Plastic and nonmetallic article shaping or treating: processes – Optical article shaping or treating – Light polarizing article or holographic article
Reexamination Certificate
2000-10-06
2004-08-17
Tentoni, Leo B. (Department: 1732)
Plastic and nonmetallic article shaping or treating: processes
Optical article shaping or treating
Light polarizing article or holographic article
C264S021000, C264S078000, C264S129000, C264S132000, C264S171130, C264S171140, C264S171170, C264S173120, C264S173150, C264S173160, C264S173180, C264S211000, C264S211120
Reexamination Certificate
active
06776933
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to a method of manufacturing a security item such as a security document or card carrying security indicia.
Plastic cards have been in use for many years. Typically, there have been two types. The first, used mainly for financial cards, is made of PVC. A white PVC core is printed with the decoration or security indicia. The core can be composed either of one sheet with printing on both sides or two sheets with the front decoration printed on one, the reverse on the other. A clear laminate film is applied front and back and the three or four layer “sandwich” is then put in a press between highly polished metal plates, and under heat and pressure the layers fuse together. The process is highly labour intensive and energy inefficient. The pressing process introduces distortions which result in sophisticated registration equipment being needed to ensure that each card is diecut in the correct position. The presence of printing ink between the core and the laminate usually has an adverse effect on the bonding of the laminate. This can result in a risk of delamination and reduces the resistance of the card to flexing stress.
The resulting cards have proved acceptable for financial cards where the life is in the order of two years. They are much less successful where a long life, of say 10 years, is needed as the PVC tends to go brittle and crack with age. Personalisation of financial PVC-based cards usually involves the embossing of personalisation data, which introduces stresses into the card structure which can have an adverse effect on card life. PVC is now viewed with disfavour for environmental reasons. To overcome the deficiencies of PVC, cards of polyester and polycarbonate have been introduced. These are much more expensive, require lamination at higher temperatures and are in consequence even less energy efficient. Only certain grades of these polymers yield cards that can be embossed. However, it is only the financial card market that requires embossing; for many other applications, such as identity cards, alternative personalisation techniques that do not require embossing are becoming employed.
JP-A-8-290539 describes a polyester multi-layer film suitable for magnetic cards and in particular for pin ball cards. In particular, a laminated polyester film formed from joint extrusion laminated biaxial oriented polyester film is described, the film having a layer containing white pigments on at least the outermost layer of one side and at least one layer containing fluorescent light emitting particles. Cards of the type described in this prior art document are used for transit tickets and so on and typically have a thickness of the order of 250 microns. They are typically decorated by printing on the surface.
US-A-5830561 discloses an ID card formed by laminating together a number of coextruded polypropylene layers. This is disadvantageous in view of the number of different steps involved in the manufacturing process.
Where a card is to be used as an identity card, a range of personal information relating to the holder needs to be applied to the card. In addition to textual items such as the name and date of birth, a portrait of the holder, possibly accompanied by a biometric identifier such as a fingerprint, is required. Such personal data has to be resistant to fraudulent attack since its alteration could enable the card to be used by someone other than the cardholder. For many years, identity cards of the so-called “pouch” type have been used. In this, a piece of security printed paper with an attached photograph is sealed into a clear pouch, the pouch consisting of a folded piece of clear plastic heat seal bonded around the edges. Typically, these can survive for 10 years. However, they are falling out of favour as they lack the clean appearance of a PVC card and cannot readily conform to international standards for magnetic or smart cards. The clear heat seal plastic laminate film used in this type of card is typically formed of a biaxially oriented polyester with an adhesion promoting layer. This layer may be applied by extrusion coating or by coextrusion of a high melting point polyester with a low melting point polyester followed by biaxial orientation.
SUMMARY OF THE INVENTION
In accordance with the present invention, a method of manufacturing a security item comprises coextruding at least two polymer plastics materials with different characteristics so as to form a substrate, neither material being biaxially oriented, coextruding all the polymer plastic materials so as to form a substrate; and providing security indicia on the substrate.
The production of a coextruded substrate leads to a number of advantages. A very good bond is achieved between the two plastics materials making them much more difficult to separate than with conventional security items. This is particularly important where the plastics materials are provided as coextruded superposed layers.
We have realised that a significant disadvantage of the materials described above and in particular those described in JP-A-8-290539 is the use of biaxially oriented polyester. Although biaxial orientation gives some strength to thin films, it also has the effect of pulling the molecules together so that it is particularly difficult to get certain marking materials, particularly subliming dyes, to penetrate between them. Furthermore, biaxially oriented plastic films rarely achieve thicknesses greater than 250 microns. They are thus not suitable for many of the applications with which the present invention is concerned.
A further advantage arises from the use of plastics materials with different characteristics. These characteristics may result from using different plastics materials but in the preferred approach, arise by including a security additive in one or more of the plastics materials, that additive optionally being machine detectable. In one example, a fluorescent material can be included in one of the layers, typically an exposed layer in a superposed structure, so that if any attempt is made to remove that layer in order for example to access underlying indicia, this will become apparent when an attempt is made to validate the item by attempting to generate the fluorescence. Usually, the fluorescence will not be visible under optical irradiation so that it provides covert security.
Other security additives which could be used include optically variable materials, magnetic materials, laser writable materials and anti-stokes materials. A further possibility is to include a material in the form of particles or fibres whose distribution in an individual piece of plastic can be determined by a suitable detection system. This can form the basis of a machine verification system permitting every card to be uniquely identifiable. For example, the distribution which is determined can then be stored as security data elsewhere on the item.
In more complex arrangements, different additives could be included in different layers.
The security indicia can be provided in a variety of ways. The currently preferred approach is to print the security indicia onto a carrier such as paper using one or more inks incorporating sublimable dye(s). The carrier is then brought into contact with a surface of the substrate and heated to cause the dye(s) to sublime, transfer to the substrate and diffuse into the substrate. In another approach, the security indicia could be printed directly onto the substrate itself using inks with or without sublimable dyes. In a further alternative, inks containing sublimable dye(s) could be printed directly onto the substrate followed by the application of heat to cause the dye(s) to diffuse into the substrate.
Further advantages are achieved, particularly with superposed layers, when sublimable dye(s) are used for the security and/or personalised indicia since these can be caused to diffuse through one layer so as at least to mark an adjacent layer and preferably to diffuse into the adjacent layer. This will make it highly secure against fraud sin
Chatwin Charles Edward
Fice Christopher John
De La Rue International Limited
Oliff & Berridg,e PLC
Tentoni Leo B.
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