Abstract: A semiconductor device according to an embodiment includes a semiconductor layer, a metal layer, and a bonding layer provided between the semiconductor layer and the metal layer, the bonding layer including a plurality of silver particles, and the bonding layer including a region containing gold existing between the plurality of silver particles.

Abstract: Housings for electronic devices are disclosed. According to one aspect, adjoining surfaces of electronic device housings can be mounted or arranged such that adjoining surfaces are flush to a high degree of precision. The electronic devices can be portable and in some cases handheld.

Abstract: A cover assembly for an electronic device has a cover member including a glass ceramic material. An adhesion layer couples an interior coating to the cover member. The adhesion layer includes an oxide-based layer, such as a silicon oxide-based layer, and a coupling agent.

Abstract: An embodiment of present invention discloses a light-emitting device which includes a first light-emitting area, a second light-emitting area, and a third light-emitting area. The first light-emitting area emits a red light and includes a first light-emitting unit. The second light-emitting area emits a blue light and includes a second light-emitting unit. The third light-emitting area emits a green light and includes a third light-emitting unit. The first light-emitting area is larger than the second light-emitting area and larger than the third light-emitting area. Each of the first light-emitting unit, the second light-emitting unit, and the third light-emitting unit has a width of less than 100 ?m and a length of less than 100 ?m.

Abstract: A manufacturing method of a honeycomb structure including: a formed body forming step of extruding a forming raw material, to form a plurality of quadrangular prismatic columnar honeycomb formed bodies; a firing step of firing the honeycomb formed bodies, to form a plurality of quadrangular prismatic-columnar quadrangular segments; a triangular segment forming step to form a triangular prismatic-columnar triangular segment; a bonded body forming step to form a honeycomb bonded body; and a circumference grinding step to manufacture the honeycomb structure, wherein the bonded body forming step further includes: a pressurizing step of pressurizing the triangular segment from a circumferential direction of the temporary assembly toward a central direction thereof, by use of a pressurizing jig comprising a pressurizer.

Abstract: Housings for electronic devices are disclosed. According to one aspect, adjoining surfaces of electronic device housings can be mounted or arranged such that adjoining surfaces are flush to a high degree of precision. The electronic devices can be portable and in some cases handheld.

Abstract: An apparatus automatically places, forms and compacts an adhesive strip on an edge of a structure in a single pass.

Abstract: Methods and apparatus to remove gas and vapor from a panel for a decorative layer are disclosed. An example apparatus includes a first press plate of a hot press to engage a first surface of a panel. The hot press is to apply heat to the panel via the first press plate to cure resin of the panel. A first portion of the first press plate is composed of a permeable material to remove at least one of gas or vapor from the panel to deter the at least one of gas or vapor from exerting a pressure on a decorative layer to be coupled to the panel to deter separation of a portion of the decorative layer from the panel.

Abstract: An electronic device may have a glass housing structures. The glass housing structures may be used to cover a display and other internal electronic device components. The glass housing structure may have multiple glass pieces that are joined using a glass fusing process. A peripheral glass member may be fused along the edge of a planar glass member to enhance the thickness of the edge. A rounded edge feature may be formed by machining the thickened edge. Raised fused glass features may surround openings in the planar glass member. Multiple planar glass members may be fused together to form a five-sided box in which electronic components may be mounted. Raised support structure ribs may be formed by fusing glass structures to a planar glass member. Opaque masking material and colored glass may be used to create portions of the glass housing structures that hide internal device components from view.

Abstract: An electronic device may have a glass housing structures. The glass housing structures may be used to cover a display and other internal electronic device components. The glass housing structure may have multiple glass pieces that are joined using a glass fusing process. A peripheral glass member may be fused along the edge of a planar glass member to enhance the thickness of the edge. A rounded edge feature may be formed by machining the thickened edge. Raised fused glass features may surround openings in the planar glass member. Multiple planar glass members may be fused together to form a five-sided box in which electronic components may be mounted. Raised support structure ribs may be formed by fusing glass structures to a planar glass member. Opaque masking material and colored glass may be used to create portions of the glass housing structures that hide internal device components from view.

