23. Such a surface layer can also be provided on the web 22 that acts as the substrate layer for the release layer.
Different plastics can be used as the substrate layer for the release layer. Good properties have, for example, been achieved with LDPE, LLDPE, H.DPE, PP, mPE, PETP and PS, in each case 20 to 40 u. thick, while the actual release layer was 5 to 10 u. thick. PP, OPP, PE, LDPE, LLDPE, mPE, PS and PET have been used very successfully for the web that supports the adhesive, with material thicknesses between 60 and 200 u.,
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depending on the material used. This web has in some cases been provided with an additional coating on the outside to improve printability.
The webs have in some cases been divided up into several individual layers made from different materials too.
Extrudable, permanently tacky adhesives based on hotmelts and polyolefins with appropriate tackifying additives have been used successfully as adhesives.
Example 1:
Use of SIS, SBS, SEES and SEP block copolymers with melt indices of between 8 and 65 g / 10 min at 200° C and 5 kg. The styrene content of the polymers varies between 10 and 35%. The properties of the adhesive layer are controlled by the addition of resins and plasticisers, e.g. by means of aliphatic hydrocarbon resins, polyterpene resins, hydrolysed hydrocarbon resins, aromatic hydrocarbon resins, paraffin waxes, microcrystalline waxes, polyisobutylene and process oils.
Liquid components are processed into an extrudable form by carrying out a compounding operation first.
The extrusion temperatures vary between 100 and 240° C, avoiding excessively high shear forces at the same time.
Example 2:
Another way to produce the adhesive layer involves the inclusion of UV acrylates or UV-curing PSAs between the coextruded substrate and release layers by using melt transport technology.


The radiation-cured basic materials are, for example, acrylate copolymers with an integrated photoinitiator. UV cross-linking is carried out by the polymer substrate ayerz for the adhesive.
The acrylate copolymers can be modified by resins and plasticisers, while the tack of the adhesive layer can be regulated via the radiation dose.
Typical radiation wavelengths for cross-linking purposes are in the range between 250 and 260 nm (UVC).
Typical processing temperatures for the acrylate copolymers are between 110 and 150° C.
If a substrate web is used that is coated by the coextrusion process, it is possible to orient not only the substrate web alone but also the finished coextrudate in order to increase the strength properties.
If the entire structure is produced as a coextrudate, this coextrudate can also be oriented subsequently to increase the strength properties.
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WE CLAIM :
1. Process for the production of a multilayer coextrudate with a plastic layer that has release properties with respect to adhesives, where the materials producing the release properties are located within the plastic layer, wherein a first web (2,22) is provided in production of the coextrudate on one side of which a layer of adhesive (3, 23) is located, after which the plastic layer (4, 24) with the release properties follows, which is in turn bonded to a second web (5, 25), and further layers are provided that are located on either or both sides of plastic film.
2. Process according to claim 1, wherein the layers of the coextrudate are coextruded simultaneously.
3. Process according to claim 1 or 2, wherein the layers are extruded simultaneously by the blown film process.
4. Process according to claim 1 or 2, wherein the layers are produced by the cast film process.
5. Process according to claim 1 or 2, wherein a substrate web (2, 5; 22, 25), to which the other layers are extruded in a single process operation, is provided as the first or second web.
6. Process according to claim 1, wherein a plastic film, to which the other layers are extruded in a single process operation, is provided as the substrate web (2, 5; 22, 25).
7. Process according to one of the previous claims, wherein at least the substrate web is oriented.
8. Process according to claim 7, wherein the entire coextrudate is oriented.
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9. Multilayer coextrudate produced in accordance with the process as described in one of the previous claims, wherein at least two plastic films (2, 5; 22, 25) are provided, between which a layer of adhesive (3, 23) and a further layer (4, 24) that has release properties with respect to the adhesive (3, 23) and a further layer (4,24) that has release properties with respect to the adhesive are located, and further layers (26) are provided that are located on either or both sides of the plastic films.
Dated this 19th day of April, 2001.








Documents:

abstract1.jpg

in-pct-2001-00432-mum-cancelled pages(29-06-2004).pdf

in-pct-2001-00432-mum-claims(granted)-(29-06-2004).doc

in-pct-2001-00432-mum-claims(granted)-(29-06-2004).pdf

in-pct-2001-00432-mum-correspondence(29-06-2004).pdf

in-pct-2001-00432-mum-correspondence(ipo)-(14-06-2007).pdf

in-pct-2001-00432-mum-drawings(29-06-2004).pdf

in-pct-2001-00432-mum-form 19(17-02-2004).pdf

in-pct-2001-00432-mum-form 1a(29-06-2004).pdf

in-pct-2001-00432-mum-form 2(granted)-(29-06-2004).doc

in-pct-2001-00432-mum-form 2(granted)-(29-06-2004).pdf

in-pct-2001-00432-mum-form 3(17-02-2004).pdf

in-pct-2001-00432-mum-form 5(17-02-2004).pdf

in-pct-2001-00432-mum-form-pct-isa-210(19-04-2001).pdf


Patent Number 207478
Indian Patent Application Number IN/PCT/2001/00432/MUM
PG Journal Number 30/2007
Publication Date 27-Jul-2007
Grant Date 14-Jun-2007
Date of Filing 19-Apr-2001
Name of Patentee 4P FOLIE FORCHHEIM ZWEIGNIEDERLASSUNG DER HUHTAMAKI VAN LEER DEUTSCHLANDGMBH & CO., KG.
Applicant Address ZWEIBRUCKENSTRASSE 15-25, 91301 FORCHHEIM, DE GERMANY.
Inventors:
# Inventor's Name Inventor's Address
1 GUNTER,WALTER HOPFENGARTEN 12, D-37120 EDDIGAHAUSEN, GERMANY.
PCT International Classification Number C09J 7/02
PCT International Application Number PCT/EP99/08405
PCT International Filing date 1999-11-03
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 198 51 105.1 1998-11-06 Germany