Abstract: The present invention provides an active primer that includes an electronically active material dispersed in a binder. The active primer can be disposed between a thermal transfer donor sheet and a receptor to assist selective thermal transfer of a material from the donor sheet to the receptor to form at least a portion of an electronic device on the receptor. The binder of the active primer can be selected to improve adhesion of the transferred material to the receptor, or to enhance other transfer properties. The electronically active material of the active primer can be selected to maintain a desired level of functionality in the electronic device being patterned on the receptor.

Abstract: An arrangement (11; 12) comprises a carrier layer and also a label layer which is arranged thereon in detachable manner and is provided with a self-adhesive layer on the lower face thereof. A peripheral impression (15; 23), which defines the contour of the label (110, 120) is provided on the label layer. Two isolating impressions (16, 17; 24, 25) are arranged on the label layer and on the carrier layer, these impressions extending respectively from an edge (30) of the label layer to the peripheral impression (15; 23), and there is also at least one alignment impression (18, 19; 26, 27) which extends from an edge (13) of the label layer at least partially towards the peripheral impression (15; 23). There is provided on the carrier layer a segmenting impression (21; 29) which extends at least between the isolating impressions (16, 17; 24, 25).

Abstract: The present invention relates to a multi-layered disc-shaped information recording medium having a plurality of signal recording layers each carrying information signals. In preparing the recording medium, a first substrate obtained on punching a sheet obtained in turn by having a signal recording pattern transcribed on it from a first stamper and by forming a semi-transparent film on a signal surface is bonded to a second substrate obtained on injection molding a synthetic resin material. The second substrate is prepared by having transcribed to it a signal recording pattern formed on a second stamper provided on an injection molding device. A reflective film is formed on a signal surface having the transcribed second substrate. The first and second substrates are bonded together on their signal recording layers by a transparent adherent layer.

Abstract: An adhesive transfer device and method for selectively making a repositionably adherable substrate from a selected substrate are disclosed. The device comprises a base substrate, a layer of repositionable adhesive disposed on the base substrate, a layer of permanent adhesive adjacent to the repositionable layer opposite the base substrate, and structure providing a release surface. The base substrate and the structure providing the release surface can be moved apart so as to leave both of the adhesive layers on the base substrate with the permanent layer exposed, thereby enabling the selected substrate to be adhered to the exposed permanent layer. The base substrate and the selected substrate can be moved apart from one another so as to separate the base substrate from the repositionable layer and leaving both the adhesive layers on the selected substrate with the repositionable layer exposed, thereby allowing the selected substrate to be repositionably adhered.

Abstract: There is disclosed a method for preparing a pressure and/or heat applied image transfer sheet and applying an image therefrom to a target surface comprising: applying an image layer to an image area of an image release system on a support, the image release system comprising an image release surface; applying a pressure and/or heat activated adhesive layer over i) the image release system including the image area, and/or ii) at least a portion of the target surface, which adhesive layer adheres more strongly to the image layer than the image layer does to the release surface; contacting, with the application of pressure and/or heat, the target surface and the image transfer sheet such that the dried adhesive layer attaches only in the image area to i) the target surface and/or ii) the image transfer sheet; and peeling off the support together with the adhesive layer except for the image area which is left attached to the target surface.

Abstract: A label making inkjet printer applies print imaging directly to the adhesive side of a media provided in sheet-form and in reel-form. Because inkjet printing is a non-contact printing method, print imaging may be applied to the adhesive side of the media. According to one embodiment, a user manually pulls tape-form media through the printer while encoding signals detect linear movement of the media and provide basis for synchronizing operation of an inkjet print head. According to another embodiment, a motorized media transport carries tape-form media on a pair of media transport belts past an inkjet print head. The resulting adhesive label when applied to a contact surface substantially disappears due to its transparent nature leaving visible only print imaging applied thereto and captured between the protective tape media and contact surface therebelow.

Abstract: A laminating film has at least a surface layer and an adhesive layer deposited on a substrate, wherein the surface layer is provided by applying a coating made by blending together at least two types of emulsions. Emulsion polymers included in the emulsions may have different glass transition temperatures. A laminating method using the laminating film includes the steps of press-bonding the laminating film to a printed matter at a temperature not less than the glass transition temperature of the emulsion polymer with the higher glass transition temperature, and separating the laminating film from the printed matter thereafter.

