Abstract: The disclosure concerns a method, an apparatus and a system for producing or equipping paperboard such that information carriers can be implanted between two layers of material, together with a piece of paperboard material produced in this way and a package. In particular, the disclosure concerns the implantation of an information carrier in corrugated paperboard, taking into account cuts that are subsequently to be made in the transverse direction, the distance of the position at which the cross-cuts are made from the position at which the information carriers are applied, and the movement executed by the web of material between the application position and the cross-cutting position.

Abstract: A method of forming an opaque image on a substrate is generally provided. The method generally includes the use of three papers: a toner printable sheet, a coating transfer sheet, and an opaque transfer sheet. Toner printing can be utilized to print an image on the toner printable sheet, and then the toner ink can be utilized to remove a portion of a melt coating layer from the coating transfer sheet to form an intermediate imaged coated transfer sheet. This intermediate imaged coated transfer sheet and the opaque transfer sheet can then be utilized to form an image, defined by the opaque areas, on a substrate.

Abstract: A heat transfer paper configured to reduce the amount of stray toner on a heat transfer material, especially when the image is formed via a laser printer or laser copier, is generally disclosed. The heat transfer material includes an image-receptive coating overlying a splittable layer and a base sheet. The image-receptive coating includes thermoplastic polyolefin wax microparticles, a thermoplastic binder, and a humectant. The thermoplastic polyolefin wax microparticles have an average particle size of from about 30 microns to about 50 microns and melt at temperatures between about 130° C. and about 200° C.

Abstract: Apparatus and methods for fulfillment of patient prescription orders by adapting a standard or stock container pre-filled with medication or the like for use as a patient-specific container through precise application of patient-specific information to the pre-filled container. Precise placement of the patient-specific information to the pre-filled container enables pharmacy management to fully utilize valuable information provided with the pre-filled container, thereby improving the quality of service to the patient while making the process of prescription order fulfillment more efficient. In general, preferred embodiments comprise control apparatus and information-application apparatus. In embodiments, the information-application apparatus is adapted to place a patient-specific label on the container. Preferred forms of the information-application apparatus include a label printer and a positioner. The preferred printer applies patient-specific information on a label.

Abstract: A method for producing a multi-layer decorating element includes the steps of: (a) providing a base, a first plate, a second plate and an adhesive layer; (b) stacking the first and second plates onto one of the base and the adhesive layer; (c) stacking the other of the base and the adhesive layer onto one of the base and the adhesive layer to form a stacked array; (d) hot pressing the stacked array; and (e) removing the adhesive layer.

Abstract: A method for forming a conducting multi-polymer nanostructure. The method includes forming a first conducting polymer nanostructure on a first electrode of a template, forming a second conducting polymer nanostructure on a second electrode of the template, and transferring the first and second conducting polymer nanostructures onto a substrate. The first conducting polymer is different from the second conducting polymer.

Abstract: A process of manufacturing a multi-shade design on an at least semi-transparent substrate having a first surface and a second surface. The process comprising a template preparation step of preparing a template, the template being visible through the substrate, applying a first design film to a surface of the substrate, carving at least a portion of the first design film, applying a second design film over the first surface, and carving at least a portion of the second design film. An alternative process of manufacturing a multi-color design comprising the template preparation step, applying a first design film, of a first color, to the first surface, carving the first region, applying a second design film, of a second color, to the first surface, and carving the second region from the second design film.

Abstract: A voltage-tunable phase shifter comprising a conducting line and a ground electrode separated by a layer of dielectric material, the phase shifter configured to generate an electric field when a potential difference is applied between the conducting line and ground electrode, the electric field configured to change the phase of an electromagnetic signal propagating along the conducting line, wherein the ground electrode comprises graphene, and wherein the change in phase is dependent upon the strength of electric field and can be controlled by varying the potential difference between the conducting line and the ground electrode.

