Provided is a thermal transfer sheet having a good foil holding property of a transfer layer and a good foil cutting property of the transfer layer. A thermal transfer sheet which comprises a substrate 1, a release layer 2, and a transfer layer 10 which are layered in this order, wherein the interval between the release layer 2 and the transfer layer 10 corresponds to the transfer interface of the transfer layer 10, and the release layer 2 contains an acid-modified polyolefin.

Provided is a thermal transfer sheet having a good foil holding property of a transfer layer and a good foil cutting property of the transfer layer. A thermal transfer sheet which comprises a substrate 1, a release layer 2, and a transfer layer 10 which are layered in this order, wherein the interval between the release layer 2 and the transfer layer 10 corresponds to the transfer interface of the transfer layer 10, and the release layer 2 contains an acid-modified polyolefin.

Provided is a thermal transfer sheet which has satisfactory printability and provides a printed matter having excellent boiling resistance. Disclosed is a thermal transfer sheet which is provided with a substrate, at least a transferable protective layer and a transferable color layer in this order on one side of the substrate, and is provided with a back face layer on the other side of the substrate, characterized in that the transferable protective layer contains a cyclic olefin-based polymer having a glass transition temperature of 100 C. or more as a main component and further contains an incompatible resin with the cyclic olefin-based polymer, and the transferable color layer contains a colorant and a phenolic resin having a softening point of 100 C. or more.

Provided is a thermal transfer sheet which has satisfactory printability and provides a printed matter having excellent boiling resistance. Disclosed is a thermal transfer sheet which is provided with a substrate, at least a transferable protective layer and a transferable color layer in this order on one side of the substrate, and is provided with a back face layer on the other side of the substrate, characterized in that the transferable protective layer contains a cyclic olefin-based polymer having a glass transition temperature of 100 C. or more as a main component and further contains an incompatible resin with the cyclic olefin-based polymer, and the transferable color layer contains a colorant and a phenolic resin having a softening point of 100 C. or more.

A thermal transfer foil and also a process for producing a true color image, and a true color image, wherein the thermal transfer foil includes at least one effect pigment layer and a carrier foil which has first effect pigments in one or more first regions.

A thermal transfer recording medium that satisfies the requirements for higher printing speed of thermal transfer, and high density and high quality of thermal transfer images, that better prevents the occurrence of abnormal transfer under high-temperature and high-humidity conditions, and that improves transfer sensitivity in printing. The thermal transfer recording medium includes a primer layer, an undercoat layer, and a dye layer in this order on one surface of a substrate, and a heat-resistant lubricating layer on the other surface of the substrate; wherein the primer layer contains polycarbonate and a polyurethane-urea resin having a polycaprolactam skeleton; the undercoat layer contains a copolymer of polyester and acrylic, and polyvinyl pyrrolidone; and the copolymer is a copolymer of polyester having a sulfonic acid group, and acrylic having at least one of a glycidyl group and a carboxyl group.

A thermal transfer recording medium that satisfies the requirements for higher printing speed of thermal transfer, and high density and high quality of thermal transfer images, that better prevents the occurrence of abnormal transfer under high-temperature and high-humidity conditions, and that improves transfer sensitivity in printing. The thermal transfer recording medium includes a primer layer, an undercoat layer, and a dye layer in this order on one surface of a substrate, and a heat-resistant lubricating layer on the other surface of the substrate; wherein the primer layer contains polycarbonate and a polyurethane-urea resin having a polycaprolactam skeleton; the undercoat layer contains a copolymer of polyester and acrylic, and polyvinyl pyrrolidone; and the copolymer is a copolymer of polyester having a sulfonic acid group, and acrylic having at least one of a glycidyl group and a carboxyl group.

The disclosed embodiments are directed to a composition of an inverse emulsion acrylate ink for use in variable data digital lithographic image forming devices and methods for preparing and using the ink. The disclosed inverse emulsion acrylate ink includes an acrylate monomer, oligomer, polymer, or mixtures thereof that is a continuous phase, and water dispersed as an emulsion in the continuous acrylate phase. The disclosed inverse emulsion acrylate ink includes one or more of a color pigment component, a rheology modifying agent, a stabilizing agent, and a photoinitiator component. The water may be supplemented with a surfactant to lower a surface tension of the water.

The disclosed embodiments are directed to a composition of an inverse emulsion acrylate ink for use in variable data digital lithographic image forming devices and methods for preparing and using the ink. The disclosed inverse emulsion acrylate ink includes an acrylate monomer, oligomer, polymer, or mixtures thereof that is a continuous phase, and water dispersed as an emulsion in the continuous acrylate phase. The disclosed inverse emulsion acrylate ink includes one or more of a color pigment component, a rheology modifying agent, a stabilizing agent, and a photoinitiator component. The water may be supplemented with a surfactant to lower a surface tension of the water.

A thermal transfer recording medium that is able to better suppress bleeding or scumming of an image and better suppress the occurrence of peeling lines or abnormal transfer during thermal transfer. The thermal transfer recording medium according to an embodiment includes a heat-resistant slip layer that is formed on one surface of a base material, an undercoat layer that is formed on the other surface of the base material, and a dye layer that is formed on a surface of the undercoat layer that is opposite from the surface that faces the base material; wherein the dye layer includes at least a thermally transferable dye, a first binder resin and a release agent; the release agent includes polyether-modified silicone oil and a perfluoroalkyl compound, and the ratio of the polyether-modified silicone oil and perfluoroalkyl compound, on the basis of a weight ratio, is within the range 9:1 to 6:4.