Abstract: Method and apparatus are disclosed for transferring organic material from a donor onto a substrate to form a layer of organic material on one or more OLED devices, by aligning first and second fixtures in a reduced pressure environment and positioning the substrate and donor in a chamber defined by the aligned first and second fixtures; increasing the pressure applied to the non-transfer surface of the donor so as to ensure the position of the donor relative to the substrate; moving a member provided on the first fixture from a closed to an open position which permits the transmission of radiation onto the non-transfer surface of the donor so that heat will be produced and organic material transferred from the donor to the substrate; and illuminating with radiation the donor through the open radiation-receiving position to cause the transfer of organic material to the substrate.

Abstract: The present invention provides a method of producing a pattern member at high productivity and low cost. In the method of the present invention, inks of plural colors are applied on a substrate and dried to produce several kinds of single color films having color ink layers of plural colors formed on the surface, then, the single color film of R color is overlapped on the substrate, and the overlapped substrate and single color film are pressed by a pressing member having a convex portion of given pattern formed on the surface, to transfer parts corresponding to the pattern of the convex portion of the color ink layer to the substrate. The above-described operation is repeated at frequency corresponding to plural colors to form a multi-color pattern composed of color ink layers of plural colors of given pattern on the substrate.

Abstract: A method for coating an orifice plate and an orifice plate having a non-wetting coating thereon is provided. To form the plate, material having non-wetting characteristics can be provided as a surface of a transfer block. The non-wetting material is preferably Teflon (PTFE) and the transfer block is preferably a relatively soft material, which preferably has good heat transfer properties, such as aluminum. The surface of the transfer block comprising the non-wetting material can be pressed against the orifice plate, preferably under heating conditions. In one embodiment of the invention, the non-wetting surface is pressed against a secondary transfer block to coat the secondary transfer block with the non-wetting material and the coated surface of this second block is pressed against the orifice plate, preferably under heating conditions.

Abstract: A multi-purpose laminating and adhesive transfer apparatus having a frame supporting rotatably engaging nip rollers. A replaceable cartridge is insertable into the frame and has upper and lower feed rolls which may be a laminate, film or paper, or an adhesively coated film or a film having an affinity for adhesive. The upper and lower feed rolls containing the webs of laminating or adhesive transfer material have tensioning caps which can be adjusted to provide the proper tensioning to prevent the rollers from overrunning as they rotate. Tensioning caps and the cartridges are pre-set and provided to the user. A cutter blade is positioned at the discharge side of the nip rollers and may be actuated to sever the master at any desired location. The apparatus may be operated to apply lamination to either top or bottom surfaces of a substrate or an adhesive to the top or bottom surface of the substrate or to both surfaces.

Abstract: Disclosed is a hologram transfer film which can realize easy and good transfer of a hologram and, at the same time, can realize stable transfer of the hologram in a transfer process. The hologram transfer film comprises: a substrate film; and a transfer layer provided on the substrate film, the transfer layer comprising a hologram-forming layer and a heat-sensitive adhesive layer provided in that order on the substrate film, the hologram-forming layer having a breaking strain of 0.5 to 15% at 25° C. and a breaking strain of 0.5 to 30% at 120° C.

Abstract: Disclosed are thermal transfer elements and processes for patterning solvent-coated layers and solvent-susceptible layers onto the same receptor substrate. These donor elements and methods are particularly suited for making organic electroluminescent devices and displays. The donor elements can include a substrate, an optional light-to-heat conversion layer, and a single or multicomponent transfer layer that can be imagewise transferred to a receptor to form an organic electroluminescent device, portions thereof, or components therefor. The methods offer advantages over conventional patterning techniques such as photolithography, and make it possible to fabricate new organic electroluminescent device constructions.