Abstract: A system and a method for manufacturing an optical display device. The system includes a first cutting and bonding apparatus to handle a first roll of sheet material including a first optical film with a width corresponding to the short side of an optical display unit and to bond the first optical film to one surface of the optical display unit and then to cut the first optical film into a length corresponding to the long side of the optical display unit. A second cutting and bonding apparatus handles a second roll of sheet material including a second optical film with a width corresponding to the long side of the optical display unit and bonds the second optical film to the other surface of the optical display unit and then cuts the second optical film into a length corresponding to the short side of the optical display unit.

Abstract: The invention relates to a high security film, optionally in the form of a slit thread or a micro tape, which is then inserted into high security paper such as a bank note paper and the like during the paper making process. The invention envisages a novel method of producing such a high security film using a print transfer method, wherein one or more security features are incorporated on one or more indicia including letters, optionally graphics, during such a production process, using multiple printing stations and lamination.

Abstract: 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.

Abstract: The present invention is related to methods of making membrane electrode assembly components. The methods include transferring a catalyst layer to a polymer electrolyte membrane or a gas diffusion layer. Methods of making membrane electrode assemblies with these components are also disclosed.

Abstract: Disclosed is a film sticking device that sticks a first film substrate and a second film substrate together on a curved-surface shape. The film sticking device includes a mold having a curved attachment surface formed into a desired curved-surface shape; an attracting and holding unit capable of relatively moving on the curved attachment surface and having plural vacuum chambers on which an attracting surface for attracting and holding the second film substrate is provided; and a suctioning unit capable of separately applying suction processing to the plural vacuum chambers. The suctioning unit starts, as the attracting and holding unit moves, the suction processing of the vacuum chamber corresponding to a position opposing the second film substrate and sequentially stops, as the second film substrate is stuck to the first film substrate, the suction processing of the vacuum chamber corresponding to the stuck second film substrate.

Abstract: Methods of making a stenciled screen for use in screen printing an image onto a substrate are generally disclosed. The method involves removing a portion of a transfer coating from a transfer sheet via heat transfer with a printable sheet defining a printable surface. The portion of the transfer coating removed from the transfer sheet corresponds to areas where an ink is present on the printable surface of the printable sheet. The transfer coating can then be transferred to a screen to form a stenciled screen having closed mesh areas corresponding to where the transfer coating is present. The stenciled screen can then be used to screen print an image onto any of a variety of fibrous substrates.

Abstract: A thermal transfer method for selectively transferring a red organic light material of a transfer layer from a donor substrate to a recipient substrate to form a red organic light emitting element. The donor substrate has a reflecting layer in a planned formation region of the transfer layer and an absorbing layer in a region other than the planned formation region of the transfer layer. The transfer layer is formed on an area on the front face side of the base. The transfer layer in the region where the absorbing layer is formed is selectively removed. the donor substrate and the other substrate are placed in opposition. The transfer layer on the reflecting layer is transferred to the recipient substrate.

Abstract: A method of transferring a thin film onto a first support, includes supplying a structure comprising a film of which at least one part originates from a solid substrate of a first material and which is solidly connected to a second support having a thermal expansion coefficient that is different from that of the first material and close to that of the first support, forming an embrittled area inside the film that defines the thin film to be transferred, affixing the film that is solidly connected to the second support to the first support, and breaking the film at the embrittled area.

Abstract: A thermal transfer ink sheet having a dye layer containing a polyvinyl acetal modified with a compound of the formula [1] and a polyvinyl acetal modified with a compound of the formula [2]: wherein R1 represents a substituted alkyl group, etc; R2 represents H, etc; wherein R3 represents a linear hydrocarbon group, etc; R4 represents a hydrogen atom, etc.

Abstract: Method for producing a reflective, waterproof, water-vapor permeable membrane, comprising the following steps, Provision of a waterproof, water-vapor permeable membrane, Provision of a carrier foil, Application of the membrane onto the carrier foil, Application of a metal surface onto the membrane's free surface via a vacuum sputtering process, Application of a waterproof, water-vapor permeable cover layer, Removal of the carrier foil. Reflective, waterproof, water-vapor permeable membrane with a metal coating, which is provided with a continuous cover layer, characterized in that at least 80% of the surface of the active metal coating is retained on the membrane after 3 washings according to DIN EN ISO 6330:2000.

