The problem of this invention is to provide a transfer paper with good close contact to fiber materials and good color density of patterns formed on the fiber materials, good peeling, and no significant difference in texture between patterned and non-patterned areas of the fiber materials.

The present invention provides a transfer paper having a base material with one or more non-aqueous resin laminate layer(s) on one side of a base paper, and one or more coating layer(s) on the laminate layer(s) of the base material, wherein an outermost coating layer, which is positioned outermost in the coating layer(s) with respect to the base material, contains a white pigment and a binder, the white pigment contains at least an amorphous silica, and the binder contains at least five types consisting of a water-soluble polyester resin, a carboxylic acid-modified polyvinyl alcohol resin, an acrylic resin, a hydroxypropyl starch and an alginate.

A composite image heat transfer is disclosed for use on specific merchandising articles, sports jerseys, or other apparel for a specific sport. A scannable mark would be embedded in a heat transfer positioned on a sports jersey, such as a jersey number or a club crest. The scannable mark would be scanned by a user to provide stats, personal information, or other information about the corresponding sports team/club and/or individual athlete. The user can also register the scannable mark and follow the sports team/club and/or athlete on social media. Thus, the composite image heat transfer with embedded scannable mark would link each jersey number with information related to the corresponding player/athlete, and each club crest would be linked to information related to the corresponding club/team. This would enable a strong interaction through social media and other web tools between athletes and/or clubs and fans.

A method and a device for clampingly holding against a substrate (8), for example a drinking cup, a heat transfer sheet (5) using a clamping sheet (2), comprising providing a device (1) with a substrate holder (10) for clampingly holding the substrate (8); providing a clamping sheet (2) with a width and a length, length being measured between longitudinal ends of the clamping sheet (2), and wherein at the longitudinal ends of the clamping sheet (2) coupling means (3) are provided; and positioning in catch means (4) of a positioning device the coupling means (3) for keeping the clamping sheet (2) in a first position.

Described herein a heat transfer label comprising a support portion comprising a release layer having a first side and a second side and a first carrier at least partially disposed on the first side of the release layer; and a transfer portion comprising a engravable first ink layer having a first side and a second side; and an adhesive layer having a first side and a second side, wherein a graphic design is engraved on the first ink layer using the laser light after the heat transfer label is at least partially bonded onto a substrate. Also described herein are methods of laser engraving a heat transfer label comprising at least partially bonding the heat transfer label described herein onto a substrate; and at least partially laser engraving the ink layer.

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.

The present invention provides a restickable lettering film and a manufacturing method thereof. The manufacturing method of the restickable lettering film includes steps of: preparing a lettering layer having a first surface and a second surface; disposing a thermo-bonding layer on the second surface of the lettering layer; adhering the first surface of the lettering layer to a temporary adhesive layer. The lettering layer can be many times repeatedly removed from and adhered to the temporary adhesive layer. Accordingly, a user can easily use the lettering film.

Provided is a decorative molded article that uniformizes the brightness of an uneven surface and inhibits whitening. The decorative molded article is provided with a protective layer having an uneven surface on an adherend, and satisfying the following requirement 1-1: <Requirement 1-1> A black plate is stuck to the surface of the article on the adherend side thereof via a transparent pressure-sensitive adhesive layer to prepare a sample A. A visible light inclined by 10 degrees from the normal direction of the sample A is made to run into the uneven surface, and based on the specular direction of the incident light as a reference angle, a luminous reflectance is measured every 0.2 degrees within a range of the reference angle±5.0 degrees. When the luminous reflectance at −5.0 degrees relative to the reference angle is represented by Y.sub.−5.0 and the luminous reflectance at −4.8 degrees is represented by Y.sub.−4.8, a value represented by an expression of [(Y.sub.−4.8−Y.sub.−5.0)/((Y.sub.−4.8+Y.sub.−5.0)/2)]×100 is defined as a change rate of the luminous reflectance at −5.0 degrees. When a change rate of the luminous reflectance at every measurement angle is calculated, and when an approximate straight line is drawn according to a least-square method in which the x-axis indicates the measurement angle and the y-axis indicates the change rate, the slope of the approximate straight line is −2.00 or more and −0.90 or less.

An apparatus for texturing a plastic substrate, while forming a dye sublimation image in the plastic substrate, wherein the plastic substrate has a first side and a second side, is provided. A textured cover is on a side of a platen, wherein the platen is on a first, untextured side of the textured cover. A first side of the dye carrier is on a second, textured side of the textured cover, and wherein the plastic substrate is supported on a second side of the dye carrier, wherein a first side of the plastic substrate is supported by the dye carrier, wherein the textured side of the textured cover has a texture to be transferred to the plastic substrate. A membrane is on the second side of the plastic substrate. A vacuum pump provides a vacuum between the membrane and the platen. A heater is positioned to heat the plastic substrate.

In one embodiment, a method for manufacturing a decorative film for molding and a molding method include, in the following order, forming, on a base material, a liquid crystal layer including a cholesteric liquid crystal compound and a photoisomerization compound, photoisomerizing the liquid crystal layer, and curing the liquid crystal layer. In one embodiment, a decorative film for molding includes, on a base material, a liquid crystal layer including a cholesteric liquid crystal compound and a photoisomerization compound, in which the cured liquid crystal layer has a plurality of regions which are different from each other in terms of a photoisomerization proportion of the photoisomerization compound. A molded product using the decorative film for molding, an automobile exterior plate, and an electronic device are also provided.

A sticker application system includes a fabric, a heat transfer permanent vinyl attached to the fabric and non-permanent adhesive material temporarily adhered to the permanent vinyl. The non-permanent adhesive material contains at least one of a design or graphics. The vinyl permanently adhered to the fabric by heat transfer is washable. The non-permanent adhesive backed vinyl is temporarily adhered to the permanent heat transfer vinyl for a transferable, re-useable, changeable use. The permanent and non-permanent vinyl combination is a unique platform suitable for decoration, methods including but not limited to stickers, sticker design sets, stencil drawings, hand drawings, art and expression. A sticker application method provides a temporary, transferable, reusable, changeable way to self-design fabrics.