A thermal transfer sheet including: a first substrate; and a first transfer layer and a peel-off layer provided on one surface of the first substrate in a frame sequential manner, wherein the first transfer layer after transfer under the following condition (A) has an arithmetic mean height Sa of more than 0.1 ?m and less than 0.6 ?m, and the peel-off layer has an arithmetic mean height Sa of more than 0.1 ?m and less than 1.0 ?m, [Condition (A)] an intermediate transfer medium including a receiving layer having a surface with an arithmetic mean height Sa of 0.1 ?m is prepared, and the first transfer layer of the thermal transfer sheet is placed opposite the receiving layer of the intermediate transfer medium, and an application energy of 0.167 mJ/dot is applied to transfer the first transfer layer of the thermal transfer sheet to a surface of the receiving layer of the intermediate transfer medium.

SOLVING MEANS The main challenge thereof is to provide a transfer sheet that allows printing with a high printing density, which never causes a blur and a crushing of an image.

SOLUTION There is provided a transfer sheet comprising a substrate, as well as a releasing layer and a hot melt colored layer in this order on the substrate, the hot melt colored layer comprising, as a binder resin, a (meth)acrylic resin having a glass transition temperature of not less than 75 C., and a colorant.

An intermediate transfer medium having a first transfer layer releasably provided on a support, a thermal transfer sheet in which a first colorant layer, a second transfer layer, and a second colorant layer are provided on one surface of a substrate so as being frame sequentially, and the second transfer layer is releasably provided from the substrate, and a transfer receiving article. The first colorant layer is used to form a first image on the first transfer layer of the intermediate transfer medium. The second transfer layer is transferred onto the first transfer layer on which the first image is formed, and then, the second colorant layer is used to form a second image on the second transfer layer. The first transfer layer is transferred together with the second transfer layer transferred on the first transfer layer onto the transfer receiving article to obtain a print having a stereoscopic image.

Retransfer printing methods and systems are described where a variable stripping process is utilized while stripping all or a portion of the retransfer film (also known as intermediate transfer media) from the surface of a substrate. The variable stripping process includes stripping the retransfer film from different sections of the substrate surface while applying different tensions to the retransfer film and/or at different transport speeds of the retransfer film and the substrate.

An image forming method including preparing a thermal transfer sheet having a dye layer on a substrate, the dye layer containing a sublimable dye, preparing a decorative seal having a seal base material on a release sheet, the seal base material having a layered structure of an adhesive layer and a film layered in this order from the release sheet side, the film containing a resin having a dyeing affinity to the sublimable dye contained in the dye layer, and the film having an elongation percentage of not less than 150% and not more than 400% when determined by a test method in conformity with JIS-K-7127:1999, and thermally transferring the sublimable dye in the dye layer onto the seal base material by sublimation thermal transfer process, thereby forming a thermal transfer image on the seal base material.

The present invention relates to methods and apparatus for printing a security card. A security image is printed onto the receiving layer of a dye receptive reverse transfer film, which can then be applied to the card and bonded with the card. The printing of the security image occurs by transferring overcoat material from an overcoat panel of the dye carrying film onto the receiving layer of the dye receptive reverse transfer film in a pattern, which forms the visual security image. This process can be used in conjunction with the printing of a primary image by printing Yellow, Magenta, Cyan dyes and Black resin (YMCK) to the receiving layer in a reverse transfer printing method to provide a security card having a primary image and a security image. The security image printing may occur before or after the YMCK printing.

An intermediate transfer film for use in a transfer lamination device includes a carrier layer, a transfer layer on the carrier layer, and a plurality of alignment marks supported on the carrier layer. The transfer section is configured to be transferred from the carrier layer to a substrate through a transfer lamination operation. Each alignment mark is substantially transparent to visible light and absorbs infrared light.

An intermediate transfer film for use in a transfer lamination device includes a carrier layer, a transfer layer on the carrier layer, and a plurality of alignment marks supported on the carrier layer. The transfer section is configured to be transferred from the carrier layer to a substrate through a transfer lamination operation. Each alignment mark is substantially transparent to visible light and absorbs infrared light.

An image forming method including preparing a thermal transfer sheet having a dye layer on a substrate, the dye layer containing a sublimable dye, preparing a decorative seal having a seal base material on a release sheet, the seal base material having a layered structure of an adhesive layer and a film layered in this order from the release sheet side, the film containing a resin having a dyeing affinity to the sublimable dye contained in the dye layer, and the film having an elongation percentage of not less than 150% and not more than 400% when determined by a test method in conformity with JIS-K-7127:1999, and thermally transferring the sublimable dye in the dye layer onto the seal base material by sublimation thermal transfer process, thereby forming a thermal transfer image on the seal base material.

In an intermediate transfer medium, a substrate, protective layers having a layered structure of two or more layers, and a receiving layer are layered in this order. One layer in the protective layers having the layered structure contains, as a main component, one material or a mixture of two or more materials selected from the group consisting of polyesters having a high polymerization degree, a number-average molecular weight (Mn) of not less than 12,000 and a Tg of not less than 60 C., polycarbonates and polyester urethanes. Another layer in the protective layers having the layered structure contains one or more materials selected from the group consisting of polyvinyl alcohols, polyvinyl butyrals, polyvinyl acetals and polyvinyl pyrrolidones or includes a cationic resin, and the receiving layer contains a side chain-type aralkyl-modified silicone in an amount of 0.5-5% by weight on a base of the total weight of the receiving layer.