Abstract: A thermal transfer ink sheet comprising, as formed on a support, a dye layer containing a thermal transferable dye in a resin binder, wherein the dye layer contains a polyvinyl acetal modified with at least one compound of the following formula [1]: wherein one of R1 and R2 is a branched hydrocarbon group and the other is a hydrogen atom or a hydrocarbon group, or R1 and R2 are groups that bond to each other to form a cyclic hydrocarbon.

Abstract: A method of making a breathable film laminate includes: (a) providing a TPU film; (b) applying to a release substrate a layer of a film-formable liquid composition containing a volatile component; (c) heating the liquid composition on the release substrate to expel the volatile component, thereby forming a porous film; (d) transferring the porous film to a surface of the TPU film from the release substrate and pressing the porous film against the TPU film while the porous film is hot, thereby bonding thermally the porous film to the TPU film; and (e) cooling the porous film.

Abstract: A printing machine contains a transfer unit for transferring a transfer layer onto a print carrier in a transfer nip. The printing machine further has at least one applicator unit for applying an adhesive to the print carrier. The applicator unit precedes the transfer unit, and the transfer layer is detached from the carrier film in the transfer unit in the regions in which adhesive is applied. By printing units being converted into transfer units or applicator units, the functionality of the printing unit for a printing operation is lost. If the applicator device and the transfer device are located in this order on an impression cylinder of a printing unit, the applied adhesive is not predried sufficiently. To overcome these disadvantages, the transfer unit is a further processing unit and has at least one further processing device which follows the transfer nip and which acts on the print carrier.

Abstract: In a roll-to-roll step, an adhesive solution is applied to a release film 1 including a polyethylene terephthalate film and this film 1 is passed through a drying oven 500 regulated to 60 to 150° C. to thereby form an adhesive layer 2. Subsequently, an insulating film 3 including a polyimide film is laminated on the adhesive layer 2 at room temperature (about 25° C.) to thereby produce a layered product 6 including the release film 1, adhesive layer 2 and insulating film 3. Next, the release film 1 is stripped from the layered product 6 and a conductor film 4 including a copper foil is laminated to the adhesive layer 2 to thereby produce a conductor-clad laminate 8.

Abstract: A method of fabricating a display panel comprises the steps of: forming a controlling elements array substrate and a flexible color filter, respectively; forming a displaying medium on the controlling elements array substrate; and assembling the flexible color filter to the controlling elements array substrate for disposing it on the displaying medium layer. A method of fabricating a flexible color filter comprises the steps of: forming a flexible substrate on a rigidly substrate; forming a color filter film comprising a plurality of color filter patterns; and separating the flexible substrate from the rigidly substrate. Since the color filter film are formed before separating the flexible substrate from the rigid substrate, the flexible color filter may have good resolution and process yield.

Abstract: Methods of making adhesive articles providing air egress by supplying a route for the air to flow out from under the construction are described. One method includes providing a release liner comprising a moldable layer having a release surface and a back surface; applying a first pattern of a first non-adhesive material to a first portion of the release surface; applying a second pattern of a second non-adhesive material to a second portion of the release surface, wherein the second pattern partially overlaps the first pattern; embedding at least one of the first or second non-adhesive materials into the moldable layer; and transferring an adhesive layer having a front and back surface and end edges onto the release liner, wherein the front surface of the adhesive layer is adhered to the release surface of the release liner.

Abstract: To provide a method of manufacturing an optical film formed on a plastic substrate. There is provided a method of manufacturing an optical film including the steps of laminating a separation layer and an optical filter on a first substrate, separating the optical filter from the first substrate, attaching the optical filter to a second substrate. Since the optical film manufactured according to the invention has flexibility, it can be provided on a portion or a display device having a curved surface. Further, the optical film is not processed at high temperatures, and hence, an optical film having high yield with high reliability can be formed. Furthermore, an optical film having an excellent impact resistance property can be formed.