Abstract: A joint between a first preform component and a second preform component that are constructed for ultimate use in a gas turbine engine includes a plurality of extended fibers which may be integral with the first preform component and be at least partially enveloped by the second preform component. A method for making the component provides a first preform component having extended fibers integral therewith, and supplying a second preform component. The method further includes inserting the extended fibers at least partially into the second preform component body.

Abstract: An electronic device may have a glass housing structures. The glass housing structures may be used to cover a display and other internal electronic device components. The glass housing structure may have multiple glass pieces that are joined using a glass fusing process. A peripheral glass member may be fused along the edge of a planar glass member to enhance the thickness of the edge. A rounded edge feature may be formed by machining the thickened edge. Raised fused glass features may surround openings in the planar glass member. Multiple planar glass members may be fused together to form a five-sided box in which electronic components may be mounted. Raised support structure ribs may be formed by fusing glass structures to a planar glass member. Opaque masking material and colored glass may be used to create portions of the glass housing structures that hide internal device components from view.

Abstract: A label applicator system is described comprising one or more, and preferably two, assemblies of rollers and belts. The assemblies are arranged relative to one another such that at least a portion of the belts of each assembly are aligned with one another to define an article receiving lane. The assemblies are arranged and configured such that the lane extends in a zig- zag path, a relatively straight path, and/or an arcuate path. Selection of the lane geometry along with appropriate control of belt velocities enable high rates of applying labels to articles and particularly containers having compound curves.

Abstract: A liquid crystal display includes a first polarizer and a liquid crystal display panel adhered to the first polarizer. The first polarizer includes a first sub-areas and a first center area. An adhesion intensity of the first polarizer and the liquid crystal cell corresponding to the first sub-area is greater than an adhesion intensity of the first polarizer and the liquid crystal cell corresponding to the first center area.

Abstract: Multi-layer printed wiring boards may be produced by: (1) conveying an adhesive sheet from an adhesive sheet roll wherein an adhesive sheet having a prepreg formed on a support film is wound in a roll and placing the adhesive sheet such that a prepreg surface contacts one or both of the surfaces of a circuit board, (2) partially adhering the adhesive sheet to the circuit board by heating and pressing a part of the adhesive sheet from the support film side, and cutting the adhesive sheet according to the size of the circuit board with a cutter, (3) heating and pressing the temporarily fitted adhesive sheet under reduced pressure to laminate the adhesive sheet on the circuit board, (4) forming an insulating layer by thermally curing the prepreg, and (5) detaching the support film after the thermal curing step.

Abstract: A method for producing a laminated soft-magnetic sheet including: laminating at least two curable soft-magnetic sheets obtained by applying a soft-magnetic composition, which contains a flat soft-magnetic powder, to a release base; and drying the soft-magnetic composition at a temperature T1 at which curing reaction does not substantially take place, compressing the laminate at a temperature T2 at which the curing reaction does not substantially take place, using a laminator for applying a linear pressure thereon while the linear pressure is sequentially changed, and by applying surface pressure, compressing the compressed laminate at a temperature T3 at which the curing reaction takes place.

Abstract: Methods and systems for reinforcing the periphery of a semiconductor wafer bonded to a carrier are disclosed. In one embodiment, additional adhesive is applied to the semiconductor wafer prior to bonding. The additional adhesive seeps into a crevice between the carrier and wafer and provides reinforcement. In another embodiment, adhesive is applied to the crevice by a dispenser after the wafer is bonded to the glass carrier.

Abstract: A thermoplastic pultrusion die system for pultruding a thermoplastic composite includes a first pultrusion die member with a curved, concave top surface; a second pultrusion die member with a curved, convex bottom surface; a curved die cavity gap formed between the a curved, concave top surface of the first pultrusion die member and the curved, convex bottom surface of the second pultrusion die member; a die cavity gap adjustment mechanism that imparts movement to at least one of the first pultrusion die member and the second pultrusion die member to vary the die cavity gap from closed to a specified location to open at a specified location; a pultrusion gripper mechanism having one or more grippers in series, and a computer numerical control (CNC) computer system controlling the die cavity gap adjustment mechanism.