Abstract: A method for decorating a vitreous substrate with a radiation curable ink composition, comprising applying an ink composition comprised of an N-vinyl lactam to the glass in a predetermined design, the ink being operable when cured to bond to the vitreous substrate, curing the ink on the vitreous substrate by exposing it to the radiation by which it is curable, thereby bonding the ink composition to the substrate; and a method for decorating a vitreous substrate with hot stamping foil comprising applying an ink composition comprised of an N-vinyl lactam to the glass in a predetermined design, the ink being operable when cured to bond to the vitreous substrate, curing the ink on the vitreous substrate by exposing it to the radiation by which it is curable, thereby bonding the ink composition to the substrate, pressing a sheet of hot stamping foil against the substrate with a die heated to a temperature sufficient to cause a portion of the hot stamping foil to adhere to the heated, cured, ink design but not to t

Abstract: With a transfer member, such as a toner sheet, provided with at least two layers including an intermediate layer having a function of preventing transfer of a substance and a thermally fusible ink layer on the supporting member side, and an image receiving member, such as image receiving sheet, used, a solution for improving the transfer sensitivity is jetted onto either of them according to the image so as to form a transfer image on the image receiving member surface.

Abstract: The use of a multilayer adhesive tape having a backing based on an oriented thermoplastic film, an upper surface and a lower surface, to whose lower surface at least the following layers have been applied:

Abstract: Described is a process for the region-wise transfer of a decorative layer of a transfer foil, which includes an activatable adhesive layer from a carrier film onto a substrate, wherein the adhesive layer of the transfer foil is partially activated before the actual stamping operation, more specifically in such a way that the adhesive layer experiences activation only in the surface regions in which the decorative layer is to be transferred onto the substrate. A transfer foil which is particularly suitable for that process has an absorption layer in the surface regions of the decorative layer, which are to be transferred onto the substrate, which absorption layer absorbs the radiation energy causing activation of the adhesive layer and activates the adhesive layer under the action of the absorbed radiation energy.

Abstract: For the purpose of producing a method for detaching a segment—disposed on a carrier—from a material layer extending in a layer plane and having a specific layer thickness, by means of a laser pulse passing through the carrier in such a way as to detach segments from a material layer with as little thermal stress and as few thermal secondary effects as possible, it is proposed that the laser pulse within a segment layer-component volume butting against the carrier, the said layer-component volume lying in the plane of the layer within an extent of the beam cross-section of the laser pulse and extending transversely to the layer plane via a part of the layer thickness, produces superheated matter of a density similar to the solid state in a state of thermodynamic non-equilibrium and in particular at a temperature above the critical temperature, and that a cohesive, solid partial layer remains in the segment on the side of the layer-component volume opposite to the carrier, the said partial layer bei

Abstract: A process for forming a light-reflecting bar code on an end disc of photographic film spool is performed by the steps of placing on the end disc of photographic film spool a hot-stamp film comprising, in order, an adhesive layer, a light-reflecting metal layer, a transparent protective layer, a releasing layer, a support film, and a stain-shielding layer formed of material inhibiting migration of a compound having a low molecular weight from the support film (e.g., compound having a siloxane bonding or deposited inorganic oxide) in such manner that the adhesive layer is brought into contact with the end disc, and pressing for 0.1 to 2.0 seconds a stamper having a heated bar code-stamping die, so as to transfer the light-reflecting metal layer onto the end disc in the form of the bar code.

Abstract: A lamination device for performing a lamination method for a dry film resist as a transfer layer, comprising a substrate transport part (15), a substrate preheating part (8), a lamination part (9) and, (10), an inter-substrate film processing part (3), a film feed part (2), a film accumulation part (4), a base film continuous peeling part (12, 13), and a cover film continuous peeling part (5), wherein a lamination is carried out by a pair of lamination rolls (9) and (10), part (15) being transport rolls, a base film is peeled off from a substrate after lamination, a guide roll (12) for peeling off the base film is located forward of the lamination rolls in the transport direction of the substrate, and the guide roll is free to move vertically or laterally, whereby an angle between a substrate surface and the base film being wound up, i.e., the peeling angle of the base film can be changed to any angle.

Abstract: Disclosed are thermal transfer elements and processes for patterning solvent-coated layers and solvent-susceptible layers onto the same receptor substrate. These donor elements and methods are particularly suited for making organic electroluminescent devices and displays. The donor elements can include a substrate, an optional light-to-heat conversion layer, and a single or multicomponent transfer layer that can be imagewise transferred to a receptor to form an organic electroluminescent device, portions thereof, or components therefor. The methods offer advantages over conventional patterning techniques such as photolithography, and make it possible to fabricate new organic electroluminescent device constructions.

Abstract: The present invention includes a method for transferring an image from one substrate to another. The method includes providing 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 90°-700° C. An image is imparted to the low density polyethylene area with an image-imparting medium. A second image-receiving substrate is provided. The second image-receiving substrate is contacted to the first image transfer sheet at the polymer 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.

