An integrated gift card packet is machine printed and formed and comprises a paper form having at least two panels interconnected together. The panels are retained in facial contact by detachable tabs or glue tabs. Each of the panels has an inner and an outer surface. Printed information is provided on some or all of the surfaces. Card information is printed in a card area on the inner and outer surfaces of one of the panels. The card information contains a bar code identifying goods/services and a dollar value associated therewith. The bar code may have a card I.D. code. A poly patch is adhesively secured on the inner surface of one of the panels and extends over the card area. A rear multi-layer patch is adhesively secured on the outer surface of one of the panels and also extends over the card area. The multi-layer patch has an adhesive coating on the outer surface to secure a poly film thereto. An adhesive release coating is provided on an outer surface of the poly film and a further dry release adhesive is provided over the adhesive release coating to secure an outer backing sheet thereto. A card is die-cut in the panel having the card information whereby the card can be removed from the panel and separated from the rear multi-layer patch with both the top and back surface of the card being laminated with a poly film. Several examples of the gift card packet are disclosed.

A laser printable sheet with vehicular registration and permitting decals and/or stickers is produced in a manner that insures the sheet lays-flat, rather than being crooked, so that it does not cause significant jamming problems in laser printers. Adhesive-release material is spot coated on a web back surface, including a first patch, the back surface is imaged with static indicia, and a substantially transparent plastic pressure sensitive adhesive laminate is applied over the back surface, including over the adhesive release material patch and first static indicia. The face is die cut at the first patch within the parameter of the patch to form the first die cut portion, which is then sucked off the substrate to provide an open area with exposed transparent plastic and pressure sensitive adhesive, and then a piggy back decal is blown onto the open area. The decal is preferably a license plate decal having a reflective visible surface in vehicular registration and permitting indicia. Preferably the sheet also includes an inspection sticker, may include a second license plate decal, as well as variably printed registration information.

A card display package and method for manufacturing same is provided. The card package includes a card carrier constructed of a synthetic sheet of paper laminated with a plastic material. The card package further includes a card constructed of the synthetic sheet of paper and laminated with the plastic material and having at least a portion of the card projecting from the card carrier. The card is integrally formed with and selectively detachable from the card carrier and is provided with an encodable magnetic strip extending transversely across the portion of the card projecting from the card carrier whereby the card may be swiped through an encoding device without removing the card from the card carrier.

A planar form or structure is used to create a thin card capable of receiving and retaining printed indicia, including written signatures, on both opposing surfaces. The structure and related method allow the exposed carrier surface and the underlying release agent layer to receive and retain printed indicia, including written signatures, while retaining an extremely thin, yet tear-resistant, card structure. The release agent layer solidifies from a liquid to form a film capable of receiving and retaining printed indicia, written signatures, and the like which may be printed or written upon through the peeling away of the transparent lamina layer to expose the underlying release agent layer for receiving the indicia. The resulting structure preferably exhibits a flexibility due to its thickness lying within the range of 15-30 microns plus the thickness of the carrier.

A business form with laser compatible punch-out card and the methods of making the combination. The card is permanently adhered to a perforated backer sheet, the periphery of which extends beyond the card and is coated with adhesive for application to the bottom surface of a form containing a hole such that the card is disposed within the hole. The card and attached portion of the backer sheet can then be removed from the card-in-form combination by breaking the perforations. The card is die cut from card stock laminated to the backer layer and is prepared for application to the form by stripping a waste matrix of card material from the laminate through the use of patterned release material.