Abstract: Method and apparatus for the production, forming bonding, joining and repair systems composite and metal components utilizing at least one pressure chamber having a displaceable abutment face, wherein fluid is circulated at an elevated temperature and pressure through the pressure chamber.

Abstract: A method for manufacturing a structural part including at least two wings extending in intersecting planes made of thermoplastic fiber-reinforced composite material including at least two plies of continuous fibers. The fibers extend from one wing to another. The method includes cutting the at least two plies in a fabric and/or a tape of fibers pre-impregnated with a thermoplastic resin; assembling the plies to create a preform; and compacting the preform to a final shape of the part by subjecting the preform to a defined cycle of temperature and pressure. A toolset can implement the method described above. Such a toolset includes a rigid punch and die such that closing the tool creates a sealed chamber in a shape of the part between the punch and the die.

Abstract: A thermoplastic pultrusion die system for pultruding a thermoplastic composite includes a first pultrusion die member; a second pultrusion die member; a die cavity gap formed between the first pultrusion die member and the second pultrusion die member; and a die cavity gap adjustment mechanism that imparts movement to at least one of the first pultrusion die member and the second pultrusion die member to vary the die cavity gap within a very tight die cavity gap tolerance.

Abstract: A method for manufacturing a rigid-flexible printed circuit boards includes following steps. First, a first rigid substrate is attached to a first adhesive layer. Second, a first opening through the combined first rigid substrate and the first adhesive layer is defined. Third, the first rigid substrate is laminated to a flexible substrate, the flexible substrate includes an exposed portion exposed via the first opening. Fourth, a second rigid substrate is attached to a second adhesive, a glass transition temperature of the second adhesive layer being lower than that of the first adhesive layer. Fifth, a second opening through the combined first rigid substrate and the first adhesive layer is defined. Sixth, the second rigid substrate is laminated to the flexible substrate in such a manner that the flexible substrate is sandwiched between the first and second adhesive layers, the exposed portion is exposed in the first and the second openings.

Abstract: Housings for electronic devices are disclosed. According to one aspect, adjoining surfaces of electronic device housings can be mounted or arranged such that adjoining surfaces are flush to a high degree of precision. The electronic devices can be portable and in some cases handheld.

Abstract: A tape applying device for applying electrically conductive tape onto a board includes: a applying head for pressing the conductive tape; a tape holding unit including a reel section having a feed reel for feeding the conductive tape laminated with a separator and a wind-up reel to which the separator is to be wound up, and a tape guide section for guiding the conductive tape along with the separator to a position of pressing by the applying head; and a base section which has a tape guide driving unit for moving up and down the tape guide section, and to and from which the tape holding unit is fittable and removable. The tape guide section, while in a fitted state of being fitted to the base section, is separated from the reel section and moved up and down by driving force of the tape guide driving unit.

Abstract: The present disclosure is directed generally towards systems and methods for manufacturing composite wood products. In some embodiments, the method includes performing an initial manufacturing step and performing a subsequent manufacturing step before residual heat from the initial manufacturing step completely dissipates. The initial manufacturing step includes combining veneers with an adhesive and heating and consolidating the veneers to form a core laminate. The one or more subsequent manufacturing steps each include applying one or more layers to the core laminate. The one or more layers each include a veneer component and an adhesive component. The core laminate and the one or more layers are sequentially heated and pressed to form a composite wood product. The disclosure also relates to systems for manufacturing composite wood products.

Abstract: The present invention describes an improved side-sealing machine for use with heat sealable films. Briefly, a cutting and sealing element is located between a set of cooperating guide and alignment members. The downstream guide and alignment member also includes a compression mechanism. This compression mechanism serves to compress the seal created upstream, and to draw the heat away from the film. In some embodiments, the downstream guide and alignment member also serves to separate the film into a surplus portion and a remaining portion, where only the remaining portion is subjected to compression.

Abstract: A thermoplastic pultrusion die system for pultruding a thermoplastic composite includes a first pultrusion die member; a second pultrusion die member; a die cavity gap formed between the first pultrusion die member and the second pultrusion die member; and a die cavity gap adjustment mechanism that imparts movement to at least one of the first pultrusion die member and the second pultrusion die member to vary the die cavity gap within a very tight die cavity gap tolerance.