Abstract: A technique for transferring discrete areas of material, such as hot stamping foil, from a carrier onto positions spaced apart along a substrate, such as paper. The carrier is dispensed at a rate that is much less than the speed of movement of the substrate. During transfer, a segment of the carrier is moved at the same speed as the substrate while, in between such material transfers, the speed of the carrier is sharply reduced and even reversed in direction in order to maintain the average speed of this carrier segment equal to the reduced speed at which the carrier is being dispensed. This is accomplished by a shuttle mechanism that is moved by its own motor, under control of a microprocessor-based motor control system, in synchronism with the speed of the substrate and transfer operations. This significantly improves the utilization of the material on the carrier, with an improved flexibility to adapt to various substrate speeds and ease of implementation in machinery.

Abstract: The present invention provides an active primer that includes an electronically active material dispersed in a binder. The active primer can be disposed between a thermal transfer donor sheet and a receptor to assist selective thermal transfer of a material from the donor sheet to the receptor to form at least a portion of an electronic device on the receptor. The binder of the active primer can be selected to improve adhesion of the transferred material to the receptor, or to enhance other transfer properties. The electronically active material of the active primer can be selected to maintain a desired level of functionality in the electronic device being patterned on the receptor.

Abstract: The present invention involves a method of creating a transfer. The method comprises providing a heat sensitive polymer substrate having a heat sensitive opaque polymer film and a heat activated adhesive disposed thereon, and providing a second carrier film having a second polymer film and a second adhesive wherein the second adhesive has a peel strength which decreases with increasing temperature. The method further includes printing resin solids in a desired graphic onto the opaque polymer film at a temperature which is below the temperature at which the polymer substrate is activated to create a printed transfer, positioning the printed transfer on the second polymer film, and adhering the printed transfer onto an adherable article by applying sufficient heat to the polymer substrate at a temperature which is above the temperature which the polymer substrate activates and at which to substantially reduce the peel strength of the second adhesive.

Abstract: The present invention provides a method for pattering oriented materials to make organic electronic displays or devices. The method includes selective thermal transfer of an oriented electronically active or emissive material from a thermal transfer donor sheet to a receptor. The method can be used to make organic electroluminescent devices and displays that emit polarized light. The method can also be used to make organic electronic devices with enhanced charge mobility properties. The present invention also provides donor sheets for use with the method, and methods for making donor sheets that include transfer layers having oriented electronically active organic materials.

Abstract: Medical dressings are disclosed that include multiple exposed pressure sensitive adhesives. One of the pressure sensitive adhesives includes a bioactive agent and is substantially contact transparent. In some embodiments, all of the adhesives are substantially contact transparent. Also provided are methods of manufacturing the medical dressings. By providing multiple exposed pressure sensitive adhesives, the pressure sensitive adhesive formulations can be varied to provide desired properties in different areas of the dressing. A pressure sensitive adhesive that exhibits relatively high tack to skin may be provided around the periphery of the dressing while a pressure sensitive adhesive incorporating a bioactive agent is provided in the center of the dressing. Alternatively, a higher tack pressure sensitive adhesive may be provided at two opposing sides of the dressing with a bioactive adhesive located in between the opposing portions of higher tack adhesive.

Abstract: A process for laminating an ink jet print by providing a support having an ink jet image, contacting the imaged surface with a transfer element to form a composite, the transfer element comprising a flexible, polymeric support having a porous, fusible, transferable protection layer comprising fusible, thermoplastic polymeric particles in a polymeric binder, the protection layer having a thickness between 2 and 100 &mgr;m and a particle-to-binder ratio between 95:5 and 70:30, the thermoplastic polymeric particles having a particle size less than 10 &mgr;m and a Tm or softening point greater than 50° C., and the polymeric binder having a Tg less than 20° C., applying heat and pressure to the composite to fuse the protection layer to form a substantially continuous protection layer, allowing the composite to cool, and peeling the polymeric support of the transfer element from the composite to form the laminated ink the print.

Abstract: A method for disposing a letter sequence onto the outer surface of a microphone wind shield made from foamed material includes the steps of producing at least one letter sequence element on a carrier; positioning the carrier onto the outer surface of the wind shield body by interposing a heat-activating adhesive; applying thermal energy using radiation, in particular, laser beams, for activating the adhesive; and removing the carrier after cooling and solidification of the adhesive. The letter sequence element thereby remains on the outer surface of the wind shield body.

