Class / Patent application number | Description | Number of patent applications / Date published |
156239000 | Plural superimposed laminae transferred | 21 |
20090044900 | Method of and apparatus for laminated substrate assembly - A manufacturing apparatus has a joining mechanism for bonding a photosensitive web to a glass substrate such that a cushion layer thereof faces the glass substrate, thereby to produce a joined substrate. The manufacturing apparatus also has a cooling mechanism for forcibly cooling the joined substrate with cooling air, a heating mechanism for heating the cushion layer to a temperature in a predetermined temperature range up to a glass transition temperature thereof, and a peeling mechanism for peeling off a base film of the photosensitive web from the heated joined substrate. The cooling mechanism, the heating mechanism, and the peeling mechanism are successively arranged in the direction in which the joined substrate is fed along. | 02-19-2009 |
20100024968 | ADHESIVE INSTALLATION TOOL - A tool includes a body, a first cavity, a first porous top cover, and a first vacuum port. The first cavity is located on a first side of the body. The first porous top cover extends across the first cavity. A tool guide may attach to the body to align the tool with a component. | 02-04-2010 |
20100024969 | PROTECTIVE COVER SHEET COMPRISING A UV-ABSORBING LAYER FOR A POLARIZER PLATE AND METHOD OF MAKING THE SAME - The invention relates to a protective cover sheet comprising a low birefringence protective polymer film and a layer that promotes adhesion to poly(vinyl alcohol), the protective cover sheet comprising at least one functional layer containing a UV-absorbing polymer. | 02-04-2010 |
20100230039 | LARGE AREA DISSOLVABLE TEMPLATE LITHOGRAPHY - A method and apparatus for patterning a substrate are provided. A template is formed by applying a precursor material to a patterned master substrate and curing or solidifying the precursor material. The template is detached from the master substrate using a carrier having a curved surface. The template is coated with a patterning material, and is then detached from the carrier and applied to the substrate to be patterned. The template is then dissolved without affecting the patterning material, and the patterning material may thereafter be finished to develop the pattern. In an alternate embodiment, the patterning material may be applied to the substrate and then imprinted using the template. | 09-16-2010 |
20110139359 | IN-PRESS PROCESS FOR COATING COMPOSITE SUBSTRATES - An improved process for manufacture of polymer coated composite substrates is described. a coated composite substrate is prepared in the press by applying a layer of a primer coating composition to the surface of a compressible mat comprising fibers and/or particles and a resin binder. The primer coating composition is formulated preferably as a fast setting polymer latex capable of forming a chemically crosslinked polymer matrix when applied to the surface of a compressible mat. a thermosetting top coat composition can be applied directly over the wet primer coating composition before heat-processing the mat to improve surface quality and release characteristics. Compressing and heating the coated mat produces a primed composite substrate directly out of the press. | 06-16-2011 |
20130168011 | LAMINATE FILM FOR DECORATIVE MOLDING - A decorative molding film includes a base film provided with a protective layer, a coloring layer containing a polyolefin based hot melt adhesive and pigment, and an adhesive layer containing a polyolefin based hot melt adhesive, stacked in that order on one side of the base film. | 07-04-2013 |
20140345794 | TRANSFER PRINTING SUBSTRATE, MANUFACTURING METHOD THEREOF, AND METHOD OF TRANSFER PRINTING - Disclosed herein is a transfer printing technology. A transfer printing substrate includes a plurality of pillar structures and a sacrificial layer applied thereon. In situ alignment of a transfer layer is performed by the pillar structures and a structural confinement by a concave structure formed on a bottom surface of the transfer layer corresponding to the pillar structures, or a chemical bond of the pillar structure and the transfer layer. In the in situ alignment by the structural confinement, the remaining sacrificial layer after being removed may serve as an adhesive component. The transfer process is performed by a separation of the bond by the sacrificial layer, a cutting of the pillar structures in the chemic bonding state of the pillar structures and the transfer layer, or a separation of the bond between the pillar structures and the handling substrate. | 11-27-2014 |