Abstract: An aspirating roller (1) for transferring labels, comprising at least a pair of pads (20;21) projecting relative to a lateral surface (1a) of the roller (1). The roller (1) is characterised in that at least a portion of the lateral surface (1a) of the roller (1) present between the pads (20;21) is elastically deformable. A method for removing/mounting an elastically deformable plate-like element (6), of the type present between a pair of pads (20;21) and defining a lateral surface (1a) of a roller (1) for transferring labels.

Abstract: A method of fabricating a flexible display device, the method including applying a transparent adhesive layer on a carrier substrate, laminating a flexible substrate comprising a barrier layer on the transparent adhesive layer, forming a thin film transistor array on the flexible substrate, and separating the carrier substrate from the flexible substrate by irradiating a laser beam onto the barrier layer.

Abstract: A printing method comprising a process of forming an ink pattern on a silicone rubber blanket having a plate function, or a process of forming an ink pattern from a uniform ink on a silicone rubber blanket having no plate function, a process of transferring the pattern to a substrate, and a process of forming a uniform ink on a silicone rubber blanket having no plate function, pressing the uniform ink against on the ink pattern formed on the substrate, and laminating a uniform ink on a portion thus pressed, only on the ink pattern.

Abstract: A process for finishing a wood or wooden board, in particular an MDF or HDF board, with an upper side and an underside. The process includes applying a sealing layer of melamine resin to the upper side of the board and printing a decoration onto the sealing layer. A protective layer is applied of melamine resin to the decoration and the board is pressed under the action of temperature until the protective layer and the sealing layer melt and bond to each other with the inclusion of the decoration printed on.

Abstract: A process for coating a substrate comprising the sequential steps of (i) providing a transfer sheet provided with clear coat layer and a printed powder coating, toner, or UV-curable ink on top of that, (ii) applying the transfer sheet onto the substrate with the coating in contact with the substrate, and (iii) curing the coating on the substrate.

Abstract: A bond ply, comprising a first outer layer comprising a thermosetting composition and a filler composition; a second outer layer comprising a thermosetting composition and a filler composition that is of the same type as that of the first outer layer; and an intermediate layer disposed between the first and the second outer layers, and comprising a thermosetting composition and a filler composition that is of the same type as the first and second outer layers, wherein the thermosetting composition of the intermediate layer has a degree of cure that is greater than a degree of cure for each of the thermosetting compositions of the first and the second outer layers.

Abstract: Laminate comprising a) a photopolymerizable relief-forming layer, at least containing an elastomeric binder, ethylenically unsaturated monomers and a photoinitiator and optionally further additives, b) an optionally photopolymerizable elastomeric substrate layer, at least containing an elastomeric binder, optionally ethylenically unsaturated monomers and a photoinitiator and optionally further additives, the relief-forming layer a) having a hardness of 30 to 70° Shore A and the elastomeric substrate layer b) having a hardness of 75° Shore A to 70° Shore D in each case in the photopolymerized state, and the layer b) having a hardness of at least 5° Shore A greater than the layer a).

Abstract: The invention relates to a method of fabricating a release substrate produced from semiconductor materials, the method comprising creating a reversible connection between two substrate release layers characterized in that the reversible connection is formed by a connecting layer produced using a first material as the basis, the connecting layer further comprising a nanoparticle concentrating zone of a second material disposed to facilitate release of the substrate, the first and second materials being selected to maintain the bonding energy of the reversible connection substantially constant even when the substrate is exposed to heat treatment.

Abstract: A via hole forming method and a multilayered board manufacturing method improve manufacturing yield by reducing the required processes. The via hole forming method includes a first step of forming a toner image by attaching toner particles, containing a conductive material and having a protruding portion, onto the surface of a first photosensitive member so that the protruding portion is directed to the outside; and a second step of opposing the surface of the first photosensitive member to one principal surface of a green sheet containing an insulating material and transferring the toner image to the one principal surface of the green sheet so that the protruding portions of the toner particles protrude into the green sheet so as to reach the other principal surface of the green sheet and the toner particles are buried in the green sheet. The via holes are formed using an electrophotographic printing method.