Abstract: There is disclosed a method for preparing a honeycomb segment joined body in which a plurality of honeycomb segments are arranged in directions parallel to a first flat surface and a second flat surface of an installation reference jig to install the honeycomb segments in predetermined positions via a paste-like joining material on the installation reference jig by use of the installation reference jig having the first flat surface and the second flat surface forming a right angle therebetween, and then the joining material is dried and cured to join the plurality of honeycomb segments together. In the preparation method, in at least a part of a process of successively installing the plurality of honeycomb segments in the predetermined positions, when a new honeycomb segment is installed, at least a part of the installed honeycomb segments is pressurized and held in the predetermined positions so that the already installed honeycomb segments are not displaced.

Abstract: A production method of a multi-layer printed wiring board containing the following steps (1)-(5): (1) a temporary fitting preparatory step including conveying an adhesive sheet from an adhesive sheet roll wherein an adhesive sheet having a prepreg formed on a support film is wound in a roll and placing the adhesive sheet such that a prepreg surface contacts one or both of the surfaces of a circuit board, (2) a temporary fitting step for temporarily fitting the adhesive sheet to the circuit board, including partially adhering the adhesive sheet to the circuit board by heating and pressing a part of the adhesive sheet from the support film side, and cutting the adhesive sheet according to the size of the circuit board with a cutter, (3) a laminating step including heating and pressing the temporarily fitted adhesive sheet under reduced pressure to laminate the adhesive sheet on the circuit board, (4) a thermal curing step including forming an insulating layer by thermally curing the prepreg, and (5) a detachin

Abstract: A tape bonding device for bonding a tape member to a work piece, wherein the tape bonding device has a main body section, and a cover body section provided reopenable to the main body section. The main body section has a mount member on the upper surface of which the work piece is mounted; a tape holding unit which holds the tape member in a stretching state, and, at the same time, locates the tape member in the upper portion of the work piece mounted on the mount member; and a sucking unit for vacuum suction of space between the tape member and the work piece. The cover body section has a concave section which is depressed upward in the blocked state of the cover body section, and, at the same time, the upper bottom surface of the concave section presses downward the work piece and the tape member, which move upward.

Abstract: A method of producing a friction lining for wet operation resinates a textile fabric of staple fibers with a resin or resin mixture and then the textile fabric is cured under pressure or at an increased temperature. The resin or resin mixture is cured in at least two steps. In a first step the resin or resin mixture is pre-polymerized to produce a pre-product and final curing of the resin or resin mixture takes place in another step once the pre-product has been placed on a substrate. The pre-polymerization of the resin or resin mixture is run without pressure and staple fibers with a length selected from a range with a lower limit of 30 mm and an upper limit of 200 mm are used.

Abstract: A method of forming a precision microspace with given configuration and volume; a process for manufacturing a member having a precision microspace with given configuration and volume; etc. There is provided a method of forming a precision microspace by the step of laying a film on a substratum having a precision microscopic depressed portion, comprising the steps of mounting such a substratum on a first stage and setting a second stage covering the outer circumference of the first stage so that the uppermost face of the second stage is higher than that of the first stage; and laying a film on the substratum to thereby obtain a precision microspace with given configuration and volume.

Abstract: A thermoplastic pultrusion die system for pultruding a thermoplastic composite includes a first pultrusion die member; a second pultrusion die member; a die cavity gap formed between the first pultrusion die member and the second pultrusion die member; and a die cavity gap adjustment mechanism that imparts movement to at least one of the first pultrusion die member and the second pultrusion die member to vary the die cavity gap within a very tight die cavity gap tolerance.

Abstract: Provided is a system and method of making a door having first and second door skins and an internal frame. The top and bottom surfaces of the frame are coated with an adhesive and the frame is placed on a first door skin. The second door skin is then placed on the opposite surface of the frame. The assembled components are then pressed to bond the first and second door skins to the frame.

