There is provided a process for heat transfer printing, comprising electrostatically printing a transparent electrostatic ink composition (3) onto a transfer material (2), wherein the transparent electrostatic ink composition comprises a thermoplastic resin; printing an image (4) on the transparent electrostatic ink composition; contacting the image with a target substrate (1) under conditions such that the thermoplastic resin of the transparent electrostatic ink composition is softened or molten, and separating the target substrate and the transfer material, to leave the target substrate having thereon the image and an overlying layer of transparent electrostatic ink composition. Also disclosed is a fabric having thereon an image, the image having an overlying layer of transparent electrostatic ink composition.

There is disclosed a layered article that can be used in indirect printing, in analog or digital processes. The layered article, when configured as a transfer member, may serve to receive an ink in any form, allow the ink to be treated so as to form an ink image, and permit the application of the ink image on a substrate. The transfer member comprises a support layer and an imaging layer, which may be formed of a silicon matrix including dispersed carbon black particles. Methods for preparing the same are also disclosed.

An apparatus and methods of decorating a metallic container are provided. More specifically, the present invention relates to apparatus and methods used to provide a decoration or indicia on a predetermined portion of an outer surface of a metallic container body. The decorator includes at least one digital print unit, a transfer blanket, and a support element. The digital print unit transfers a decorating material to the transfer blanket to form a decoration on the transfer blanket. The support element then moves a metallic container into contact with the transfer blanket. In this manner, the decorating material is transferred to an exterior surface portion of the metallic container to decorate the metallic container. In one embodiment, the digital print unit is an electrophotographic system which transfers a toner material to the transfer blanket. In another embodiment, the digital print unit includes an inkjet print head which transfers an ink to the transfer blanket. Optionally, the decorator may include two or more support elements.

Provided are a combination of a thermal transfer sheet and an intermediate transfer medium which is capable of accurately transferring only a transfer layer of the intermediate transfer medium desired to be transferred onto a transfer receiving article in the production of a print, and a thermal transfer sheet which is used in combination with an intermediate transfer medium. Also provided are a method for producing a print, comprising accurately transferring only a transfer layer of an intermediate transfer medium desired to be transferred onto a transfer receiving article, and a thermal transfer printer which is used in this method for producing a print. In the thermal transfer sheet which is used in combination with an intermediate transfer medium, inhibit layer 2 is disposed on substrate 1, and the inhibit layer 2 contains a carnauba wax.

To provide a coating liquid for release layer with which a release layer having a small variation in the performance difference can be stably formed, to provide a method for producing a thermal transfer sheet using this coating liquid for release layer, and to provide a thermal transfer sheet having stable releasability.

A thermal transfer sheet having a substrate 1, a release layer 2 provided on the substrate 1, and a transfer layer 10 provided on the release layer 2, wherein the transfer layer 10 is provided peelably from the release layer 2, and the release layer 2 contains a silsesquioxane.

A printing process that reduces the amount of flash that occurs when printing to a surface of a plastic card. The printing can occur by a retransfer printing process. The printing process includes generating an image canvas that has rounded corners instead of the conventional right angle corners. The use of rounded corners on the image canvas reduces the amount of printing in the image canvas at the corners compared to an image canvas that has right angle corners, thereby reducing the amount of printing that is present that could form flash at the corners of the card surface.

A printing system is disclosed for thermal transfer printing onto a surface of a substrate. The system comprises a transfer member having opposite front and rear sides with an imaging surface on the front side, a coating station at which a monolayer of particles made of, or coated with, a thermoplastic polymer is applied to the imaging surface, an imaging station at which energy is applied by a thermal print head via the rear side of the transfer member to selected regions of the particles coated imaging surface to render particles coating the selected regions tacky, and a transfer station at which the imaging surface of the transfer member and the substrate surface are pressed against each other to cause transfer to the surface of the substrate of the particles that have been rendered tacky.

An object of the present invention is to provide an intermediate transfer medium having high durability, as well as high smudge resistance and image stability. The intermediate transfer medium of the present invention includes: a substrate, and a transfer layer including a first intermediate layer, a second intermediate layer and a receiving layer; in which the first intermediate layer contains a (meth)acrylic polyol resin with a glass transition temperature of 80 C. or higher; in which the second intermediate layer contains a polyester with a glass transition temperature of 45 C. or higher and a filler with a mean particle diameter of 2 m or more and 5 m or less; and in which the content of the filler in the second intermediate layer is 0.5% by mass or more and 5% by mass or less.

A sublimation transfer sheet assembly including a first layer and an dye or ink layer positioned on a first side of the first layer. The first layer and the dye or ink layer being positioned such that when the sublimation transfer sheet assembly is wrapped about an object with the dye or ink layer facing the object, a first edge portion of the sublimation transfer sheet assembly is overlapped by a second edge portion of the sublimation transfer sheet assembly, and the first edge portion is interposed between the second edge portion and the object.

Apparatuses and methods for applying a transfer material from a transfer component onto the surface of an article are disclosed, including apparatuses and methods of transfer printing on and/or decorating three-dimensional articles, as well as the articles printed and/or decorated thereby. In some embodiments, the method may utilize a printer such as an inkjet printer. In some cases, the transfer material may be a UV curable ink and/or adhesive. When the transfer material is UV curable, the transfer component may be permeable to UV radiation to allow curing of the ink and/or adhesive therethrough. UV curable adhesives including thiol-acrylate and thiol-ene acrylate inkjet-able adhesives are disclosed. The UV curable adhesive may be colored (such as with white pigment) in lieu of providing a base (white) ink layer so that more UV radiation will be able to pass through the ink layer(s) in order to reach the adhesive.