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Transparent, coated, shrinkable, oriented polypropylene film

a polypropylene film, biaxial orientation technology, applied in the field of polymer films, can solve the problems of unsuitability of heat-shrinkable films for applications, unique problems in the film or packaging of materials such as boxes, and printing distortion and unclear effects

Inactive Publication Date: 2003-08-21
EXXONMOBIL CORP (US)
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0013] The substrate is formed as a core layer disposed between two outer layers. The core layer is a blend of polypropylene homopolymer and a copolymer of propylene and ethylene and the outer layers include a propylene-ethylene-butylene terpolymer. The coating is a water-based coating which includes an acrylate, polyvinylidene chloride, PVOH, EVOH, clay filler or combinations thereof. Prior to coating, the substrate may be corona treated and / or a primer may be applied. The drying step may include controlling air flow, temperature profile and tension of the film to simultaneously prevent both shrinkage and wrinkling of the substrate.
[0048] Before applying the coating composition to the appropriate substrate, the surface of the substrate film is treated to ensure that the coating will be strongly adherent to the film thereby eliminating the possibility of the coating peeling or being stripped from the film. This treatment may be accomplished by employing known prior art techniques such as, for example, film chlorination, i.e. exposure of the film to gaseous chlorine, treatment with oxidizing agents such as chromic acid, plasma, hot air or steam treatment, flame treatment and the like. Although any of these techniques may be effectively employed to pretreat the film surface, a particularly desirable method of treatment has been found to be the so-called electronic treatment method which comprises exposing the film surface to a high voltage corona discharge while passing the film between a pair of spaced electrodes. After electronic treatment of the substrate film surface, it may be coated with the coating composition of the present invention which coating will then exhibit a tendency to more strongly adhere to the treated film surface.

Problems solved by technology

Certain applications for heat-shrinkable films, e.g., printed films or packaging of materials such as boxes present unique problems.
When such printed heat-shrinkable films are shrunk, the printing tends to become distorted and unclear.
Therefore, these heat-shrinkable films are unsuitable for applications which require printable films.
Another problem with heat-shrinkable films that are currently being used is that when the films are used on products that have sharp edges, they tend to puncture and when used to cover light weight boxes, they tend to crush the boxes.
Consequently, heat-shrinkable films have not been used for these applications.
However, past attempts to provide a coated film having low shrinkability (e.g., 6% to 12%) have encountered difficulties resulting from the shrinkage of the film during the coating process.
When such a process is used to coat a film having low shrinkability (e.g., 6% to 15%), the drying process shrinks the film to an extent that it is no longer acceptable for use in most packaging applications.
However, E-P copolymer content must be carefully determined inasmuch as the presence of E-P copolymer can cause undesirable film elongation even at lower temperatures, e.g., 60.degree. C.
(140.degree. F.) drying temperatures, which elongation can cause registration problems during converting processes such as printing.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

example 1

[0059] For this example, a coated heat-shrinkable film was prepared by forming a substrate from a core layer of 90% homopolymer polypropylene and 10% propylene-ethylene copolymer and outer layers of propylene-ethylene-butylene terpolymer. The overall thickness of the substrate was 23 microns and each of the outer layers were 0.6 microns in thickness. A portion of the substrate was cut into strips and the shrinkage was measured as described below. The haze, gloss and coefficient of friction was also measured. The haze was measured by ASTM D 1003 and the gloss was measured by ASTM D-2457. The coefficient of friction was measured by ASTM D 1894-e. The results are shown in Tables 2 and 3.

[0060] Another portion of the substrate was coated. During the coating process, the substrate was first corona treated on both sides and then precoated with polyethylene imine primer on both sides. The precoated substrate was dried in an oven at 105.degree. C. and at a tension of 16 lbs / meter to form a ...

example 2

[0064] The coated, heat-shrinkable film made in Example 1 was used to package a cigar tin box. The cigar tin was wrapped in the film using a conventional packaging machine with a heat sealer. The cigar tin packaged in the coated, heat-shrinkable film of the present invention was then compared to a cigar tin which had packaged in the same manner with a film having an acrylic coating on both sides and an average balanced MD / TD shrinkage of 5%. As a result of the film retraction in and near the heat sealed areas, the cigar tin packaged with the coated, heat-shrinkable film of the present invention conformed more closely to the shape of the cigar tin and demonstrated an enhanced pack appearance.

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Abstract

A transparent, coated, heat-shrinkable film having controlled shrinkability which includes a biaxially oriented substrate having a polypropylene blend core layer and a water based coating. The shrink during the application on packaging machines is achieved through the balanced MD-TD (machine direction and transverse direction) film retraction in and near the sealed areas. The substrate can also include outer layers of a propylene-ethylene-butylene terpolymer disposed on either side of the polypropylene core layer or on either side of additional intermediate layers that may be disposed between the outer layers and the core layer. The invention also includes a process for making this coated heat-shrinkable film. The coated film is formed under controlled temperature and tension conditions to produce a packaging film having shrinkage within a controlled shrinkability range.

Description

BACKGROUND OF INVENTION[0001] The present invention relates to the field of polymer films and, more particularly to a coated heat-shrinkable biaxially oriented polypropylene film.[0002] A shrink film's distinguishing characteristic is its ability upon exposure to some level of heat to shrink or, if restrained, to create shrink tension within the film. This ability is activated by the packager when the wrapped product is passed through a hot air or hot water shrink tunnel. The resulting shrinkage of the film results in an aesthetically pleasing, transparent wrapping which conforms to the contour of the product while providing the usual functions required of packaging materials such as protection of the product from loss of components, pilferage, or damage due to handling and shipment. Typical items wrapped in polyolefin shrink films are compact discs, tapes, perfumes, tobacco products, chocolates, toys, games, sporting goods, stationery, greeting cards, household products, office sup...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): B29C61/06B32B27/32C08J7/043C08J7/046C08J7/048C08J7/052C08L23/12C08L23/14
CPCB29C61/0616B32B27/32C08J7/047C08J2433/00C08J2323/12C08L23/142C08L23/12C08L2666/06Y10T428/31909C08J7/0427C08J7/052C08J7/048C08J7/043C08J7/046
Inventor VAN VEGHEL, MICHAEL W.AMBROISE, BENOITGRINGOIRE, BRUNOPIRAN, DAVIDURBAIN, LAURENCE
Owner EXXONMOBIL CORP (US)
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