A method of providing an Optical Variable Device (OVD) on a security document by exposing the security document with a laser. The security document includes an overlay provided on a core and the overlay includes a halogenated homo- or copolymer.

A method of providing an Optical Variable Device (OVD) on a security document by exposing the security document with a laser. The security document includes an overlay provided on a core and the overlay includes a halogenated homo- or copolymer.

A system and method for producing a multi-layered materials sheet that can be separated into a number of payment cards having an embedded metal layer that provides durability and aesthetics at a reduced cost and increased efficiency. During product of the materials sheet, multiple layers are collated and laminated to produce a large materials sheet. The lamination step involves heating and cooling the materials at specific temperatures and pressures for specific time periods. At a registration step, the sheet is automatically milled with alignment holes. During a singulation step, the alignment holes are used to position the sheet on a vacuum table, and vacuum holds the sheet in place while a milling device cuts cards from the sheet.

A system and method for producing a multi-layered materials sheet that can be separated into a number of payment cards having an embedded metal layer that provides durability and aesthetics at a reduced cost and increased efficiency. During product of the materials sheet, multiple layers are collated and laminated to produce a large materials sheet. The lamination step involves heating and cooling the materials at specific temperatures and pressures for specific time periods. At a registration step, the sheet is automatically milled with alignment holes. During a singulation step, the alignment holes are used to position the sheet on a vacuum table, and vacuum holds the sheet in place while a milling device cuts cards from the sheet.

An anti-counterfeiting medium includes a recording medium, a polarizer layer arranged on a part of the recording medium. The polarizer layer is formed thereon with a low extinction-ratio area that forms an image portion where a polarizer exhibits an extinction ratio lower than in a portion other than the low extinction-ratio area of the polarizer layer. The recording medium is formed thereon with an image portion that is a part of the recording medium and has a nature different from that of a portion other than the part of the recording medium.

An anti-counterfeiting medium includes a recording medium, a polarizer layer arranged on a part of the recording medium. The polarizer layer is formed thereon with a low extinction-ratio area that forms an image portion where a polarizer exhibits an extinction ratio lower than in a portion other than the low extinction-ratio area of the polarizer layer. The recording medium is formed thereon with an image portion that is a part of the recording medium and has a nature different from that of a portion other than the part of the recording medium.

A method of making a security device, comprising: forming an array of primary focusing elements on a first region of a focusing element support layer, by applying at least one transparent curable material either to the focusing element support layer or to a casting tool carrying a surface relief over an area which includes at least the first region, the surface relief comprising portions corresponding to the primary focusing elements; forming the transparent curable material(s) with the casting tool; and curing the transparent curable material(s) so as to retain the surface relief in the first region; wherein the surface relief further includes a plurality of structures of greater depth than the height of the primary focusing elements such that the cured transparent material(s) include a plurality of features protruding above the height of the primary focusing elements between primary focusing elements of the array.

An identification document includes a first layer and a second layer fused to the first layer. The first layer and the second layer include polyester, and the identification document is non-delaminable. Forming the identification document includes providing variable data on a surface of a first layer including polyester, aligning the first layer and a second layer including polyester, and fusing the first layer and the second layer to yield a fused identification document.

An identification document includes a first layer and a second layer fused to the first layer. The first layer and the second layer include polyester, and the identification document is non-delaminable. Forming the identification document includes providing variable data on a surface of a first layer including polyester, aligning the first layer and a second layer including polyester, and fusing the first layer and the second layer to yield a fused identification document.

A display includes a transparent base having one surface on which a structure-forming layer, a light reflection layer and a protective layer are sequentially laminated. The light reflection layer reflects part of the incident light, while transmitting therethrough the rest of the light. The structure-forming layer includes a plurality of structure areas, and each of the plurality of structure areas is formed of a concavo-convex structure.