A transaction card includes an anodized card body having a front and rear face. Various information and security features may be provided on the front face and on the rear face. A magnetic stripe may be provided on the rear face of the anodized card body. The magnetic stripe may be adhered within a slot formed within the rear face of the anodized body. Alternatively, the magnetic stripe may be provided via an overlay that is adhered to the rear face of the anodized body, and the magnetic stripe may be integral with the overlay or adhered to the overlay after the overlay is applied to the anodized card body. The transaction card may also include a hologram. The hologram may be integral with the overlay or may be applied to the overlay that has been arranged on the anodized card body.

Provided is an information display medium that can enhance a forgery prevention effect. An information display medium (100) includes a light reflection layer (20) made of a metal or a metallic oxide and partially or fully placed on one surface of a substrate, and the light reflection layer (20) includes a first region (30) where first information is displayed by either of or a combination of an outline shape and a shape of an uneven region, and a second information display region (21a) where identification information formed by partial material removal of the light reflection layer (20), the second information display region being set to partially or fully overlap with the light reflection layer (20) where the first information is displayed in the first region (30).

Provided is an information display medium that can enhance a forgery prevention effect. An information display medium (100) includes a light reflection layer (20) made of a metal or a metallic oxide and partially or fully placed on one surface of a substrate, and the light reflection layer (20) includes a first region (30) where first information is displayed by either of or a combination of an outline shape and a shape of an uneven region, and a second information display region (21a) where identification information formed by partial material removal of the light reflection layer (20), the second information display region being set to partially or fully overlap with the light reflection layer (20) where the first information is displayed in the first region (30).

A security element for securing security papers, value documents and other data carriers, having a lenticular image that, from different viewing directions, displays at least two different appearances. The lenticular image includes a lens grid composed of a plurality of microlenses and a radiation-sensitive motif layer arranged spaced apart from the lens grid. The radiation-sensitive motif layer includes, produced by the action of radiation, a plurality of transparency regions that are each arranged in perfect register with the microlenses of the lens grid. Outside the transparency regions produced by the action of radiation, the radiation-sensitive motif layer is opaque and patterned in the form of a first motif such that, when the security element is viewed through the lens grid from a first viewing direction, the first motif is visible as the first appearance.

A security element for securing security papers, value documents and other data carriers, having a lenticular image that, from different viewing directions, displays at least two different appearances. The lenticular image includes a lens grid composed of a plurality of microlenses and a radiation-sensitive motif layer arranged spaced apart from the lens grid. The radiation-sensitive motif layer includes, produced by the action of radiation, a plurality of transparency regions that are each arranged in perfect register with the microlenses of the lens grid. Outside the transparency regions produced by the action of radiation, the radiation-sensitive motif layer is opaque and patterned in the form of a first motif such that, when the security element is viewed through the lens grid from a first viewing direction, the first motif is visible as the first appearance.

The invention concerns a method for manufacturing an identification document comprising a body with a first visual marking and a second visual marking, the first and the second visual markings depicting same identification data. The method comprises the following steps of: engraving a first area of the identification document with a first laser beam for obtaining the first visual marking; providing at least one see-through portion in a second area of the identification document; providing an optically variable printing ink patch, laminated to at least one first transparent layer located in the see-through portion; and engraving the surface of the laminated optically variable printing ink patch with a second laser beam for obtaining the second visual marking, said second laser beam having a lower power than the first laser beam. The invention concerns also the identification document obtained by this method.

The invention concerns a method for manufacturing an identification document comprising a body with a first visual marking and a second visual marking, the first and the second visual markings depicting same identification data. The method comprises the following steps of: engraving a first area of the identification document with a first laser beam for obtaining the first visual marking; providing at least one see-through portion in a second area of the identification document; providing an optically variable printing ink patch, laminated to at least one first transparent layer located in the see-through portion; and engraving the surface of the laminated optically variable printing ink patch with a second laser beam for obtaining the second visual marking, said second laser beam having a lower power than the first laser beam. The invention concerns also the identification document obtained by this method.

A method for manufacturing a card comprising a transparent window. The window comprises a front side and a back side. The method comprises steps of printing a color picture on the back side of the window and laser engraving the front side of the window. Also provided is a device configured to carry out the above-described method and a card manufactured with the above-described method.

A method for manufacturing a card comprising a transparent window. The window comprises a front side and a back side. The method comprises steps of printing a color picture on the back side of the window and laser engraving the front side of the window. Also provided is a device configured to carry out the above-described method and a card manufactured with the above-described method.

A laser engraver having a laser, a camera, and a plate for holding a product, wherein an optical path of the laser is directed to the plate, an optical path of the camera is directed to the plate, and the optical path of the camera to the plate and the optical path of the laser to the plate are at least partially the same before and when hitting the plate. The laser engraver includes a controller and a comparator, wherein the controller is configured to have the laser engrave a predefined pattern at a predefined position on the product on the plate to form an engraved pattern on the product and have the camera capture a position of the engraved pattern, have the comparator compare the predefined position and the position captured by the camera to determine a difference therebetween, and use the difference to calibrate the laser.