An illustrative dye sublimation apparatus (also referred to as a dye sublimation machine) may have a pair of conveyor belts to perform continuous sublimation cycles using a continuous feed of printed sheet and substrate. For example, the continuous feed dye sublimation apparatus may receive substrate directly from an extrusion machine, which saves time and effort over traditional methods that require separate preparing and loading steps. The pair of conveyor belts may then apply pressure and heat to the printed sheet and substrate in order to facilitate dye sublimation.

An illustrative heating section of a dye sublimation machine may utilize a plurality of configurable pyrometers. The pyrometers may take the corresponding temperature measurements remotely without interacting with any mechanical moving parts of the dye sublimation machine and therefore may be more robust against breakage. The pyrometers may be directed at the membrane covering the printed sheet and therefore may provide more accurate temperature measurements. Furthermore, the angular orientation of the pyrometers may be configured that may allow the pyrometers to dynamically measure the temperature of multiple spots in the heating section. In addition to the pyrometers in the heating section, a plurality of pyrometers may be provided to measure the temperature in the cooling section of the dye sublimation machine.

An illustrative heating section of a dye sublimation machine may utilize a plurality of configurable pyrometers. The pyrometers may take the corresponding temperature measurements remotely without interacting with any mechanical moving parts of the dye sublimation machine and therefore may be more robust against breakage. The pyrometers may be directed at the membrane covering the printed sheet and therefore may provide more accurate temperature measurements. Furthermore, the angular orientation of the pyrometers may be configured that may allow the pyrometers to dynamically measure the temperature of multiple spots in the heating section. In addition to the pyrometers in the heating section, a plurality of pyrometers may be provided to measure the temperature in the cooling section of the dye sublimation machine.

Use of a laser-activatable component in a composition and/or use of a composition that includes the laser-activatable component, during laser transfer printing, characterized in that the laser-activatable component is activated by laser irradiation during use in such a way that the viscosity and/or the elasticity and/or the tack of the composition increase(s) due to an increase in temperature of the composition, wherein the laser-activatable component is a polymer made up of the groups comprising polyethylene glycol, polyvinylpyrrolidone, polyvinyl acetate, polyvinyl alcohol, polyacrylate, polyester, or copolymers of these polymers or blends.

An image formation apparatus according to an embodiment may include: a first image formation section configured to form a first image of a developer containing a lustrous pigment; a second image formation section configured to form a second image of a dyeing developer; and a transfer section configured to transfer the first image and the second image on a medium such that the first image and the second image are stacked to each other on the medium.

An image formation apparatus according to an embodiment may include: a first image formation section configured to form a first image of a developer containing a lustrous pigment; a second image formation section configured to form a second image of a dyeing developer; and a transfer section configured to transfer the first image and the second image on a medium such that the first image and the second image are stacked to each other on the medium.

An embodiment of the present invention provides a transfer film that may be used for both a picking process and a placing process of an element, a transfer method using the transfer film, and an electronic product manufactured using the same. Here, the transfer film according to an embodiment of the present invention includes a base part, an adhesion part, and a first protrusion part. The adhesion part is provided on one surface of the base part, and at least part of the first protrusion part is formed and protruded on one surface of the base part to be accommodated inside the adhesion part, and the thickness increases toward the first direction parallel to the surface of the base part. The first protrusion part is partitioned into a first region including a relatively thick portion of the first protrusion part and a second region including a relatively thin first protrusion part and having weaker adhesive force than the first region, and the element is picked while the first region is lifted first in the picking process, while the element is placed while the second region is lifted first in the placing process.

A receipt and label roll comprises a core and a web having a longitudinally-extending axis and wound on the core along the axis. The web includes (i) a substrate having a front side and a back side opposite the front side, (ii) a thermally-sensitive coating disposed on the front side of the substrate, (iii) adhesive disposed on a portion of the back side of the substrate along the web axis, and (iv) a release coating disposed on the front side of the substrate along the web axis to prevent the adhesive from sticking to the front side of the substrate when the web is wound on the core. The web further includes (v) a longitudinal weakened structure extending along a direction parallel to the web axis and dividing the web into a first web portion on which the adhesive is disposed and a second web portion which is substantially devoid of adhesive.

An intermediate transfer medium that allows formation of high-density images on a transfer layer while suppressing printing unevenness and provides good foil cutting properties of the transfer layer, a combination of the intermediate transfer medium and a thermal transfer sheet, and a method for forming a print using the intermediate transfer medium. In an intermediate transfer medium having a transfer layer on a substrate, the transfer layer has a single layer structure including only a receiving layer or a layered structure including the receiving layer. When the transfer layer has the layered structure, the receiving layer is located furthest from the substrate among layers constituting the transfer layer. The receiving layer contains a binder resin having a number average molecular weight of 8000-32000 and a release agent. The content of the release agent based on the total mass of the receiving layer is 6% by mass or more.

An intermediate transfer medium that allows formation of high-density images on a transfer layer while suppressing printing unevenness and provides good foil cutting properties of the transfer layer, a combination of the intermediate transfer medium and a thermal transfer sheet, and a method for forming a print using the intermediate transfer medium. In an intermediate transfer medium having a transfer layer on a substrate, the transfer layer has a single layer structure including only a receiving layer or a layered structure including the receiving layer. When the transfer layer has the layered structure, the receiving layer is located furthest from the substrate among layers constituting the transfer layer. The receiving layer contains a binder resin having a number average molecular weight of 8000-32000 and a release agent. The content of the release agent based on the total mass of the receiving layer is 6% by mass or more.