The present invention is directed to an improved card structure, which employs at least two polyester layers and is useful as, e.g., a credit card, shopping card, pre-paid card, identification card, or the like. An additional feature is a card which has a metal foil appearance. The card is formed by a lamination process using at least two polyester layers which are joined with a white PVC core layer and are covered with a clear cover layer. The card can be made from laminate substructures and which are subsequently joined by an adhesive layer to form the laminate structure. The cards can be overprinted, embossed, or provided with further components such as holograms, signature pads, magnetic strips, photographic identification strips, or card company identifiers.
A mini card has a size smaller than a card that conforms to established standards, and includes a hole for attachment to a key ring or other external device. Increased durability is provided by means of a substrate that includes a core made of PVC material, sandwiched between two durable layers of polyester material. Printing on these layers is protected by transparent overlay layers made of PVC. The durability of the card is measured by means of a test procedure in which random multi-dimensional motion is imparted to an assembly of the card and an attached weight. The durability is quantitatively indicated by the amount of elapsed time until the weight becomes separated from the card while undergoing the vibrational movement.
A security card is provided in which an ink region 6 bearing image or textural data is printed onto a substrate 4. A reflective portion 8 is also provided on the substrate 4. A plastic protective layer 7 deposited over the ink 6 and reflective element 8. Portions 10 of the layer 7 are overworked in order to change their appearance. Those portions overlying the reflective element 8 exhibit enhanced visibility
A security card is provided in which an ink region 6 bearing image or textural data is printed onto a substrate 4. A reflective portion 8 is also provided on the substrate 4. A plastics protective layer 7 is deposited over the ink 6 and reflective element 8. Portions 10 of the protective layer 7 are overworked in order to change their appearance. Those portions overlying the reflective element 8 exhibit enhanced visibility.
A process of making an improved sheet/card laminate for packaging, signage, displays, transaction cards, ID cards and the like. The process comprises registering flat sheets to a film and then laminating the film or transferring coating(s) from the film to the individual, generally flat sheets via an adhesive. The film or coating(s) may include layered security, functional and/or decorative features.
The invention relates to a method for the manufacture of a smart label inlet web, in which method a smart label is protected from external effects with a surface film coated with an adhesive, the adhesive being in contact with the smart label. The adhesive is cured by radiation. The invention also relates to a smart label inlet web comprising a surface film, a smart label and a back web attached to each other. The surface film is attached to the smart label with an adhesive cured by radiation.
