Abstract: A method for producing a bonded plate-shaped assembly includes retaining a pair of plate-shaped members facing each other by a pair of retaining base members; charging a photo-curable liquid material between the pair of plate-shaped members facing each other; causing movement of the pair of retaining base members by a retaining base member movement unit to cause the pair of plate-shaped members to draw close to each other to cause wetting spreading of the liquid material between the pair of plate-shaped members; detecting a wetting spreading state of the liquid material by a sensor; and illuminating curing light, in response to the result of detection, to the liquid material wettingly spread to the entire surfaces of the pair of plate-shaped members, to form the bonded plate-shaped assembly made up of the pair of plate-shaped members bonded together.

Abstract: According to one embodiment, a method of manufacturing a display device, includes preparing a first substrate in which a first display element part, a first extension part, a second display element part, and a second extension part, are formed, preparing a second substrate in which a first peeling auxiliary layer, a second peeling auxiliary layer, a sacrifice layer, a first color filter layer, and a second color filter layer, are formed, attaching the first substrate and the second substrate, and radiating a laser beam on the second substrate, and peeling a second support substrate from the first peeling auxiliary layer and the second peeling auxiliary layer while blocking the laser beam by the sacrifice layer.

Abstract: A method for producing a printed resilient floor covering includes digitally printing a decorative layer onto the top surface of a support layer or the bottom surface of a wear layer with a UV curable ink; UV curing the printed decorative layer; laminating the support layer and the transparent wear layer together so that the printed decorative layer is sandwiched between the support layer and the transparent wear layer. Alternatively, the method comprises: digitally printing a decorative layer onto a decorative layer support film with a UV curable ink; UV curing the printed decorative layer on the decorative layer support film; laminating a support layer, the decorative layer support film and a transparent wear layer together, so that the decorative layer support film with the printed decorative layer is sandwiched between the support layer and the transparent wear layer.

Abstract: A light emitting device is manufactured by bonding an LED element on a wiring board using an anisotropic conductive adhesive. In the manufacture, the anisotropic conductive adhesive is disposed on the wiring board, and the LED element is disposed thereon. A polymerizable epoxy-modified silicone resin and a metal chelate compound are contained in the anisotropic conductive adhesive in advance. A pressing unit is pressed against the LED element for a certain pressing time, while the temperature of the wiring board is kept at 160° C. or higher and 210° C. or lower, and the temperature of the pressing unit is set lower than that of the wiring board. Since the reaction between the epoxy-modified silicone resin and the metal chelate compound occurs at a low temperature, the LED element is temporarily connected to the wiring board without collapse of a fluorescent layer.

Abstract: Embodiments of the present disclosure are directed to an IR tube sealing device and method of sealing a polymer tube with infrared energy. In particular embodiments, the IR tube sealing device can be a portable, hand-held device adapted to receive and compress a polymer tube, and produce and direct infrared energy toward the compressed polymer tube to quickly form a permanent aseptic seal.

Abstract: The present invention involves a cover for a spraying device of a robot which is formed from a polymer with enhanced residue retention properties. The polymer may be processed to increase the surface energy of the polymer. For example, the polymer may be subjected to a corona treatment in order to increase its surface energy. The corona treatment process may be performed on the polymer as received, prior to cutting or otherwise manipulating the polymer. Also, the polymer may be embossed to provide the enhancement. To assemble the polymer into a robot cover, the polymer as received may be cut into individual sections for assembly. The sections may then be assembled to one another by heat sealing the sections together. The heat sealing provides a bond between the individual sections of polymer that secures the individual sections together to create the robot cover. The polymer may also be formed into tubular sections for securing to the spraying device.

Abstract: In a process for welding plastic parts together, an IR shield redirects IR radiation emitted from a heater of a heating tool so that IR radiation which would otherwise be directly incident on certain portions of a plastic part and/or on other parts of the heating tool is avoided.

Abstract: A pipe manipulation apparatus having a base frame and a sliding end slidable towards and away from the base frame, each of the base frame and sliding end having at least one pipe support coupled with a press clamp pivotable between an open position and a closed position, wherein in the open position, a pipe is placeable on to the at least one pipe support and, in the closed position, the inner surfaces of the press clamp and the pipe support define a bore in which a lengthwise portion of the pipe is receivable. The pipe manipulation apparatus may be portable, tiltable, and/or rotatable to accommodate pipes of various locations and angles.

Abstract: A liquid crystal lens panel includes a first substrate including a lens area, a non-lens area disposed adjacent to the lens area, and a cutting area disposed adjacent to the non-lens area and including a liquid crystal driving part, a second substrate disposed opposite to the first substrate, and a liquid crystal layer interposed between the first substrate and the second substrate, where the liquid crystal driving part applies a liquid crystal driving voltage to the liquid crystal layer through the non-lens area, and liquid crystal molecules of the liquid crystal layer are driven substantially in a vertical direction by the liquid crystal driving voltage.

Abstract: A method of making a wiring board having an electrical isolator and metal posts incorporated in a resin core is characterized by the provision of moisture inhibiting caps covering interfaces between the electrical isolator/metal posts and a surrounding plastic material. In a preferred embodiment, the electrical isolator and metal posts are bonded to the resin core by an adhesive substantially coplanar with the metal films on the electrical isolator, the metal posts and the metal layers on two opposite sides of the resin core at smoothed lapped top and bottom surfaces so that a metal bridge can be deposited on the adhesive at the smoothed lapped bottom surface to completely cover interfaces between the electrical isolator/metal posts and the surrounding plastic material. Conductive traces are also deposited on the smoothed lapped top surface to provide electrical contacts for chip connection and electrically coupled to the metal posts.

