This disclosure describes container(s) having an ultraviolet (UV)-cured matrix and methods to create the same. The 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. A method of printing a UV-cured matrix on a glass container is also disclosed that includes identifying a plurality of locations on a body of the container where the UV-cured matrix will be formed, determining a height value of the UV-cured matrix at each location, applying at least one varnish layer to the body according to an assigned grayscale or numeric value at each location, and applying UV light to cure each respective varnish layer.

An inkjet printed flexible film for decor applications is provided. In particular the present invention relates to an inkjet printed flexible film comprising a polymer film and an ink-receptive layer comprising polymerizable and/or crosslinkable compounds or a polymer crosslinked via (meth)acrylate moieties. Ink pigments can be applied to the ink-receptive layer in a print pattern by ink jet printing. The ink-receptive layer can be printed by means of industrial digital inkjet printing. The decor applications include any decorated surfaces for flooring, wall covering, furniture, ceilings and the like.

A method for producing a decorative and structured surface with different gloss levels by feeding of a workpiece to a lacquer application device, application of a first liquid lacquer layer over an entire surface with a coarse structure in which a difference in thickness between thicker areas and thinner areas is at least 50 μm, in order to apply a second lacquer layer on the first lacquer layer wherein after curing the second lacquer layer has a different gloss level than the first lacquer layer.

A method of manufacturing a decorative surface includes the steps of a) impregnating a paper substrate with a thermosetting resin; b) jetting a colour pattern with one or more aqueous inkjet inks including a polymer latex binder on the thermosetting resin impregnated paper; c) drying the one or more aqueous inkjet inks; and d) heat pressing the thermosetting paper carrying the colour pattern into a decorative surface.

The present invention relates to the technical field of security documents comprising a security feature, such as a windowed security thread, a security foil, a security patch, a hologram or an ink printed security feature, and a protective coating, and methods of manufacturing of said security documents. The security feature has a security feature thickness t.sub.f of at least about 5 μm (micrometers) and a security feature surface facing away from the substrate consisting of a first region adjacent to the edges of the security feature and a second region non-adjacent to the edges of the security feature. The protective coating covers the security feature surface facing away from the substrate, a first substrate surface adjacent to the edges of the security feature, and a second substrate surface, which is different from the substrate surface covered by the security feature and the first substrate surface. The protective coating covering the security feature surface facing away from the substrate and the first substrate surface is transparent, the protective coating covering the first region has a thickness t.sub.b1, the protective coating covering the second region has a thickness t.sub.b2, the protective coating covering the first substrate surface has a thickness t.sub.c, and the protective coating covering the second substrate surface has a thickness t.sub.a. The thickness t.sub.c is larger than the thickness t.sub.f, which is larger than the thickness t.sub.a; the thickness t.sub.b2 is larger than the thickness t.sub.a; and either the thickness t.sub.c is larger than the thickness t.sub.b1, which is larger than or equal to the thickness t.sub.b2; or the thickness t.sub.c is equal to the thickness t.sub.b1, which is larger than the thickness t.sub.b2. The variable protective coating thickness on the surface of the security document provides the inventive security document with an increased resistance against physical and chemical attacks from the environment, while maintaining the mechanical resistance properties required for such security documents.

A method for safely differentiating a three dimensional object subsequent to its creation and varnish protection by means of applying and sealing a decoration and/or data between the original and a final varnish layers. The three dimensional object may be decorated and/or contain data from its original manufacturing process but it may also be protected by a varnish prior to utilizing this process. The method enables the addition of decoration and data at any time or location subsequent to the original manufacturing process. The process takes place on top of the original varnish and may be subsequently sealed by applying another varnish layer.

A method of printing on a polymeric article includes applying a decoration-forming deposit on a transfer blanket. The method further includes transferring the decoration-forming deposit from the transfer unit to the polymeric article to provide a decoration on the polymeric article.

Systems and techniques for improving ink jet ink durability and adhesion to a substrate. The techniques may include applying a varnish to the surface of the substrate, curing, in an initial curing step, the varnish with an ultraviolet (UV) lamp, and applying a pigmented ink to at least a portion of the substrate. The initial curing step may comprise pinning the varnish with the UV lamp in a low-power state. The techniques may additionally or alternatively include applying a layer of pigmented ink and varnish at substantially the same time, allowing the pigmented ink and varnish to at least partially mix, then pinning or curing the ink/varnish combination.

A plastic card personalization system with a drop-on-demand plastic card print station that prints radiation curable material, a plasma treatment station, and a radiation curing station. By using a combination of controlling plasma treatment conditions on the surface of the plastic card prior to DOD printing together with controlling the dwell time of the printed material applied to the plastic card prior to full curing of the printed material, a surprising and unexpected improvement of the adhesion of the printed material to the plastic card is achieved.

A method of forming an image on a substrate that includes applying a radiation curable analog ink composition by an analog printing method onto a surface of the substrate to form a coated substrate, applying a radiation curable inkjet ink composition by a digital printing method onto the coated substrate while the radiation curable analog ink composition is still wet to form a hybrid coated substrate, and exposing to electron beam radiation. A method of forming an image on a substrate that includes applying a radiation curable inkjet ink composition by a digital printing method onto a surface of the substrate to form a coated substrate, applying a radiation curable analog ink composition by an analog printing method onto the coated substrate while the radiation curable inkjet ink composition is still wet to form a hybrid coated substrate, and exposing to electron beam radiation.