Abstract: The present invention relates to a vacuum-laminating method for adhesive films where adhesive bleeding is reduced.

Abstract: The present invention relates to a process for printing specific adhesives onto articles, such as absorbent articles or release paper, using a specific transfer tool and/or a specific adhesive, having a specific peel force, viscosity, elastic loss modulus, elastic modulus, surface energy and loss tangent modulus; the invention also relates to articles comprising the specific adhesives and to specific printing rolls.

Abstract: An optical waveguide having a optical waveguide path capable of securing a high light propagation characteristic regardless of the type of a supporting base, provided with a multilayer circuit board, an optical waveguide path arranged on the multilayer circuit board, a light receiving element, IC chips, and a light emitting element, the optical waveguide path formed on a transparent substrate excellent in flatness and transferred to the multilayer circuit board. The light propagation loss becomes small, and a signal to be transmitted at a high speed being transmitted as a light signal and a signal which can be transmitted at a relatively low speed being transmitted as an electrical signal, whereby the signal propagation delay which becomes the problem when a signal is transmitted by only electrical wiring is overcome, and the influence of electromagnetic noise becomes small.

Abstract: A process for producing a ceramic substrate includes preparing a base body using a stack of layers that contain an unsintered ceramic material and a sintering agent, and sintering the stack of layers. At least one of the layers contains an increased proportion of sintering agent relative to an adjacent layer.

Abstract: This invention is a method for the precise placement of indicia with high resolution into the wall of a hollow-form, molded plastisol part. The method includes the steps of preparing a plastisol graphic transfer by casting a base layer of plastisol onto a carrier sheet, printing indicia with pigmented plastisols onto the base layer of plastisol to form a graphic transfer, and over printing the graphic transfer with a body layer of plastisol. After each layer of plastisol is deposit, the layer cured by heating before depositing the next layer and the transfer is heated to cure the final, body layer.

Abstract: Unfired first ceramic layers 11 and at least one unfired second ceramic layer 12 having a different color from the unfired first ceramic layers 11 are laminated to prepare an unfired ceramic laminate 13. Notches 14 are then formed on a surface of the unfired ceramic laminate 13 using the second ceramic layer 12 as a reference. The unfired ceramic laminate 13 is fired to provide a fired ceramic laminate 13a, which is then divided along the notches 14 into ceramic composites 13b. In this process, notches having the proper depth can be formed on the unfired ceramic laminate 13.

Abstract: Organic electroluminescent devices and methods of preparing such devices are provided. The organic electroluminescent devices include a first electrode, a light emitting structure, a second electrode, a conductive layer, and a non-conductive material. The light emitting structure is disposed between the first and second electrodes. The conductive layer is disposed on at least a portion of the second electrode and is in electrical communication with the second electrode through an opening in the non-conductive material.

Abstract: A method of manufacturing a ceramic honeycomb structure of the present invention, comprising the steps of: stamping sheets onto opposite end faces of a ceramic honeycomb body having a plurality of cells and formed into a honeycomb shape; drilling holes in the sheets at positions corresponding to opening parts of the cells; filling, through the holes, a slurry for sealing into the opening parts of the cells in the opposite end faces of the ceramic honeycomb body; firing the body; and alternately sealing the opening parts of the cells, characterized by comprising the steps of: forming the ceramic honeycomb body into a shape having at least one reference cell different in the shape of the opening part in the end face from the other cells; and drilling the holes in the sheets at the positions corresponding to the opening parts of the reference cell and the other cells with the reference cell taken as a reference point, whereby the ceramic honeycomb structure thus obtained can be manufactured at a low cost, since

Abstract: Methods are provided for producing a ceramic matrix composite by slurry infiltration. The methods involve placing a desized ceramic cloth lay-up into a non-ceramic cloth bag, sealing the bag to form a bagged ceramic preform, infiltrating the bagged ceramic preform with a ceramic-containing slurry, and sintering the preform to convert the slurry to a ceramic while decomposing the non-ceramic bag. The methods of the present invention maximize slurry infiltration of the ceramic cloth tow bundle while minimizing damage to the ceramic cloth.

Abstract: A product labeling apparatus has a plurality of labelers, an imager for imaging products; and a processor responsive to an output of the imager and operatively connected to a control input of each of the labelers. The processor processes an image received from the imager to identify a portion of a product which portion will pass a target area of a given labeller. The processor then tracks progress of that portion of the product and controls an appropriate one of the labelers to label the portion of the product when that portion of the product is at the target area of the given labeler.

Abstract: The present invention relates to a method to achieve the suppression of planar shrinkage in LTCC ceramic tape laminate structures without externally applied forces or sacrificial constraining tape. The method utilizes a non-sacrificial constraining tape that constrains a tape assembly.