Abstract: A wiring board includes a low CTE (coefficient of thermal expansion) and high thermal conductivity isolator incorporated in a resin laminate by an adhesive and a bridging element disposed over the isolator and the resin laminate and electrically coupled to a first routing circuitry on the isolator and a second routing circuitry on the resin laminate. The isolator provides CTE-compensated contact interface for a semiconductor chip to be assembled thereon, and also provides primary heat conduction for the chip. The bridging element offers a reliable connecting channel for interconnecting contact pads on the isolator to terminal pads on the resin laminate.

Abstract: Fluid flow conduits and apparatus and methods for joining the conduits, preferably in a sterile manner, are disclosed. Each conduit has a polymeric open end that is sealed by a sealing member that may include a heating element. The polymeric end material is melted, the sealing members are moved to expose the melted open ends of the conduits and the ends are brought together to form a fused or welded connection between the conduits.

Abstract: An electronic device may have a display with a bent portion such as one or more bent edge portions. The display may be formed from a flexible display layer such as an organic light-emitting-diode layer. The organic light-emitting-diode layer may include a substrate layer such as a sheet of polymer. The flexible display may be attached to a support structure such as a flexible support layer using adhesive. To facilitate bending, the display may be heated. Bending and heating equipment may simultaneously heat the display layer and the flexible support layer to form a bent edge portion for the display. The bending and heating equipment may include heated structures for pressing the display layer into a desired shape.

Abstract: A gaseous p-xylylene monomer, formed by reacting xylene with a monatomic oxygen source, is mixed with a functional gaseous monomer. The resulting mixture may be deposited and solidified on a substrate, which may optionally be exposed to a photoinitiating light energy and/or a permittivity enhancing electric or magnetic field. Alternatively, the resulting gaseous mixture may be trapped and condensed in a condenser, which may contain a solvent to facilitate trapping. The condensate may be mixed with a tertiary substance, e.g., another monomer, a reactive substance or an inert material.

Abstract: A robotic placement machine including a base operably connected to the Y axis actuator and the X axis actuator, a first Z axis actuator coupled to the first end of the base, the first Z axis actuator capable of moving up and down a first Z axis, a second Z axis actuator coupled to the second end of the base, the second Z axis actuator capable of moving up and down a second Z axis, and a pick and place plate operably connected to the first Z axis actuator and the second Z axis actuator, wherein the first Z axis actuator and the second Z axis actuator are each capable of moving independently of each other to tilt the pick and place plate is provided. Furthermore, a system comprising a first machine, second machine, and third machine to eliminate air bubbles when bonding two substrates is also provided. A method of optical bonding is further provided.

Abstract: An embodiment method for manufacturing a droplet-discharging head substrate may include a first step to perform a surface activation process on joint surfaces of first and second plates with an atom beam, ion beam or plasma; a second step to align and stack the first and second plates in such a manner that nozzle holes formed in the first plate communicate with through-holes formed in the second plate; and a third step to bond the joint surfaces of the stacked first and second plates by atomic bonding without covalent bonding caused by ion movement. The third step bonds the joint surfaces by bringing a load member into contact with the droplet-discharging surface of the first plate at a position away from the nozzle holes to apply pressure under an atmospheric pressure and by bringing the joint surfaces close to each other with an electrostatic attractive force.

Abstract: A printer is configured with at least two printheads that are separated from one another in a cross-process direction by an integral multiple of printhead widths. This configuration enables parallel swaths of material to be ejected and then movement of the printheads in the cross-process direction by a distance corresponding to one or more integral numbers of the printhead width enables the area between the swaths to be completed and the area outside of the original swaths printed.

Abstract: Embodiments of a high-permittivity, low-leakage energy storage device, such as a capacitor, and methods of making the energy storage device are disclosed. The disclosed device includes electrically conductive first and second electrodes, and a sterically constrained dielectric film disposed between the first and second electrodes. The sterically constrained dielectric film comprises a plurality of polymeric molecules, and at least some of the polymeric molecules are bound to the first electrode. The disclosed device may include an insulative layer between the first electrode and the dielectric film and/or between the second electrode and the dielectric film.

Abstract: Disclosed is a method of manufacturing an adhesive film including: preparing a transparent adhesion layer, disposing a film mask including a light-transmitting region and a light-shielding region on the transparent adhesion layer, applying ultraviolet (UV) light to the transparent adhesion layer through the film mask to precure an area of the transparent adhesion layer corresponding to the light-transmitting region of the film mask, and cutting the precured area of the transparent adhesion layer.

Abstract: An adhesive application valve comprising an applicator, a Z-axis actuator operably connected to the applicator, wherein the Z-axis actuator and the rotation device are each capable of moving independently of each other to position the applicator in a position to apply an amount of adhesive to a top substrate prior to bonding with a bottom substrate is provided. Furthermore, a machine comprising an end effector, and an adhesive application valve configured to apply an amount of adhesive onto the top substrate, the end effector configured to place the top substrate into a position of engagement with the adhesive application valve, and place the top substrate onto the bottom substrate to facilitate initial contact between the adhesive applied to the top substrate and a fill material applied to the bottom substrate is also provided. A method of optical bonding is further provided.