A thermal recording medium includes: a transparent base material and a thermal recording layer on the base material. The thermal recording layer contains a dispersant having a carboxyl group and a crosslinking agent including an epichlorohydrin-modified polyamide polyamine resin or an organic compound containing an oxazoline group.

The thermal transfer image-receiving sheet according to the present disclosure includes a receiving layer, a front substrate, a porous layer, and a rear substrate in this order and further includes a metal-containing layer interposed between the receiving layer and the front substrate or between the front substrate and the porous layer. The thermal conductivity of the thermal transfer image-receiving sheet which is measured on the receiving layer-side is 0.38 W/m.Math.K or less. The Martens hardness of the thermal transfer image-receiving sheet which is measured on the receiving layer-side is 10.0 N/mm.sup.2 or less. The 45-degree specular gloss of the thermal transfer image-receiving sheet which is measured on the receiving layer-side is 800 or more.

An inkjet recording medium, comprising an ink-receiving layer containing an inorganic pigment, a binder, an inkjet ink-fixing agent comprising a cationic compound, and organic spherical particles disposed on at least one surface of a base paper, wherein the ink-receiving layer further contains a water-soluble metal salt and 5 parts by weight or more to 15 parts by weight or less of polyvinyl alcohol (A) with a polymerization degree of 700 or less and 20 parts by weight or more to 40 parts by weight or less of polyvinyl alcohol (B) with a polymerization degree of 1200 or more as the binder with respect to 100 parts by weight of the ink-receiving layer; and a volume 50% average particle diameter (D50) as measured by a laser diffraction/scattering method of the organic spherical particles is 15.0 μm or more.

A thermal transfer image-receiving sheet of the present disclosure is characterized by including a substrate, a heat-sensitive recess-forming layer, and a receiving layer, in which the heat-sensitive recess-forming layer has a thickness of 40 μm or more, and a recess to be formed by application of an energy of 0.27 mJ/dot from a side of the receiving layer through a film including a 1-μm-thick back layer disposed on a poly(ethylene terephthalate) film having a thickness of 4 μm has a depth of 5 μm or more.

An object is to provide a thermal transfer sheet that can prevent the occurrence of layer detachment and has high transferability for preventing the occurrence of transfer defects such as delamination trace and tailing. The thermal transfer sheet of the invention is characterized in that it includes a substrate, a release layer, and a transfer layer in that order, and the release layer contains at least one of alumina and alumina hydrate, and a binder resin.

A description is given of a heat-sensitive recording material, comprising phenol-free organic color developers, more particularly comprising a color developer mixture comprising phenol-free organic color developers, of a heat-sensitive recording layer and also of a coating composition for producing it, of the use of the heat-sensitive recording material, of the use of an organic color developer of a formula I for improving the resistance of the printed image of a heat-sensitive recording material, and of a method for producing heat-sensitive recording material.

A thermal transfer sheet, a combination of an intermediate transfer medium and a thermal transfer sheet, method for producing a printed material using the thermal transfer sheet, and a decorative material, wherein the thermal transfer sheet includes a transfer layer on one surface of a substrate, the transfer layer having a single layer structure consisting only of a heat seal layer or a multilayer structure including a heat seal layer, and in a case where the transfer layer has the multilayer structure, the heat seal layer among the layers constituting the transfer layer is positioned closest to the substrate. The heat seal layer contains one or both of (i) a polyester having a glass transition temperature (Tg) of 55° C. or more and a number average molecular weight (Mn) of 15000 or less, and (ii) a polyester having a glass transition temperature (Tg) of less than 55° C.

The present disclosure relates to ornamental indicia carrier and method of producing the same. In some embodiments, the ornamental indicia carrier comprises an ultraviolet light (“UV”) cured ink printed on a thin flexible film and combined with an adhesive layer. The ornamental indicia carrier is capable of enduring the conditions inside the mouth for an extended period of time and can be used in conjunction with a dental appliance.

The present disclosure relates to ornamental indicia carrier and method of producing the same. In some embodiments, the ornamental indicia carrier comprises an ultraviolet light (“UV”) cured ink printed on a thin flexible film and combined with an adhesive layer. The ornamental indicia carrier is capable of enduring the conditions inside the mouth for an extended period of time and can be used in conjunction with a dental appliance.

An apparatus is configured to heat a print medium in which a plurality of color development layers that develop colors in accordance with heating are stacked in correspondence with a plurality of colors so as to form an image on the medium by causing a desired color development layer in the plurality of color development layers to independently develop the color. The apparatus includes a printhead, an input unit configured to receive a print job, a generation unit configured to generate image data and cut information for specifying a cut position, a second generation unit configured to generate first and second pulses for driving the print head, and a drive unit configured to drive the print head to form an image on the medium and apply heat beyond a melting point to melt the medium so as to cut the medium.