Stock material or miscellaneous articles – Structurally defined web or sheet – Including components having same physical characteristic in...
Reexamination Certificate
2001-09-26
2003-08-05
Chen, Vivian (Department: 1773)
Stock material or miscellaneous articles
Structurally defined web or sheet
Including components having same physical characteristic in...
C428S034900, C428S035900, C428S332000, C428S339000, C264S280000, C264S288400, C264S290200, C359S577000, C359S580000, C359S582000, C359S584000, C359S586000, C359S588000, C359S589000
Reexamination Certificate
active
06602585
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to films that posses an adequate level of elastic memory activated through the application of heat energy which can be utilized in a variety of packaging applications, such as shrink labels and decorative shrink wrap. Hereinafter, such film will sometimes be referred to as “shrink film”. The customary films used for this purpose are made of polyvinyl alcohol, glycol modified polyethylene terephthalate made from ethylene, glycol and cyclohexanedimethanol and terephthalic acid and polypropylene structures, depending on the degree of desired shrinkage required and the particular application. It has been possible to obtain shrinkages of up to 50 or 60%. Often the shrink film is preformed into a tube and then cut into the appropriate size for application to a container or some other object. It is frequently desirable for the film to shrink around the object in such a manner that it conforms exactly to the shape of that object.
Multilayer coextruded light reflecting films which have a narrow reflection band due to light interference are known. When that reflection band occurs in the range of visible wavelengths, the film appears iridescent. It would be desirable to employ such iridescent films as shrink film for shrink packaging applications but it has not been possible to achieve that object heretofore.
The multilayer coextruded iridescent films are composed of a plurality of generally parallel layers of transparent thermoplastic resinous material in which the contiguous adjacent layers are of diverse resinous material whose index of refraction differs by at least about 0.03. These films contain at least 10 layers, but are more usually composed of at least 35 and preferably at least about 70 layers. Commercially available films often contain between 50 and 100 repeating pairs of polymers, which generate the optical effect known as iridescence. Each of the individual layers is very thin and is usually on the order of about 30-500 nm. The quality of a iridescent multilayer coextruded film is dependent on the individual layers being, and remaining, generally parallel and of substantial uniform thickness. Deviations from these requirements interfere with the desired optical effect.
The traditional multilayer coextruded iridescent films possessed a minor degree of elastic memory and will shrink somewhat when exposed to heat. However, the amount of shrinkage of which these films are capable is not sufficient for use of the films for shrink packaging applications and is also accompanied by changes in the optical characteristics of the individual layers so that the iridescence is altered or lost and/or the interlayer bonds between joining layers are disturbed leading to internal delamination or separation of the layers.
Efforts have been made in the past to improve the mechanical properties of the multilayer coextruded light reflecting films, although not for the purpose of achieving a shrink film. U.S. Pat. No. 4,310,584 describes the use of thermoplastic terephthalate polyester or copolyester resins as one component of the two adjacent polymer films and another improvement is described in U.S. Pat. No. 5,089,318 in which a thermoplastic elastomer is employed as one of the resinous material. Despite these improvements, the films still have inadequate mechanical and optical properties for shrink packaging applications when compared to conventional film structures.
It is now been discovered that by appropriately selecting the different thermoplastic resinous materials and by orienting the coextruded film made from the selected materials, a shrinkable iridescent film having acceptable properties can be achieved.
It is accordingly the object of the present invention to provide a shrinkable iridescent film suitable for shrink packaging application. This and other objects of the invention will become apparent to those of ordinary skill in the art of the following detailed description.
SUMMARY OF THE INVENTION
This invention relates to a shrinkable iridescent film suitable for shrink packaging applications and to the method for the production of that film. More particularly, a shrinkable iridescent multilayered coextruded film composed of at least 10 generally parallel, very thin layers of substantially uniform thickness with the contiguous adjacent layers being of different heat shrinkable thermoplastic resinous materials, each of the materials being heat shrinkable at least one dimension in an amount of at least 10% in response to applied heat, the coextruded contiguous adjacent layers being substantially uniformly shrinkable in response to applied heat so as to have refractive indices which differ by at least about 0.03 after the shrinkage to produce an optical effect. The film is made by selecting the appropriate thermoplastic resinous materials, coextruding them into a relatively thick film, followed by orientating the film at a temperature using temperature profiles to achieve the desired color and shrink properties.
DESCRIPTION OF THE INVENTION
In accordance with the present invention, a shrinkable iridescent multilayer coextruded film is produced by varying the conventional production process with respect to the selection of the resinous materials employed, the thickness of the film coextruded, and by imparting elastic memory to the film by orientation.
Multilayer coextruded iridescent film per se is known in the art. It is described in U.S. Pat. No. Re 31,780 to Cooper, Shetty and Pinksy and U.S. Pat. Nos. 5,089,318 and 5,451,449, both to Shetty and Cooper, all of which are incorporated herein by reference, and in other patents. The iridescent film is, as there described, a transparent thermoplastic resinous coextruded laminated film of at least 10 very thin layers, preferably at least about 35 layers and more preferably at least about 70 layers, each of which is usually in the range of about 30-500 nm and more preferably about 50-400 nm, with the layers being generally parallel and the contiguous adjacent layers being of different transparent thermoplastic resinous materials differing in refractive index by at least about 0.03, and more preferably, at least about 0.06. The outermost layers of the film constituting a skin, when present, are each at least about 5% of the total thickness of the film.
The thermoplastic resinous materials used in the present invention are required to meet several characteristics. First, when formed into a thin film having a thickness of about 12-150 &mgr;m, preferably about 15-75 &mgr;m, the film must be heat-shrinkable in one or more of the dimensions lying in the plane of the film in an amount of at least 10%, preferably at least about 20%, and more preferably about 40-50%, in response to the application of heat of about 70-300° C. Preferably, the resinous material as a film is heat shrinkable in all directions in the plane of the film in a degree which is substantially the same throughout. Second, the resinous materials must also, when formed into contiguous adjacent film layers, shrink at a rate which is substantially uniform throughout the layers. The rate of shrinkage in different dimensions in the plane of the film need not be the same, but the rate for any given dimension should be substantially the same for both contiguous layers. For example, the longitudinal shrinkage can be different than the transverse shrinkage as long as both longitudinal shrinkage rates and both transverse shrinkage rates are substantially the same. Finally, the resinous materials must be selected such that the refractive indices after shrinking differ by at least about 0.03, and preferably at least about 0.06. The refractive indexes need not differ by these values before orientation because orientation can alter the index of refraction of a given layer and therefore orientation of two layers whose indices differ by less than 0.03 before orientation can result in a difference which exceeds 0.03 after orientation. In most instances, the difference in indices of refraction after orientation but before shrinkage and tha
Chen Vivian
Dickstein Shapiro Morin & Oshinsky LLP.
Engelhard Corporation
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