Abstract: There is provided an adhesive article including (a) a radiation curable adhesive layer comprising an acrylic pressure sensitive adhesive and, optionally, an acrylated urethane polymer; and (b) a transparent carrier layer. The adhesive article may contain a radiation curable epoxy layer between the radiation curable adhesive layer and the transparent carrier layer. This adhesive article is particularly useful in preparing protective coatings on color filters for use in a liquid-crystal display panel structure. The radiation curable epoxy layer and radiation curable pressure sensitive adhesive are applied to the color filter and then exposed to UV radiation The UV radiation exposure transforms the pressure sensitive adhesive from a removable adhesive to a permanent adhesive. The color filter with the UV cured adhesive layer is then baked to fully cure the adhesive layer and to transform the adhesive further into a near structural adhesive.

Abstract: In the method for the preparation of a laminated ferrite inductor device comprising the steps of: laminating a ferrite green sheet lined with and supported by a substrate film of, for example, polyethylene terephthalate provided with a penetrating through-hole and a coil pattern to a second ferrite green sheet followed by removal of the substrate film by peeling to form a laminate of ferrite green sheets to be subjected to sintering, peelability of the substrate film from the ferrite green sheet can be improved to prevent the ferrite green sheet from occurrence of defects such as breaking, crease formation and stretching by providing a snap groove of an adequate incision depth having a rectangular profile of a frame and, along the outer periphery of the snap groove, a peel-facilitating reinforcement pattern by printing with a printing paste to have a specified line width and printing thickness.

Abstract: This invention provides a method and apparatus for applying tape tabs to a traveling web, for example, for placement of fastening tabs on a running web of disposable diapers. The invention provides a cutting roll positioned to cut segments from a continuous infeeding web of tape material against a rotating anvil. The anvil, which is traveling at a speed equal to or very close to that of the infeeding tape web, carries the tape segments to a point on its tangency where a higher-speed traveling diaper web most nearly approaches, at which point the traveling diaper web is displaced slightly toward the anvil by means of a protuberance acting against the web. This movement causes it to come into contact with the next available tape segment, which becomes adhered to the higher-speed traveling web. This process provides for operation at higher speeds, higher efficiencies, greater flexibility and lower noise levels than previous processes.

Abstract: Disclosed are thermal transfer elements and processes for patterning solvent-coated layers and solvent-susceptible layers onto the same receptor substrate. These donor elements and methods are particularly suited for making organic electroluminescent devices and displays. The donor elements can include a substrate, an optional light-to-heat conversion layer, and a single or multicomponent transfer layer that can be imagewise transferred to a receptor to form an organic electroluminescent device, portions thereof, or components therefor. The methods offer advantages over conventional patterning techniques such as photolithography, and make it possible to fabricate new organic electroluminescent device constructions.

Abstract: A method and apparatus are provided for forming metal circuit patterns and other designs on greensheets and other substrates. The method and apparatus utilize a metal containing transfer sheet whereby selected portions of the metal containing transfer sheet are transferred to the greensheet forming the desired circuit pattern and then the transfer sheet removed. The metal containing transfer sheet may contain a release layer. Transfer methods include stamping, hot rolling, laser beam, heat, etc. and combinations thereof The transfer sheet may also have a stratified or graded vertical profile so that different conductivities or other circuit properties (transfer sheet adhesion, etc.) may be obtained in the formed pattern on the substrate.

Abstract: A process for the application of a pigmented or metallic layer from a foil to a substrate comprising: (i) applying an adhesive to the substrate; (ii) curing the adhesive; (iii) heating the substrate bearing the cured adhesive to render the adhesive tacky; and (iv) transferring the pigmented or metallic layer from the foil to the adhesive-bearing areas of the substrate.

Abstract: A rotary hot foil stamping machine is provided for repeatedly stamping a foil image onto a continuous product web at a consistent interval along the length of the product web. The rotary hot foil stamping machine includes first and second die stations, each die station comprising a servo driven rotary die holder with at least one removable die attached thereto. Counter rolls are mounted adjacent each die holder such that the outer surfaces of the dies engage the counter rolls as the dies are rotated past the counter rolls. The die holders are driven at a constant speed such that said die surfaces engage the counter rolls simultaneously at regular timed intervals.