Abstract: A method of fabricating a flexible display device, the method including applying an adhesive layer including polyimide on a carrier substrate, laminating a flexible substrate on the adhesive layer, and separating the carrier substrate from the flexible substrate by irradiating a laser beam or light onto the adhesive layer.

Abstract: A method of manufacturing a functional film by which the functional film formed on a film formation substrate can be easily peeled from the film formation substrate. The method includes the steps of: (a) forming a separation layer by using an inorganic material on a substrate containing a material having heat tolerance to a predetermined temperature; (b) forming a layer to be peeled containing a functional film, which is formed by using a functional material, on the separation layer; and (c) performing heat treatment on a structure containing the substrate, the separation layer and the layer to be peeled at the predetermined temperature so as to peel the layer to be peeled from the substrate or reducing bonding strength between the layer to be peeled and the substrate.

Abstract: Provided is a method of transferring carbon nanotubes formed on a donor substrate to an acceptor substrate which may include vertically forming carbon nanotubes on a first substrate, providing a second substrate, aligning the first substrate with the second substrate so that the carbon nanotubes face the second substrate, and transferring the carbon nanotubes onto the second substrate by pressing the first substrate onto the second substrate.

Abstract: A method for making an electromechanical device including forming an electromechanical transducer that includes a deposited metallic diaphragm, and attaching the electromechanical transducer to a fluid channel substructure.

Abstract: A heat-sensitive transfer image-receiving sheet, having: on a support, at least one receptor layer which contains at least one silicone compound and at least one polymer having repeating units derived from vinyl chloride; and, at least one heat insulating layer which contains hollow polymer particles, between the receptor layer and the support, in which the heat insulating layer does not contain a resin having no resistance to an organic solvent other than the hollow polymer particles.

Abstract: The present invention provides a semiconductor device and a fabricating method thereof. The fabricating method comprises: providing a first substrate; forming a soft dry film having an adhesive film and a release film; sticking the soft dry film on the first substrate with the adhesive film; removing the release film; sticking a second substrate on the adhesive film; and heating the adhesive film to solidify the adhesive film to form a solid adhesive film. The semiconductor device comprises: a first substrate, a solid adhesive film, and a second substrate. The solid adhesive film is formed on the first substrate, and the second substrate is formed on the solid adhesive film.

Abstract: A method for applying multiple polymeric coatings onto a fibrous substrate. More particularly, a method for applying multiple polymeric coatings onto fibrous substrates without regard to chemical or physical incompatibilities of the polymeric coating materials. A first polymeric material is applied onto at least one fibrous substrate, and a second polymeric material is applied onto a support. The fibrous substrate and support are joined, contacting the first polymeric material with the second polymeric material, followed by separating the support from the fibrous substrate, such that at least a portion of the second polymeric material remains on the first polymeric material on the fibrous substrate.

Abstract: A device for joining substrates (11) is provided inside a clean booth (12). a single axis robot (46) and a five axis robot (47) convey a wafer (25) and a glass substrate (33). A transcribing station (91) obtains a transcribing film (112) on which adhesive is applied from a film supplying section (113), and presses the transcribing film (112) to the glass substrate (33) so as to transcribe the adhesive to the glass substrate (33). A peeling station (92) peels the transcribing film (112) from the glass substrate (33). A joining station (57) positions the wafer (25) and the glass substrate (33), adjusts parallelism of joining surfaces of the wafer (25) and the glass substrate (33), and joins these substrates together. Since the handling and the joining of the wafer (25), the glass substrate (33) and the transcribing film (112) are performed in the clean booth, it is prevented that a yield ratio of the product decreases because of the adhesion of foreign matters.