Abstract: A display bonding device includes a stage configured to place an adhesive tape and an adherend thereon, a pressure head configured to press the adhesive tape onto the adherend with a pressure surface having a tapered shape or a curved shape which is tilted with respect to the stage, and a movement mechanism configured to move the pressure head toward the adhesive tape through a pressure rod which is coupled to the pressure head. The pressure head is configured to rotate around the pressure rod.

Abstract: A glass sheet assembly including a first glass sheet arranged in an opposing parallel configuration with respect to a second glass sheet is provided, with a heat sensitive layer of adhesive laminating film disposed between the first glass sheet and the second glass sheet, the glass sheet assembly having a leading edge and a trailing edge and being of a fixed length and width, the laminating film having a bonding temperature at which melting of the laminating film is initiated. The glass sheet assembly is heated using an array of heating elements so as to cause differential heating along the length of the glass sheet assembly such that the temperature at the leading edge of the glass sheet assembly is higher than the temperature at the trailing edge of the glass sheet assembly with uniform heating across the width of the glass sheet assembly.

Abstract: An apparatus for laminating a glass sheet assembly includes a first glass sheet arranged in an opposing parallel configuration with respect to a second glass sheet, with a heat sensitive layer of adhesive laminating film disposed between the first glass sheet and the second glass sheet, the glass sheet assembly having a leading edge and a trailing edge and being of a fixed length and width, the laminating film having a bonding temperature at which melting of the laminating film is initiated.

Abstract: Laminated, paper cards are manufactured by adhering a first side of a calendared paper to a first side of a fiber board stock using a biodegradable adhesive to thereby create a sheet of material. A card construct is then formed by adhering a second side of the fiber board stock of a first sheet of material to a second side of the fiber board stock of a second sheet of material using a biodegradable adhesive. A second side of at least one of calendared papers of the card construct is then printed and the printed card construct is then subjected to a heat and pressure treatment in a hydraulic press. The treated, printed, card construct may then be die punched to provide one or more of the laminated, paper cards.

Abstract: Provided are methods for making a product having a three-dimensional surface. The method includes providing a base material, providing an adhesive layer and positioning the adhesive layer relative to the base material. The method includes providing a three-dimensional sheet having a top surface and a bottom surface, the top surface having a convex lens layer. The three-dimensional sheet is positioned relative to the base material based on a registration of an image on the three-dimensional sheet and is secured to the base material using the adhesive layer. Securing the three-dimensional sheet to the base material can include applying pressure to the three-dimensional sheet in successive steps of increasing pressure. Also provided is a product having a three-dimensional surface that includes a base material, a three-dimensional sheet, and an adhesive layer disposed between the base material and three-dimensional sheet and configured to secure the three-dimensional sheet to the base material.

Abstract: A component mounting apparatus includes: a plurality of pressure-bonding units which are arrayed in line and each of which includes a pressure-bonding head for pressure-bonding a component to a component pressure-bonding area of the substrate, and an edge-portion support member for supporting an edge portion of the substrate during the pressure bonding; a guide support member for supporting the pressure-bonding units so that their movement along the edge portion for execution of substrate pressure-bonding can be guided; a common head up/down unit for integrally moving up and down the individual pressure-bonding heads; and a plurality of unit-moving devices which are provided for the plurality of pressure-bonding units, individually and respectively, to move the pressure-bonding units along the edge portion so that placement of the pressure-bonding units is changed.

Abstract: A translucent composite material that can be used in various airplane interior applications that allows sufficient light transmissivity while preferably meeting Federal Aviation Administration (FAA) flammability requirements for overhead materials in the cabin of a commercial aircraft. The material also meets FAA standards regarding vertical burn, smoke emissions tests, and toxic fume emissions tests. The composite material is formed by laminating long glass fibers and (PPSU) into a composite sheet under controlled heat and pressure. The composite sheet is then cut, bent or thermoformed to form the desired part. The parts formed are available for a wide variety of uses within the passenger cabin of a commercial aircraft. The long glass fibers may be unidirectional or weaved into a glass cloth like material. While preferably formed for airplane interior applications, these components may also be used in other aerospace or non-aerospace applications.

