A process for customization of decoration that allows efficient production of small batches of custom awards medallions, medals and coins, particularly suitable for die cast medal medallions, medals and coins. The invention is also the medallions, medals and coins made by the process.

The disclosure relates to ink compositions for digital printing on an external surface of a plastic article. The ink compositions comprise an ink removal-promoting additive. In some aspects, the ink removal-promoting additive can facilitate the separation or loosening of the image from the external surface of the article when the image is exposed to a liquid-based solution at an elevated temperature. Also disclosed are recyclable plastic articles having an external surface with an image printed thereon using the disclosed ink composition and methods for removing cured ink from a plastic container. This abstract is intended as a scanning tool for purposes of searching in the particular art and is not intended to be limiting of the present invention.

A method for inkjet printing an image onto a curved region of an object surface includes applying a screen of ink drops to the region to create print dots, calculating the screen using a computer and generating and applying ink drops to the region using a print head having nozzles on a nozzle surface. The steps include a) providing data representing the print image, b) providing or calculating data representing the region, c) providing or calculating path data on paths for the print head or object, d) calculating application locations of ink drops using data from steps b) and c), e) calculating data based on tiling the region using data from step d), f) calibrating tone values using data from step e), g) screening the print image using data from step f), and h) printing the screened image onto the region. A device implementing the method is also provided.

This disclosure describes container(s) having an ultraviolet (UV)-cured matrix and methods to create the same. For example, a glass container according to this disclosure has a bottom and a body extending in a direction away from the bottom along a longitudinal axis. The body has a surface having an UV-cured matrix including UV-curable varnish drops arranged in a plurality of layers and having voids existing therebetween to form a porous matrix structure. One method to form the glass container is to apply a layer of UV-curable varnish to an outer surface of the glass container as a plurality of varnish drops, so as to establish a plurality of voids between the varnish drops, cure the layer of UV-curable varnish, apply one or more additional layers of UV-curable varnish, and cure the additional layer(s) of UV-curable varnish, wherein all of the varnish drops and the voids form the UV-cured matrix.

An arrangement of a workpiece which is 3-dimensionally structured at least in partial surface regions, at least having a decoration applied above and/or below the structured workpiece surface, and at least one illumination source is described. The decoration comprises at least one coating material, wherein the amount of the coating material applied to the workpiece in a location-specific manner correlates with the height of the 3-dimensionally structured surface of the workpiece at this location, wherein the 3-dimensionally structured workpiece surface is at least partially translucent and the illumination source is arranged to couple light either laterally and/or at the rear and/or at the front into the workpiece surface. Furthermore, a method for coating 3-dimensionally surface-structured workpieces is presented.

A process for printing multiple layers on a fabric or other material using UV-curable ink that includes a step of printing a first layer on the material and another step of partially curing the first layer. A next step includes printing a partially UV-transparent layer over the first layer and fully curing the UV-transparent layer while simultaneously fully curing the first layer.

A method of printing composition(s) on a web is disclosed. The method includes the steps of advancing the web and printing a plurality of composition sites on the web. The method further includes the step of forming one or more discontinuities in the web. The discontinuities correspond to the printed composition sites.

The invention relates to a device for printing on edge bands including at least one printhead for producing a printed image on the edge band; a linear drive for moving the at least one printhead in a printing direction within a printing region between two end positions; a feeding apparatus for feeding the edge band into the printing region in a transport direction; and a control apparatus for controlling the at least one printhead, the linear drive and the feeding apparatus. The technical problem of technically and economically improving the process of printing on edge bands is solved in that the transport direction of the edge band is oriented substantially parallel to the printing direction. The invention further relates to a method for printing on edge bands.

A method for printing a three-dimensional object includes printing a structural layer onto a three-dimensional object, printing a first color layer onto a first region of the structural layer, and printing a second color layer onto a second region of the structural layer. The first region includes a first structural thickness, and the second region includes a second structural thickness, which is different than the first structural thickness. The first color layer includes a first color and a first color thickness, and the first color thickness and the first structural thickness in combination form a target thickness. The second color layer includes a second color and a second color thickness, and the second color thickness and the second structural thickness in combination form the target thickness.

An ink for ink-jet printing used for ink-jet printing images onto the ink non-absorptive surfaces of cylindrical containers, and comprising at least a water-soluble solvent, a coloring material, a surfactant, a thickener and/or a binder resin, the coloring material being contained in an amount of 5 to 20% by weight, the surfactant in an amount of 0.1 to 5% by weight, the thickener in an amount of not more than 10% by weight, and the binder resin being contained in an amount of not more than 30% by weight. Owing to its ink-jet printability, the ink for ink-jet printing of the invention can be favorably used for printing images on the non-absorptive cylindrical containers such as seamless cans that are used for containing beverages and foods.