Abstract: There is provided an adhesive article including (a) a radiation curable adhesive layer comprising an acrylic pressure sensitive adhesive and, optionally, an acrylated urethane polymer; and (b) a transparent carrier layer. The adhesive article may contain a radiation curable epoxy layer between the radiation curable adhesive layer and the transparent carrier layer. This adhesive article is particularly useful in preparing protective coatings on color filters for use in a liquid-crystal display panel structure. The radiation curable epoxy layer and radiation curable pressure sensitive adhesive are applied to the color filter and then exposed to UV radiation. The UV radiation exposure transforms the pressure sensitive adhesive from a removable adhesive to a permanent adhesive. The color filter with the UV cured adhesive layer is then baked to fully cure the adhesive layer and to transform the adhesive further into a near structural adhesive.

Abstract: A method for transferring devices to a device substrate is disclosed. In one embodiment, the method includes providing an array of devices on a carrier substrate having a generally horizontal surface, where the array comprises multiple device pluralities. The method includes tilting the device pluralities with respect to the generally horizontal surface of the carrier substrate. Each tilted device plurality is preferably in substantially the same pattern, and each tilted device plurality is placed on device regions on respective device substrates.

Abstract: A system and method of preparing artwork for a laser foil die implement prism lines designed to interact with the diffraction grating on a layer of laser hot foil. Artwork may be selectively segmented into discrete regions; prism lines may be created by assigning a halftone value, a frequency value, and an angle for each region of the artwork. A system and method of creating a laser foil die transfer such artwork and prism lines to a blank die; when created in accordance with the present invention, a die may transfer prism lines to a layer of laser foil applied to a substrate.

Abstract: An interior automotive skin material has a thermoplastic resinous base coat/clear coat paint film bonded to the outer surface of a thermoplastically formable semi-rigid resinous backing sheet. The base coat/clear coat paint film is preferably formed by dry paint transfer techniques in which the clear coat layer and pigmented base coat layer are coated on a polyester carrier and dried, followed by transfer-laminating the base coat/clear coat paint film from the carrier to the backing sheet on which the clear coat layer forms a low gloss protective outer surface. The clear coat material preferably comprises an alloy of an acrylic resin and a fluoropolymer resin, preferably polyvinylidene fluoride. The low surface gloss of the outer clear coat is produced by a dispersed fine particulate filler such as silica combined with coating the outer clear coat layer on a matte carrier.

Abstract: Disclosed are thermal transfer elements and processes for patterning solvent-coated layers and solvent-susceptible layers onto the same receptor substrate. These donor elements and methods are particularly suited for making organic electroluminescent devices and displays. The donor elements can include a substrate, an optional light-to-heat conversion layer, and a single or multicomponent transfer layer that can be imagewise transferred to a receptor to form an organic electroluminescent device, portions thereof, or components therefor. The methods offer advantages over conventional patterning techniques such as photolithography, and make it possible to fabricate new organic electroluminescent device constructions.

Abstract: An object of the present invention is to provide a method for preparing a printed product in which a transfer layer of an intermediate transfer recording medium can be transfer via a transferring adhesive layer having a suitable adhesive property to either one of the transfer layer and a transfer-receiving material, and thus transferred images do not have turbulence. This objects can be achieved by providing, a method for forming a printed product through that a transfer layer bearing an image is transferred on a transfer-receiving material via a transferring adhesive layer, characterized in that the method comprises following steps. The first step is preparing an intermediate transfer recording medium comprising at least a base film and the transfer, and an adhesive layer transfer sheet comprising at least a substrate sheet and the transferring adhesive layer comprising at least an uppermost layer and a basement layer.

Abstract: A coating layer of a polymer capable of forming an optically anisotropic melt phase is formed by heat-pressing to a base material a film made of the polymer and having a segment orientation ratio of not greater than 1.3 and then separating the film into two halves so as to leave one of the halves on the base material, thereby obtaining a coated material made of the base material and the thin coating layer.