Abstract: In order to make a process available for the production of a multi-layer electrode or electrode assembly, with which an electrode or electrode assembly optimized for the respective use may be produced in a simple and, in particular, inexpensive manner it is suggested that a first layer be rolled onto a carrier and at least one additional function layer be produced by spraying on a powder.

Abstract: A method for making an electronic module includes forming a low temperature co-fired ceramic (LTCC) substrate with at least one capacitive structure embedded therein. Forming the LTCC substrate may include arranging first and second unsintered ceramic layers and the at least one capacitive structure therebetween. The at least one capacitive structure may include a pair of electrode layers, an inner dielectric layer between the pair of electrode layers, and at least one outer dielectric layer adjacent at least one of the electrode layers and opposite the inner dielectric layer. The at least one outer dielectric layer preferably has a dielectric constant less than a dielectric constant of the inner dielectric layer. The unsintered ceramic layers and the at least one capacitive structure may also be heated, and at least one electronic device may be mounted on the LTCC substrate and electrically connected to the at least one embedded capacitive structure.

Abstract: A method and apparatus for automatically transferring a pattern to a surface of a steering wheel, automating a series of hydraulic pressure transfer steps, such as steering wheel supply, hydraulic pressure transfer, drying, and cleaning. Since a series of hydraulic pressure transfer processes, such as steering wheel supply, first transfer to the front surface portion of a rim of a steering wheel, removing of foreign material, drying, second transfer to the rear surface portion of a rim of a steering wheel, first cleaning, and second cleaning, are automated, processing time is saved and labor costs are reduced, improving productivity.

Abstract: A method for assembling a component of a liquid crystal display device is introduced. An adhesion step is performed to adhere a flexible film to a substrate to form an assembled component by using an adhesion material covered over the overlapping area between the flexible film and the substrate. A plurality of air bubbles are trapped between the substrate and the flexible film by the adhesion material. To expel the air bubbles out of the assembled component, the assembled component is placed in an airtight chamber and a heating-pressurizing step is performed in the airtight chamber for properly raising the temperature of the assembled component and the air pressure within the airtight chamber.

Abstract: An apparatus and method for applying labels to products of various sizes employs a printer and applicator head using air as a propellant. Control circuitry responsive to sensors located on the apparatus position the labels on the applicator head and trigger the ejection of a label onto a target surface. Labels to be printed are continuously supplied to the printer and applicator head from a label supply strip wound on a label feed reel mounted on the apparatus. The portion of the label liner extending between the feed reel and take-up reel is provided with a detector which can detect a lag in liner tension and activate the take-up reel to restore tension each time a lag condition is detected.

Abstract: A method of bonding components comprising the following steps. At least a first ceramic component and a second ceramic component are provided. A first conductive layer is formed over the upper surface of the first ceramic component. An intermediate film is formed over the first conductive layer. A second conductive layer is formed over the lower surface of the second ceramic component. The second ceramic component is stacked over the first ceramic component wherein the second conductive layer on the second ceramic component opposes the intermediate film on the first component. The first and second ceramic components are anodically bonded together.

Abstract: Device for the labeling of clothes including a label printer (1) and a fastening station (12), and a device for the transfer of the labels and holding these in position for fixing that includes a guide or slide plane next to which the printer is arranged so that the labels are ejected along the guide or plane. The guide is slightly curved in the label feed out direction. An endless belt is arranged above the guide in the label feed direction so that it can press the labels against the guide bringing the labels along to the fastening station (12). The label guide has essentially the same width as the labels and U-shaped upfolded and infolded edges for the guiding the labels.

Abstract: A method for processing a film. The method impressing the whole surface or a selected surface of the film to form protuberant structures on the film by using a transfer and an impresser which has grain projections formed thereon, wherein the protuberant structures have a protuberant shape with an opening hole on the tip or without an opening hole on the tip.

Abstract: A method for producing a ceramic substrate which employs a cofiring process using restraint sheets in which a second ceramic green sheet 7 is laminated on a green ceramic substrate 30 so as to cover surface conductors 32 of the green ceramic substrate 30, the second ceramic green sheet 7 subsequently being integrated with the green ceramic substrate 30. Restraint sheets 9, which are not sintered at a sintering temperature at which the green ceramic substrate 30 is sintered, are laminated on corresponding opposite sides of the green ceramic substrate 30 so as to restrain the green ceramic substrate 30 together with the second ceramic green sheet 7. The second ceramic green sheet 7 and the green ceramic substrate 30 are fired at a temperature at which the second ceramic green sheet 7 and the green ceramic substrate 30 are integrally sintered, whereas the restraint sheets 9 are not sintered, to thereby yield a ceramic substrate 40.