In one aspect, the present invention relates to a thermosensitive recording medium comprising at least: —a support layer; —a thermosensitive colouring layer over the support layer, the thermosensitive colouring layer containing a leuco dye; and —a protective layer over the thermosensitive colouring layer; wherein the thermosensitive colouring layer comprises a developer having the general formula (I) below: wherein R.sub.1 to R.sub.3 each independently represent a hydrogen atom, a halogen atom, a C1-C6 alkyl group, a C1-C6 alkoxyl group, a C1-C6 fluoroalkyl group; characterized in that the protective layer comprises particles of wax with an average particle size of at least 0.05 μm and at most 2.0 μm. In further aspects, the present invention relates to a label for attachment to a product comprising the thermosensitive recording medium of the invention, and to a consumer product package to which a thermosensitive recording medium or a label of the invention has been attached. ##STR00001##

A recording medium according to an embodiment of the present disclosure includes: a recording layer including a leuco dye as a coloring compound; a first barrier film that is provided on each of one surface and another surface opposed to the one surface of the recording layer, and suppresses intrusion of moisture, oxygen, or both; and a second barrier film having chemical resistance and provided on a side surface of the recording layer continuously at least from a peripheral part of the one surface to a peripheral part of the other surface of the recording layer.

A security element (1) as well as a method for producing a security element (1). The security element (1), in particular a security strip or a security thread or a patch or a transfer film (2) or a laminating film or a print, for protecting security documents (3), includes at least one thermochromic element (11), wherein i) the at least one thermochromic element (11) has haptic properties; and/or ii) the security element (1) has at least one haptic layer (12).

A combined 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, and (iii) a water-based microsphere adhesive disposed on the back side of the substrate along the web axis. The water-based microsphere adhesive comprises at least four separate adhesive patches. The at least four adhesive patches are both sized relative to each other and positioned relative to each other on the back side of the substrate such that additional tack desired can be obtained by increasing volume of the adhesive patches without having to increase coat weight of the adhesive patches.

A production line is for aerosol containers (AC) whose exterior surface is printed with inks in a predetermined pattern to form a desired design including both imagery and graphics. The line includes an inking station and a varnish application station through which aerosol containers successively pass. Inks are applied to containers at the inking station and a varnish to the inked exterior of the container at the varnish station. A LED light module (12) installed between the ink station and varnish station emits a light within a predetermined frequency range onto inked containers. The temperature produced by the LED light source is cooler than that of Uv light sources that could be used for the same purpose. The exterior surface of finished containers exhibit no lapping or discolorations and have improved scratch resistance.

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.

A label comprises a facestock adapted to be adhered or attached to an object. A direct thermal coating is on the facestock, the direct thermal coating configured to selectively darken by heat activation when direct thermal printed. A cured ultraviolet coating is on the direct thermal coating, the cured ultraviolet coating having photoinitiators with substantial activation at an exposure limited to radiation at a 315 nm-450 nm wavelength range, and configured to allow direct thermal printing of the direct thermal coating therethrough. The ultraviolet coating is cured without heat activating the direct thermal coating.

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 invention relates to a self-adhesive, heat-sensitive recording material, comprising a carrier substrate, a heat-sensitive, color-forming layer that is applied on one side of the carrier substrate and contains at least a non-phenolic color developer in and at least one color former, a siliconized layer on the upper side of the heat-sensitive, color-forming layer that is applied on the carrier substrate, as well as an adhesive layer on the side of the carrier substrate facing away from the heat-sensitive, color-forming layer.