A method for obtaining a raised pattern on a substrate and to the device used, wherein the method includes the following steps of moving a substrate having one face; supplying a with a first face; projecting onto the first face a raised-pattern product using digital printing technology so as to generate a positive raised pattern on the first face; fixing the positive raised pattern on the film; applying an overlay product; obtaining a negative raised pattern on the overlay product by contact with the positive raised pattern; and fixing the negative raised pattern on the face of the substrate.

A method of applying a pattern to a nonplanar surface. A stamp has a major surface with pattern elements having a lateral dimension of greater than 0 and less than about 5 microns. The major surface of the stamp has a functionalizing molecule with a functional group selected to chemically bind to the nonplanar surface. The stamp is positioned to initiate rolling contact with the nonplanar surface, and contacts the nonplanar surface to form a self-assembled monolayer (SAM) of the functionalizing material thereon and impart the arrangement of pattern elements thereto. The major surface of the stamp is translated with respect to the nonplanar surface such that: a contact pressure is controlled at an interface between the stamping surfaces and the nonplanar surface, and a contact force at the interface is allowed to vary while the stamping surfaces and the nonplanar surface are in contact with each other.

A problem to be addressed by the present invention is to provide a method of producing a printed material by printing an active energy ray-curable printing ink on a film, wherein the printed material has good adhesion between the ink and the film even after undergoing boiling treatment for boiling sterilization or retorting sterilization. Such a problem is solved by a method of producing a printed material, including the steps of printing an ink on a film; and irradiating the ink-printed face with an active energy ray; wherein the film contains: a polyamide film layer; and a layer that, as the outermost layer of at least one face of the film, contains a polyurethane obtained by use of a polycarbonate polyol as a polyol component.

A process for constructing a printing plate by successively depositing a plurality of n layers of photopolymer on a substrate, curing each layer 1 through (n-m) using a wide area radiation source, and selectively curing layers (n-m+1) to layer n using a small area radiation source modulated in accordance with a desired image to be printed by the printing plate. Non-cured polymer is removed from layers (n-m+1) to n, and all of the layers are further cured with a detacking area radiation source. Also disclosed is a system for constructing a printing plate by additive manufacturing, including a printing assembly and means for providing relative motion between the substrate and the printing assembly. The assembly comprises one or more ink jet print heads, at least one wide area radiation source, and the small area radiation source.

An apparatus for generating a relief carrier using a solidifiable material includes a support structure configured for providing a substantially cylindrical support surface. The support surface may be formed by a substrate intended to be part of the relief carrier to be generated or by a cylindrical support not intended to be part of the relief carrier to be generated. A container is provided for the solidifiable material, the container having a wall arranged substantially parallel to an axis of the support structure; a moving means to move the support structure relative to the wall such that subsequent areas of the support surface face the wall during the moving. Moving includes at least a rotation around the axis. An irradiating means sends irradiation, through the wall in a predetermined area between the support surface and the wall.

A process for constructing a printing plate by successively depositing a plurality of n layers of photopolymer on a substrate, curing each layer 1 through (n−m) using a wide area radiation source, and selectively curing layers (n−m+1) to layer n using a small area radiation source modulated in accordance with a desired image to be printed by the printing plate. Non-cured polymer is removed from layers (n−m+1) to n, and all of the layers are further cured with a detacking area radiation source. Also disclosed is a system for constructing a printing plate by additive manufacturing, including a printing assembly and means for providing relative motion between the substrate and the printing assembly. The assembly comprises one or more ink jet print heads, at least one wide area radiation source, and the small area radiation source.

A method of applying a pattern to a nonplanar surface. A stamp has a major surface with pattern elements having a lateral dimension of greater than 0 and less than about 5 microns. The major surface of the stamp has a functionalizing molecule with a functional group selected to chemically bind to the nonplanar surface. The stamp is positioned to initiate rolling contact with the nonplanar surface, and contacts the nonplanar surface to form a self-assembled monolayer (SAM) of the functionalizing material thereon and impart the arrangement of pattern elements thereto. The major surface of the stamp is translated with respect to the nonplanar surface such that: a contact pressure is controlled at an interface between the stamping surfaces and the nonplanar surface, and a contact force at the interface is allowed to vary while the stamping surfaces and the nonplanar surface are in contact with each other.

A method of applying a pattern to a nonplanar surface. A stamp has a major surface with pattern elements having a lateral dimension of greater than 0 and less than about 5 microns. The major surface of the stamp has a functionalizing molecule with a functional group selected to chemically bind to the nonplanar surface. The stamp is positioned to initiate rolling contact with the nonplanar surface, and contacts the nonplanar surface to form a self-assembled monolayer (SAM) of the functionalizing material thereon and impart the arrangement of pattern elements thereto. The major surface of the stamp is translated with respect to the nonplanar surface such that: a contact force is controlled at an interface between the stamping surfaces and the nonplanar surface, and the contact pressure at the interface is allowed to vary while the stamping surfaces and the nonplanar surface are in contact with each other.

The invention relates to a method (100) for producing an image structure (12) according to an image specification (20), in particular for a letterpress process and/or intaglio printing process, characterized in that the following steps are carried out: a) providing a base (10) for receiving the image structure (12), b) producing an image structure (12) on the base (10) so that an image layer (11) is formed on the base (10) by means of the image structure (12).

A composite panel for use in the manufacture of a letterpress plate has a carrier layer, with at least one photo layer which can be structured via electromagnetic radiation in a wavelength range. The photo layer is arranged on the carrier layer. The task of proposing a composite panel use in the manufacture of a letterpress plate is achieved by the fact that a barrier layer is provided. The barrier layer is arranged on the side of the photo layer opposite to the carrier layer. The barrier layer is essentially transparent in the wavelength range in which the photo layer can be structured. The present disclosure concerns a process for manufacturing a letterpress plate using at least one composite panel and a process for manufacturing a composite plate in accordance with the invention. The invention concerns the use of a composite material in a composite panel for a letterpress plate.