The invention relates to a device for carrying a substrate, for example a drinking cup, and clamping against the substrate, for example against an outer wall of the drinking cup, a clamping sheet, wherein the clamping sheet comprises a flexible and bendable material with a width and a length, said length being measured between longitudinal ends of the clamping sheet, wherein coupling members are provided at longitudinal ends of the clamping sheet, said coupling members comprising rods protruding in the width direction of the clamping sheet. The device is characterized in that the device comprises first recesses for receiving rods of a first width side that are positioned at opposite longitudinal ends of the clamping sheet and comprises second recesses for receiving rods of a second width side that are positioned at opposite longitudinal ends of the clamping sheet, and the device comprises a support member for carrying the device and the substrate.

A method for producing a light-accumulating transfer sheet, comprising an adhesive layer forming step for forming an adhesive layer on a supporting layer; a resin layer forming step for forming a resin layer on the adhesive layer; an infrared absorbing layer forming step for forming an infrared absorbing layer comprising an infrared absorbent on the resin layer; a microcapsule layer forming step for forming a microcapsule layer, in which microcapsules are dispersed, on the infrared absorption layer; and a pigment dispersion layer forming step for forming a pigment dispersion layer containing a light-accumulating pigment on the microcapsule layer, wherein the microcapsules comprise a heat-meltable content which is reversibly solidified and melted by heat from the infrared absorption layer and an encapsulant for encapsulating the heat-meltable content.

A combination of a thermal transfer sheet and an intermediate transfer medium according to the present disclosure is characterized in that the thermal transfer sheet includes a first substrate and a melt transfer coloring layer, the intermediate transfer medium includes a second substrate and a transfer layer including a receiving layer, and the melt transfer coloring layer and the receiving layer contain a release material.

Provided is a method for manufacturing a transfer sheet which can impart a sufficient function to an adherend. The method for manufacturing a transfer sheet includes performing the following steps (1) and (2) in order: (1) applying a coating liquid for forming a transfer layer onto a release substrate 1 to form a transfer layer comprising at least one functional layer; and (2) laminating a release substrate 2 onto the transfer layer to obtain a transfer sheet A comprising the release substrate 1, the transfer layer and the release substrate 2 in the presented order and having a peel strength 2 between the release substrate 2 and the transfer layer larger than a peel strength 1 between the release substrate 1 and the transfer layer.

A thermal transfer printer includes a first supply unit configured to supply an intermediate transfer medium in which, on one surface of a first base, a transfer layer including a receiving layer is disposed, a second supply unit configured to supply a thermal transfer sheet in which, on one of surfaces of a second base, a colorant layer and a particle layer are disposed, a printing unit configured to heat the thermal transfer sheet, to transfer a colorant from the colorant layer to the receiving layer to form an image, and to transfer the particle layer onto the receiving layer, a third supply unit configured to supply a transfer-receiving body, and a transfer unit configured to place the intermediate transfer medium and the transfer-receiving body on top of each other such that the transfer-receiving body faces the particle layer on the receiving layer, and to heat the intermediate transfer medium.

A device for carrying a substrate, for example a drinking cup, and clamping against the substrate, for example against an outer wall of the drinking cup, a clamping sheet, wherein the clamping sheet comprises a flexible and bendable material with a width and a length, said length being measured between longitudinal ends of the clamping sheet, wherein coupling members are provided at longitudinal ends of the clamping sheet, said coupling members comprising rods protruding in the width direction of the clamping sheet. The device is characterized in that the device comprises first recesses for receiving rods of a first width side that are positioned at opposite longitudinal ends of the clamping sheet and comprises second recesses for receiving rods of a second width side that are positioned at opposite longitudinal ends of the clamping sheet, and the device comprises a support member for carrying the device and the substrate.

A thermal transfer sheet according to the present disclosure includes a first substrate and a transfer layer including at least a peeling layer, the peeling layer containing a resin material and antimicrobial particles, the antimicrobial particles having an average particle size in the range of 1 to 8 μm, and the peeling layer having a content of the antimicrobial particles in the range of 2.8 to 8 parts by mass per 100 parts by mass of the resin material.

Described herein is decorative article having a coefficient of friction less than 0.3 wherein the decorative articles comprises: (i) a microsphere layer comprising a plurality of microspheres, wherein the microsphere layer comprises a monolayer of microspheres and wherein the plurality of microspheres are in a microscopic periodic pattern; and (ii) a bead bonding layer disposed on the microsphere layer, wherein the plurality of microspheres are partially embedded in the bead bonding layer. Also disclosed herein are transfer articles and methods of making the decorative articles and transfer articles.

An integrated image layer construction and method of making same resulting in a homogenous mix which can be applied it to a target surface, such as a surface of a floor, wall tile or other hard surface, to yield a durable, resistant form of decoration.

Embodiments include a cap or hat decoration method by providing a press including a lower platen and upper platen, and coupling a pad to the lower platen, where the pad is dimensioned based on one or more dimensions of the cap or hat, and positioning the cap or hat onto at least a portion of the pad. Further, the method includes positioning at least one decoration onto at least a portion of the cap or hat, where the at least one decoration includes a heat-activated adhesive, and heating and compressing the decoration onto the cap or hat by compressing the cap or hat and decoration between the lower platen and upper platen.