Abstract: A method and apparatus for welding members formed of thermoplastic resin material, with high welding strength and small strength variations. A laser welding apparatus 1 brings a first member 2 formed of a transmissive thermoplastic resin that transmits a laser beam into contact with a second member 3 formed of an absorptive thermoplastic resin that absorbs the laser beam, and joins the thermoplastic resin members by melting their contact surfaces 4 with the laser beam. The laser welding apparatus 1 further comprises a laser beam generator 10 for irradiating the contact surfaces with the laser beam shone from the side of the first member 3 so as to melt at least one of the contact surfaces of the first member and the second member.

Abstract: This invention relates to a method for producing components with internal architectures, and more particularly, this invention relates to a method for producing structures with microchannels via the use of diffusion bonding of stacked laminates. Specifically, the method involves weakly bonding a stack of laminates forming internal voids and channels with a first generally low uniaxial pressure and first temperature such that bonding at least between the asperites of opposing laminates occurs and pores are isolated in interfacial contact areas, followed by a second generally higher isostatic pressure and second temperature for final bonding. The method thereby allows fabrication of micro-channel devices such as heat exchangers, recuperators, heat-pumps, chemical separators, chemical reactors, fuel processing units, and combustors without limitation on the fin aspect ratio.

Abstract: A method for fabricating a reinforced matrix composite comprising the step of providing a composite preform having a fibrous structure and applying matrix material onto the preform in locations along the preform. A barrier material is applied to at least a portion of the coated preform to direct the flow of matrix material into the preform. The composite preform is heated to a temperature sufficient to render the matrix material viscous and insufficient to cure the matrix material. The pressure to the interior of the composite preform is reduced, while the pressure to the barrier material is increased. The temperature is maintained to flow the matrix material into the composite preform and to force gases from the fibrous structure. The composite preform is then cured and cooled to form a reinforced matrix composite having a low void content and a substantially uniform matrix distribution.

Abstract: A method for producing a multilayer laminated film comprising: laminating a resin film having a moisture percentage of 10% by weight to 60% by weight with a first transparent film and a second transparent film each having a moisture percentage of 0.

Abstract: A polarizing optical element is produced by firstly forming a polarizing multilayer structure (30) on a support (31). The structure comprises an orienting layer and a polarizing layer having dichroic compounds, the dichroic compounds being oriented by the orienting layer. The multilayer structure is then pressed against one surface of the optical element (40) through the support, with a portion of adhesive placed between the structure and the optical element. The support (31) for the structure is then removed, leaving the structure (30) bonded to the optical element (40).

Abstract: This invention teaches methods of making a hermetic terminal assembly comprising the steps of: inserting temporary stops, shims and jigs on the bottom face of a terminal assembly thereby blocking assembly core open passageways; mounting the terminal assembly inside a vacuum chamber using a temporary assembly perimeter seal and flange or threaded assembly interfaces; mixing a seal admixture and hardener in a mixer conveyor to form a polymer seal material; conveying the polymer seal material into a polymer reservoir; feeding the polymer seal material from the reservoir through a polymer outlet valve and at least one polymer outlet tube into the terminal assembly core thereby filling interstitial spaces in the core adjacent to service conduits, temporary stop, and the terminal assembly casing; drying the polymer seal material at room temperature thereby hermetically sealing the core of the terminal assembly; removing the terminal assembly from the vacuum chamber, and; removing the temporary stops, shims.

Abstract: A tool for laminating a metal foil and polymer film to form a laminate structure is disclosed. A method of using the tool to form a laminate structure is also disclosed.

Abstract: A method and apparatus for applying tape tabs to a traveling web of material, for example, placement of tape tabs on a running web of disposable undergarments. A pair of wheels each has a protuberance come in contact with the running web of material, which comes in contact with an infeeding tape web. The invention allows placement of tape tabs at asymmetrical spacings, where placement of the tape from contact of the first wheel and protuberance may not be equally or centrally spaced from placement of the tape by the second wheel and protuberance.

Abstract: A device and a method for bonding a tape, by which a tape member may be preferably bonded to a work piece, and simplified processing, reduced cost, and improved bonding strength may be realized.