Abstract: A technique and machine for transferring discrete areas of material, such as hot stamping foil, from a carrier onto positions spaced apart along a substrate, such as paper. The carrier is dispensed at a rate that is much less than the speed of movement of the substrate. During transfer, a segment of the carrier is moved at the same speed as the substrate while, in between such material transfers, the speed of the carrier is sharply reduced and even reversed in direction in order to maintain the average speed of this carrier segment equal to the reduced speed at which the carrier is being dispensed. This is accomplished by a shuttle mechanism that is moved by its own motor, under control of a microprocessor-based motor control system, in synchronism with the speed of the substrate and transfer operations. This significantly improves the utilization of the material on the carrier, with an improved flexibility to adapt to various substrate speeds and ease of implementation in machinery.

Abstract: The invention provides a thin film transferrable composite comprising a carrier film, a first electrically conductive material, and adhesive. The first electrically conductive material is formed as a deposit on the carrier film and is integrally associated with first portions of the composite, and separably associated with second portions of the composite. The adhesive is arranged to coact with the first electrically conductive material for applying the composite to a receiving surface. The carrier film is separable from the second portions of the electrically conductive material with the first portions of the electrically conductive material remaining with the carrier film. The second portions of the electrically conductive material define a transferrable electrical component.

Abstract: A protectively reflected binary image is provided comprising a thermally imaged transparency on which is superposed a thin reflective protective overcoat, the imaged transparency comprising a binary image supported on a transparent substrate. The reflective protective overcoat is interfacially bonded to the thermally imaged transparency preferably such that the binary image is interposed between the transparent substrate and the reflective protective overcoat. A method for transferring a reflective protective overcoat onto an imaged transparency is also provided, whereby an image surface of the imaged transparency is protected and made viewable as a reflected image, the method utilizing a laminar transfer sheet comprising a carrier web and a reflective protective overcoat, the laminar transfer sheet being laminated onto the image surface with the carrier web subsequently removed to thereby release the reflective protective overcoat, the overcoat remaining bonded to the image surface.

Abstract: A foil-covered plastic part is provided including a hot stamping foil having a foil top layer disposed on a plastic bottom layer which, in turn, is bonded to a plastic outer surface of a decorative preform at foil-receiving portions of the plastic outer surface. A hot stamping machine is operated for a time sufficient to generate a pressure and temperature sufficient to melt and combine the top surface of the at least one foil-receiving portion and the plastic bottom layer of the hot stamping foil to form the foil-covered plastic part. The at least one foil-receiving portion includes a plurality of raised design portions having top and side surfaces. The foil layer completely covers the top surfaces but not the side surfaces of the raised design portions. Preferably, the raised design portions represent graphical information.

Abstract: Disclosed are thermal transfer elements and processes for patterning organic materials for electronic devices onto patterned substrates. These donor elements and methods are particularly suited for making organic electroluminescent devices and displays. The donor elements can include a substrate, and optional light-to-heat conversion layer, and a single or multicomponent transfer layer that can be imagewise transferred to a receptor to form an organic electroluminescent device, portions thereof, or components therefor, The methods offer advantages over conventional patterning techniques such as photolithography, and make it possible to fabricate new organic electroluminescent device constructions.

Abstract: An object of the present invention is to provide a method for preparing a printed product in which a transfer layer of an intermediate transfer recording medium can be transfer via a transferring adhesive layer having a suitable adhesive property to either one of the transfer layer and a transfer-receiving material, and thus transferred images do not have turbulence. This objects can be achieved by providing, a method for forming a printed product through that a transfer layer bearing an image is transferred on a transfer-receiving material via a transferring adhesive layer, characterized in that the method comprises following steps. The first step is preparing an intermediate transfer recording medium comprising at least a base film and the transfer, and an adhesive layer transfer sheet comprising at least a substrate sheet and the transferring adhesive layer comprising at least an uppermost layer and a basement layer.

Abstract: A positive hole transporting layer (14) is formed on an ITO film so as to form a substrate (10). A light emission organic material (20) is formed on the front surface of a convex protrusion portion (18) of a metal sheet (16). The front surface of the positive hole transporting layer (14) and the convex protrusion portion (18) are clamped with a glass plate (22). Laser light is radiated to the interior of the convex protrusion portion (18) through a shielding plate with an opening portion whose size corresponds to the size of the convex protrusion portion (18). The light emission organic material formed on the front surface of the convex protrusion portion (18) sublimates and transfers to the positive hole transporting layer (14). These steps are performed for areas of three color light emission devices.