20150090395 | TOUCH PANEL AND MANUFACTURING METHOD THEREOF - A touch panel is formed by firstly forming a film layer on a first plate, and next, sequentially forming a buffer layer on the film layer, forming a sensing layer on the buffer layer, forming a second plate on the sensing layer. After the foregoing formation procedures, the first substrate layer is removed from the film layer. Next, a cover is attached to the film layer. In this way, the film layer is located between the cover and the buffer layer. Finally, the second substrate layer is removed from the sensing layer, so as to form a touch panel with the features of light weight, thin thickness and low costs. | 04-02-2015 |
156240000 | Transfer of printing or design | 13 |
20080314511 | Transfer Film, Decorative Film and Method For Manufacturing Decorating Product as Well as Decorating Product - A method for manufacturing a decorating product by which a decorating product additionally printed with a design and the like can be easily obtained, and provides the decorating product. | 12-25-2008 |
20100032083 | METHOD FOR TRANSFERRING SURFACE TEXTURES, SUCH AS INTERFERENCE LAYERS, HOLOGRAMS AND OTHER HIGHLY REFRACTIVE OPTICAL MICROSTRUCTURES - The invention relates to a method for transferring surface structures such as interference layers, holograms, and other highly refractive optical microstructures to substrates. The aim of the invention is to devise a method which is used for transferring surface structures such as interference layers, holograms, and other highly refractive optical microstructures to substrates and can also be used in a high temperature range. The aim is achieved by a method comprising the following steps: a) a flexible intermediate support layer is applied to a support film as a release layer; b) an embossed sol is applied to the intermediate support layer and is provided with a surface structure; c) a stack encompassing a binder layer and the surface structure is produced; d) the support film is removed; e) the workpiece is thermally treated. | 02-11-2010 |
20110067806 | IMAGE TRANSFER SHEET - The present invention includes an article and method for transferring an image from one substrate to another. The method includes providing or obtaining an image transfer sheet that is comprised of a substrate layer, a release layer and an image-imparting layer that may comprise a low density polyethylene or other polymeric component having a melting temperature within a range of about 90 degrees C. to about 700 degrees C. An image is imparted to the low density polyethylene area with an image-imparting medium. A second image-receiving substrate can be provided. The second image-receiving substrate is contacted to the first image transfer sheet at the polymer, image-imparting layer. Heat is applied to the image transfer sheet so that the low density polyethylene encapsulates the image-imparting medium and transfers the encapsulates to the image-receiving substrate, thereby forming a mirror image on the image-receiving substrate. | 03-24-2011 |
20120222805 | TACKINESS ADHESIVE SHEET FOR THIN-FILM SUBSTRATE FIXING - The present invention provides a manufacturing method for efficiently and stably forming a pattern on a thin-film substrate. A thin-film substrate, a tackiness adhesive sheet for thin-film substrate fixing, and a hard substrate are laminated in this order and a porous base material functioning as a core material of the tackiness adhesive sheet for thin-film substrate fixing has bore holes. Therefore, even if preliminary heating and drying is not applied, air bubbles are not generated between the thin-film substrate and the tackiness adhesive sheet for fixing during pattern formation on the thin-film substrate. This makes it possible to stably and efficiently form a pattern. | 09-06-2012 |
20130075024 | CURABLE COMPOSITION FOR IMAGE RECORDING, METHOD FOR PRODUCING THE SAME, IMAGE RECORDING APPARATUS, AND METHOD FOR RECORDING IMAGE - A curable composition for image recording contains a curable material that is curable by a stimulus from the outside, and liquid-absorbing particles that have a volume-average particle diameter in a range from about 50 nm to about 1,500 nm and a ratio volume-average particle diameter/number-average particle diameter in a range from about 1.0 to about 1.2 and that are dispersed in the curable material without aggregation. | 03-28-2013 |
20130248095 | DECORATION FILM, METHOD OF FABRICATING A DECORATION FILM, AND METHOD OF FABRICATING A DECORATION DEVICE - A decoration film, a method of fabricating a decoration film, and a method of fabricating a decoration device are provided. The decoration film includes a substrate and a relief pattern layer disposed on the substrate. The relief pattern layer has a relief surface away from the substrate and includes a decoration relief portion and a marker relief portion located around the decoration relief portion, wherein the relief pattern layer is remained on the substrate after the decoration process. | 09-26-2013 |