Abstract: A die-attach film and a method of manufacturing the same, the method including providing a dicing film layer with the attach layer thereon, the dicing film layer being prepared from a photocurable adhesive composition and including an attach layer region overlapping the attach layer such that the attach layer blocks inflow of oxygen into the attach layer region, and a ring frame region, the ring frame region having an upper surface that is adjacent to the attach layer and is exposed to air or an oxygen atmosphere such that oxygen flows into the ring frame region; and irradiating UV light to a back side of the dicing film layer to induce photocuring of the attach layer region, the oxygen in the ring frame region acting as a radical scavenger and suppressing photocuring of the ring frame region.

Abstract: An organic electroluminescent display (OELD) device and a method of fabricating the same are disclosed. The OELD device includes a substrate, a first electrode, an organic layer containing at least one light emitting layer, and a second electrode. The light emitting layer is comprised of at least one phosphorescent dopant and at least two host materials.

Abstract: Methods of making adhesive articles providing air egress by supplying a route for the air to flow out from under the construction are described. One method includes providing a release liner comprising a moldable layer having a release surface and a back surface; applying a first pattern of a first non-adhesive material to a first portion of the release surface; applying a second pattern of a second non-adhesive material to a second portion of the release surface, wherein the second pattern partially overlaps the first pattern; embedding at least one of the first or second non-adhesive materials into the moldable layer; and transferring an adhesive layer having a front and back surface and end edges onto the release liner, wherein the front surface of the adhesive layer is adhered to the release surface of the release liner.

Abstract: Methods of making adhesive articles providing air egress by supplying a route for the air to flow out from under the construction are described. One method includes providing a release liner comprising a moldable layer having a release surface and a back surface; applying a first pattern of a first non-adhesive material to a first portion of the release surface; applying a second pattern of a second non-adhesive material to a second portion of the release surface, wherein the second pattern partially overlaps the first pattern; embedding at least one of the first or second non-adhesive materials into the moldable layer; and transferring an adhesive layer having a front and back surface and end edges onto the release liner, wherein the front surface of the adhesive layer is adhered to the release surface of the release liner.

Abstract: The use of a heat idler moveable along a path provides speed and flexibility in the heat labeling of containers.

Abstract: An image-forming method, having: superposing a heat-sensitive transfer sheet on a heat-sensitive transfer image-receiving sheet so that at least one receptor layer of the heat-sensitive transfer image-receiving sheet can be contacted with a thermal transfer layer of the heat-sensitive transfer sheet; and providing thermal energy in accordance with image signals given from a thermal head, thereby to form an image; wherein the heat-sensitive transfer sheet has the thermal transfer layer that contains a thermally transferable colorant on one surface of a substrate film, and a heat-resistant sliding layer that is formed so as to contain a hardener on the other surface; and wherein the heat-sensitive transfer image-receiving sheet has, on a support, the at least one receptor layer that contains a latex polymer, and at least one heat insulation layer that contains hollow polymer particles but does not contain a resin having poor resistance to an organic solvent.

Abstract: A method of manufacturing a display device, including providing a composition including a conductive material, an organic binder; a glass frit, and a solvent, wherein the organic binder has a glass transition temperature of about ?50° C. to about ?5° C., loading the composition into grooves of a gravure roll, transferring the composition from the grooves of the gravure roll onto a silicone rubber blanket roll, transferring the composition from the blanket roll onto a glass substrate, and drying and firing the composition transferred on the glass substrate to form an electrode.

Abstract: A method and an apparatus for application of sealing or shim material to surfaces is provided. The materials are used in particular in the construction of aircraft and other vehicles. The materials are typically interposed in a joint between a vehicle structural element and a vehicle external surface forming component. The sealing materials are adherent. The apparatus of the invention includes a moveable arm carrying an end member having a curved surface. The arm applies the curves surface to a web of the sealing material so that the sealing material becomes wrapped around the curved surface. The arm is then moved to the location of the joint and the web of sealing or shim material is applied to the joint surface by causing or allowing the end member to roll of said surface.