The invention provides a method for enhancing printed products (3), wherein the method comprises partially coating a substrate (2) with a varnish (4) on one side (20) such that there are at least one coated area (22) and at least one uncoated area (21) on the side (20). Subsequently, a foil (6) is applied to the side (20) that is coated with the varnish (4) and is adhesively bonded to the substrate (2), wherein the foil (6) is designed so as to adhere to the material of the substrate, but not to the varnish (4), so that the adhesive bonding of the foil (6) occurs selectively in the at least one uncoated area (21). Following the adhesive bonding, the foil (6) is severed along the dividing line (23) between the coated and uncoated areas (21, 22), so that a substrate (2) is obtained which has at least one area (22) of a side (20) coated with varnish (4), and an adjoining area (21) not coated with the varnish (4), wherein a foil (6) is adhesively bonded to the substrate in the area not coated with the varnish (4), with the edge (60) of the foil adjoining the area (22) coated with varnish (4).

The invention relates to a process for the production of a part provided with an external element comprising the following steps: provide an electrically conductive substrate having an upper surface and a pattern forming a recess in said upper surface deposit an electrically insulating layer into the pattern so that the insulating layer extends as far as the upper surface deposit a metal layer onto the upper surface of the substrate by galvanic growth so that at the end of this step the metal layer partly rests on the insulating layer dissolve the insulating layer cover an assembly comprising the substrate and the metal layer with a mass of a base material of the part, wherein the mass forms an imprint of the assembly separate the mass and the metal layer from the substrate, wherein the mass then exhibits an external element with a shape corresponding to the imprint of the pattern.

The invention relates to a process for the production of a part provided with an external element comprising the following steps: provide an electrically conductive substrate having an upper surface and a pattern forming a recess in said upper surface deposit an electrically insulating layer into the pattern so that the insulating layer extends as far as the upper surface deposit a metal layer onto the upper surface of the substrate by galvanic growth so that at the end of this step the metal layer partly rests on the insulating layer dissolve the insulating layer cover an assembly comprising the substrate and the metal layer with a mass of a base material of the part, wherein the mass forms an imprint of the assembly separate the mass and the metal layer from the substrate, wherein the mass then exhibits an external element with a shape corresponding to the imprint of the pattern.

A non-provisioned card having a front side and a back side, and at least one visible surface that is patinated or activated to promote patination.

A non-provisioned card having a front side and a back side, and at least one visible surface that is patinated or activated to promote patination.

A method of manufacturing an in-mold decorative molded article includes supplying an in-mold transfer foil to a metal mold, injecting and cooling a molding resin and taking out an molded article formed of the molding resin cooled and cured in the metal mold in which a clear layer and a transfer layer having a decorative figure in the in-mold transfer foil are integrated on the surface by opening the mold, molding the molded article integrally with a cutting portion not necessary for a target product inside the metal mold by the molding resin at an outer periphery of the product and arranging a boundary of a printing region of the clear layer in the in-mold transfer foil in the cutting portion so as to be larger than the outer periphery of the product.

A method of manufacturing an in-mold decorative molded article includes supplying an in-mold transfer foil to a metal mold, injecting and cooling a molding resin and taking out an molded article formed of the molding resin cooled and cured in the metal mold in which a clear layer and a transfer layer having a decorative figure in the in-mold transfer foil are integrated on the surface by opening the mold, molding the molded article integrally with a cutting portion not necessary for a target product inside the metal mold by the molding resin at an outer periphery of the product and arranging a boundary of a printing region of the clear layer in the in-mold transfer foil in the cutting portion so as to be larger than the outer periphery of the product.

A non-provisioned card having a front side and a back side, and at least one visible surface that is patinated or activated to promote patination.

A non-provisioned card having a front side and a back side, and at least one visible surface that is patinated or activated to promote patination.

An image forming device comprises: a receiving part that receives image data containing first image data relating to a black and white image and second image data relating to a foil image; a carrying path along which a recording medium is carried in a predetermined direction; an inkjet printing part, arranged on the carrying path, injects an ink based on the first image data to the recording medium, and forms the black and white image or the color image on the recording medium; a toner image printing part, arranged on the carrying path, forms the toner image for adhesion based on the second image data, and transfers the toner image to the recording medium; and a foil image forming part, arranged on the carrying path, enables the toner image transferred to the recording medium to melt and attaches the foil to the melted toner image to form the foil image.