20140138020 | IMAGE TRANSFER MATERIAL AND POLYMER COMPOSITION - Provided is an image transfer material, comprising a support, optionally at least one barrier layer, a melt transfer layer, and an image receiving layer. Also provided is a process for preparing the image transfer material. Further provided is a heat transfer process using the disclosed material. In the heat transfer process, after imaging, the image receiving layer and melt transfer layer are peeled away from the optionally barrier-coated support material and placed, preferably image side up, on top of a receptor element. A non-stick sheet is then optionally placed over the imaged peeled material and heat is applied to the top of the optional non stick sheet. The melt transfer layer then melts and adheres the image to the receptor element. A composition comprising: at least one self-crosslinking polymer, and at least one dye retention aid. | 05-22-2014 |
20140332148 | ARTICLE WITH METAL GRID COMPOSITE AND METHODS OF PREPARING - A laminate donor element can be used to transfer a composite of a metal grid and an electronically conductive polymer to a receiver sheet for use in various devices. The laminate donor element has a donor substrate, a metal grid that is disposed over only portions of the donor substrate, leaving portions of the substrate uncovered by the metal grid, and an electronically conductive polymer that covers the portions of the donor substrate that are uncovered by the metal grid. The composite of metal grid and electronically conductive polymer exhibits a peel force of less than or equal to 40 g/cm for separation from the donor substrate at room temperature. The resulting article has a substrate on which a reverse composite of the metal grid and electronically conductive polymer is disposed, which article can be incorporated into various devices. | 11-13-2014 |
20150059968 | DEVICE AND METHOD FOR PRINTING FUNCTIONAL MATERIAL ON BIOCOMPATIBLE THIN-FILM - A device for printing a functional material on a biocompatible thin-film is provided, including: a feeder for feeding a thin-film sheet including the biocompatible thin-film and a first support into the printing device; a controller for loading makeup information for printing the functional material on the thin-film; a printing unit for printing the functional material corresponding to the makeup information on the thin-film based on a makeup signal from the controller; a feeder for feeding a second support into the device; a transfer unit for transferring a thin-film printed body, the thin-film on which the functional material is printed by the printing unit from the first support to the second support; and a delivery unit for delivering the transferred thin-film printed body to outside the device. This configuration enables people who lack sufficient makeup knowledge, techniques, or time to apply makeup easily, quickly, and safely. | 03-05-2015 |
20150122410 | Dye Sublimation Fabric Separated Elements - A laminate that possesses dye sublimation properties, particularly for use as tagless labels and embellishments for garments, apparel, fabric items and so forth such as sportswear fabrics, clothing and accessories is provided. The laminate includes a dye sublimation ink layer that overlies a substrate in which the dye sublimation ink interacts with the substrate's chemical make-up. | 05-07-2015 |
20150314578 | METHOD FOR MANUFACTURING STRUCTURAL BODY AND MANUFACTURING APPARATUS THEREFOR - A method for manufacturing a structural body includes a lamination step of, while an in-process structural body is supported by a support member, laminating a plurality of times, a layer which is provided on a surface of a transfer member and which is to be formed into the structural body on the in-process structural body or at least a part of a surface formed of the in-process structural body and the support member, and in the lamination step, the support member is moved by changing the state thereof. | 11-05-2015 |
20150343836 | TRANSFER PRINTING METHOD OF ELECTRONIC IMAGE AND TRANSFER SHEET - A transfer sheet is provided, whereby a T-shirt or the like can be printed in few steps by means of an electronic image forming device that uses powdered toner, liquid ink, or the like containing a plastic resin. By means of mirror-image printing a picture pattern, which is an electronic image, onto a first sheet, aligning the first sheet and a second sheet, and heat-pressing, a coating is spread over a portion of the picture pattern printed onto the first sheet. The first sheet has a structure including a mold release layer, a resin layer, and a porous resin layer in a substrate, and the second sheet includes a mold release layer, a resin layer, an adhesive layer, and a colored porous resin layer in a substrate. | 12-03-2015 |
20150360453 | METHOD FOR MANUFACTURING OF PRINTED PRODUCT MICRO FEATURES AND ARRANGEMENT FOR CONTINUOUS PRODUCTION OF SUCH A PRODUCT - A method for manufacturing a printed product comprises provision ( | 12-17-2015 |