Class / Patent application number | Description | Number of patent applications / Date published |
428320800 | Specialized non-transferable layer on support | 11 |
20100028570 | TRANSFER SHEET AND METHOD FOR FORMING THE SAME - A transfer sheet includes a supporting substrate, a photothermal conversion layer disposed on the supporting substrate, and a passive layer disposed on the photothermal conversion layer. | 02-04-2010 |
20100159165 | TRANSFER SUBSTRATE AND METHOD OF MANUFACTURING A DISPLAY APPARATUS - A transfer substrate includes a support substrate for thermal transfer and a transfer layer. The transfer layer is provided on the support substrate, and includes a host material and a luminescent dopant material each having a sublimation temperature. A difference of the sublimation temperatures is set within a predetermined range. | 06-24-2010 |
20110027502 | TRANSFER SUBSTRATE, TRANSFER METHOD, AND METHOD OF MANUFACTURING DISPLAY DEVICE - A transfer substrate including a transfer material layer on a support substrate with a light absorbing layer. Antireflection patterns for preventing light reflection on an interface of the support substrate and the light absorbing layer are provided between the support substrate and the light absorbing layer. Thickness of the antireflection patterns is set to a value with which an absorptance of light having a predetermined wavelength absorbed in the light absorbing layer is maximized. | 02-03-2011 |
20150360496 | THERMAL TRANSFER FILM, AND ORGANIC ELECTROLUMINESCENT DEVICE PREPARED USING SAME - The present invention relates to a thermal transfer film and to an organic electroluminescent device prepared using same, wherein the thermal transfer film includes a base film and an outermost layer which is formed on the base film and has 2% or more of a thickness change ratio expressed by formula 1. | 12-17-2015 |
20160039238 | DONOR SUBSTRATE FOR LASER INDUCED THERMAL IMAGING, METHOD OF LASER INDUCED THERMAL IMAGING AND METHOD OF MANUFACTURING AN ORGANIC LIGHT EMITTING DISPLAY DEVICE USING THE SAME - A donor substrate, a method of laser induced thermal imaging, and a method of manufacturing an organic light emitting display device are disclosed. In the method of laser induced thermal imaging, a donor substrate is provided to include a base substrate, a light to heat conversion layer, a transfer layer and a functional layer. The functional layer includes a material radiating an infrared light. The donor substrate is laminated to an acceptor substrate. A laser beam is radiated into the donor substrate, thereby forming an organic layer pattern on the acceptor substrate from the transfer layer. A position of the organic layer pattern is observed using an infrared microscope. A laser beam position is adjusted and the donor substrate is separated from the acceptor substrate. | 02-11-2016 |
428320810 | Release enhancing layer | 6 |
20090011156 | MULTIUSE DECALS WITH RUBBER-BASED HOT MELT ADHESIVE - Composite sheets for image transfer, having layers of rubber-based hot melt adhesive are positioned with the adhesive in contact with images. The support sheets are removed and the image paper backing washed away. The resultant decals may be ironed-on, pasted-on, and have the ability to adhere removeably to walls and windows, and adhere permanently to painted surfaces. | 01-08-2009 |
20090110850 | Heat Transfer Methods of Applying a Coated Image on a Substrate Where the Unimaged Areas are Uncoated - Methods and products for forming a coated image on a substrate are generally disclosed. The methods can include forming an image on a printable surface of a transfer coating layer of a printable transfer sheet. In a separate step, the negative mirror image of that same image is printed with toners on a toner printable sheet. After registering the sheets together, a portion of the transfer coating layer of the printable transfer sheet is transferred to the toner printable sheet, such that the portion of the transfer coating layer transferred to the toner printable sheet corresponds to the imaged areas on the toner printable sheet. However, the image formed on the printable surface of the transfer coating layer and the underlying transfer coating substantially remain on the printable transfer sheet. Thereafter, the image and the transfer coating layer remaining on the printable transfer sheet are transferred to a substrate. | 04-30-2009 |
20100297369 | Thermal Transfer Recording Medium - A thermal transfer recording medium including a support, a release layer and an ink layer, the release layer and the ink layer being disposed in this order over the support, wherein the ink layer contains carnauba wax, an organic fatty acid having an acid value of 90 to 200, and at least one of a long-chain alcohol represented by Formula (1) and a long-chain alcohol represented by Formula (2), | 11-25-2010 |
20120100316 | HALO-FREE HEAT TRANSFER LABEL WITH PIGMENTED ADHESIVE - A pigmented adhesive, halo-free heat transfer label is created when adhesive properties are incorporated into colored inks used to print graphics on labels for items such as apparel. The resulting label has a halo-free graphic applied thereto that eliminates the need for a separate application of adhesive to the label. A pigmented adhesive composition for use with heat transfer type labels includes a hydroxyl-functional polyurethane dispersion, one or more polyurethane dispersions different from the hydroxyl-functional polyurethane dispersion, a blocked cross-linking agent, a catalyst for the blocked cross-linking agent, a pigment dispersion, and an adhesive powder, which are combined prior to the formation of a graphic created using the combined mixture, on the release layer of a substrate. | 04-26-2012 |
20160009124 | HEAT TRANSFERS WITH MINIMAL TRANSFER MARKING ON PERFORMANCE FABRICS | 01-14-2016 |
428320820 | Wax in releasing layer | 1 |
20160129718 | EMBOSSED HEAT TRANSFER LABELS - An embossed heat transfer label includes a carrier, embossing layer, release coating, design layer, and adhesive layer, in which the embossing layer is formed to include an embossing pattern, and the design layer is configured to take up the embossing pattern from the embossing layer. The embossed heat transfer label is configured such that the design layer and the adhesive layer transfer to a target object upon application of heat and pressure, while the embossing layer and the release coating is removed and disposed with the carrier. The exposed design layer provides an embossed surface on the target object. The label can include a flat profile layer on which the design layer is printed. | 05-12-2016 |