A method for manufacturing a security document including a security pattern generation method includes the steps of selecting a bounding region, an image object, and a raster image or a function; cutting the image object into image object partitions; and repeating the image object as a pattern, preferably a lattice pattern, in the bounding region wherein each of the image object partitions of an image object is transformed depending on the position area of the image object in the lattice pattern and the rank of the image object partition.

Provided is a data carrier comprising a card body, wherein the card body is configured to interact with impinging electromagnetic radiation (R) such, that a laser marking (M1) having a first appearance (A1) is generated in the card body in the region of impingement. The data carrier further comprises at least one protection element that is configured to interact with impinging electromagnetic radiation (R) such, that a laser marking (M2) having a second appearance (A2) is generated in the card body, wherein said second appearance (A2) differs from the first appearance (A1).

Provided is a data carrier comprising a card body, wherein the card body is configured to interact with impinging electromagnetic radiation (R) such, that a laser marking (M1) having a first appearance (A1) is generated in the card body in the region of impingement. The data carrier further comprises at least one protection element that is configured to interact with impinging electromagnetic radiation (R) such, that a laser marking (M2) having a second appearance (A2) is generated in the card body, wherein said second appearance (A2) differs from the first appearance (A1).

Disclosed is a method for manufacturing a multilayer data medium (1), in which method: a multilayer data medium, including at least one transparent security layer (16), and at least one marking layer (17), sensitive to electromagnetic-marking radiation (5), are selected; the transparent security layer (16) includes at least one semi-transparent printed image including at least one thermochromic dye; at least one marking (30) is made using the electromagnetic-marking radiation, through the printed image; the semi-transparent printed image reveals, in a first state referred to as the inactivated state, at least one semi-transparent visible pattern that makes it possible, after the marking step, to view the marking (30) through the image, the pattern not being visible in a second state, referred to as the activated state. The invention also relates to a multilayer data medium (1).

Disclosed is a method for manufacturing a multilayer data medium (1), in which method: a multilayer data medium, including at least one transparent security layer (16), and at least one marking layer (17), sensitive to electromagnetic-marking radiation (5), are selected; the transparent security layer (16) includes at least one semi-transparent printed image including at least one thermochromic dye; at least one marking (30) is made using the electromagnetic-marking radiation, through the printed image; the semi-transparent printed image reveals, in a first state referred to as the inactivated state, at least one semi-transparent visible pattern that makes it possible, after the marking step, to view the marking (30) through the image, the pattern not being visible in a second state, referred to as the activated state. The invention also relates to a multilayer data medium (1).

The invention relates to a multilayer body with a carrier film, a partial reflective layer, arranged on the surface of the carrier film, which is at least partially transparent in a first area and opaque in a second area, a partial decorative layer, arranged on a surface of the carrier film and/or the side of the decorative layer facing away from the carrier film, which is present in a third area and not present in a fourth area,
wherein the first area overlaps the third area and the second area overlaps the third and the fourth areas.

The invention furthermore relates to a method for producing such a multilayer body, a security element with such a multilayer body and a security document with such a security element.

The invention relates to a multilayer body with a carrier film, a partial reflective layer, arranged on the surface of the carrier film, which is at least partially transparent in a first area and opaque in a second area, a partial decorative layer, arranged on a surface of the carrier film and/or the side of the decorative layer facing away from the carrier film, which is present in a third area and not present in a fourth area,
wherein the first area overlaps the third area and the second area overlaps the third and the fourth areas.

The invention furthermore relates to a method for producing such a multilayer body, a security element with such a multilayer body and a security document with such a security element.

A method of manufacturing a security device including: conveying a substrate web including a photosensitive film along a transport path; exposing the photosensitive film to radiation of a predetermined wavelength through a mask, wherein the mask includes a predetermined pattern of regions which are substantially opaque to radiation of the predetermined wavelength and at least semi-transparent to radiation of the predetermined wavelength, respectively; during the exposure, moving the mask alongside the substrate web along at least a portion of the transport path at substantially the same speed as the substrate web, such that there is substantially no relative movement between the mask and the substrate web; and heating the substrate web including the exposed photosensitive film. In this way, regions of the photosensitive film exposed to the radiation of the predetermined wavelength undergo an increase in optical density such that the photosensitive film displays a reproduction of the predetermined pattern.

A method of manufacturing a security device including: conveying a substrate web including a photosensitive film along a transport path; exposing the photosensitive film to radiation of a predetermined wavelength through a mask, wherein the mask includes a predetermined pattern of regions which are substantially opaque to radiation of the predetermined wavelength and at least semi-transparent to radiation of the predetermined wavelength, respectively; during the exposure, moving the mask alongside the substrate web along at least a portion of the transport path at substantially the same speed as the substrate web, such that there is substantially no relative movement between the mask and the substrate web; and heating the substrate web including the exposed photosensitive film. In this way, regions of the photosensitive film exposed to the radiation of the predetermined wavelength undergo an increase in optical density such that the photosensitive film displays a reproduction of the predetermined pattern.

The present invention relates to the field of devices and processes for producing optical effect layers (OEL) comprising magnetically bi-axially oriented platelet-shaped magnetic or magnetizable pigment particles, in particular for producing said OELs as anti-counterfeit means on security documents or security articles or for decorative purposes. The process described herein comprises the step of a) applying on a substrate surface a radiation curable coating composition comprising platelet-shaped magnetic or magnetizable pigment particles, b) exposing the radiation curable coating composition to a dynamic magnetic field of a magnetic assembly comprising a Halbach cylinder assembly, and c) at least partially curing the radiation curable coating composition of step b) so as to fix the platelet-shaped magnetic or magnetizable pigment particles in their adopted positions and orientations, said step c) being carried out partially simultaneously or simultaneously with step b).