Abstract: A device (10) for reversibly fastening a panel (5) to a structure (2) in order to close off a window (3) in said structure (2). Said device (10) is made up of a plurality of studs (15) suitable for being embedded in a bead of adhesive (50), each stud (15)being provided with two longitudinal orifices (16), said device having two extraction wires (30), each of which passes through a longitudinal orifice (16) in each stud (15).

Abstract: According to a polarized glasses type stereoscopic image display device and a fabrication method thereof in accordance with the present invention, a light blocking pattern may be formed on a rear surface of the color filter substrate to enhance vertical viewing angle and aperture ratio. Moreover a light blocking pattern may be formed of a metal having a large hardness instead of resin BM and a step height from the rear surface ITO may be removed to prevent a scratch due to an abrasive belt.

Abstract: A method for producing an artificial bone capable of accurate molding at a joined part with appropriate strength, in which electromagnetic waves or electron beams are irradiated to a layer of at least type of powder selected from metal biomaterials, ceramics for the artificial bone and plastic resins for the artificial bone based on image data corresponding to a shape of the artificial bone, thereby effecting sintering or melting, and the thus sintered layer or melted and solidified layer is laminated, such that a surface finish step is adopted that inner faces and/or outer faces of both ends and their vicinities configuring the joined part to a human bone part are polished by a rotating tool based on the image data and also irradiation of electromagnetic waves or electron beams at both ends and their vicinities constituting the joined part is set greater than that at other regions.

Abstract: Disclosed is a method for manufacturing a joint of a metallic sheet and a polymer composite. In the method, a metallic sheet and a polymer composite are prepared. Oil components are removed from bonding surfaces of the metallic sheet and the composite using a solvent. An adhesive is applied to the bonding surfaces. The metallic sheet and the polymer composite are bonded to form the joint. The joint is heated while fixing the joint to primarily cure the adhesive by about 60% to about 80% at a predetermined temperature. The joint is heated to secondarily cure the adhesive fully at a higher second temperature than the predetermined first temperature.

Abstract: The abdominal elevator comprises a body portion made from a flexible foam, a polymer, paper or fabric having at least one upper edge and, optionally, two or more side edges, with a shape ranging from triangular to rectangular to oval with one or more straps attached to one or more of the edges and also having an anterior surface and a posterior surface having a adhesive applied to the posterior surface. The straps of the abdominal elevator are attached to the bedrail using a secure method that comfortably elevates, retracts and retains the abdominal pannus during a surgical procedure that requires access to the lower abdomen and/or groin area that would otherwise be obstructed.

Abstract: A method of making a transparent capacitor apparatus includes: providing a first transparent substrate including a first patterned conductive layer having a first pattern; providing a second transparent substrate including a second patterned conductive layer having a second pattern different from the first pattern; locating the first transparent substrate over the second transparent substrate so that the first patterned conductive layer is effectively parallel to the second patterned conductive layer. Overlapping portions of both the first conductive layer and the second conductive layer are patterned time into spatially matching conductive areas and non-conductive areas by locally applying heat to melt conductive materials in the non-conductive areas so that the surface tension of the conductive materials causes the conductive materials to coalesce into structures with a reduced conductive layer area.

Abstract: This disclosure provides systems, methods and apparatus for providing packaged microelectromechanical systems (MEMS) devices. In one aspect, package can include a cover glass joined to a device substrate, the cover glass including integrated electrical connectivity and configured to encapsulate one or more MEMS devices on the device substrate. The cover glass can include one or more spin-on glass layers and electrically conductive routing and interconnects. The package can include a narrow seal surrounding the one or more encapsulated MEMS devices.

Abstract: A foam tape having an adhesive layer for positioning against a tissue surface, a porous layer including a plurality of pores adapted to absorb fluid, a breathable layer configured to allow the passage of vapor therethrough, and an optional release layer is disclosed. The foam tape may be utilized as a wound dressing or in a compression bandage system.

Abstract: A resilient structure comprising a carrier layer of open-cell, resilient urethane foam material. The foam material is substantially completely and uniformly impregnated with an impregnant comprising silicone. The impregnant is cured after said impregnation to produce a foamed, open cell, resilient structure wherein the open cells thereof partially comprise the carrier layer of urethane foam material and the silicone includes a filler. A method for producing a resilient structure comprising applying silicone onto a carrier layer of open-cell, resilient urethane foam material, substantially completely and uniformly impregnating the carrier layer with the silicone, and curing the silicone to produce a foamed open-cell, resilient structure wherein the open cells thereof partially comprise the foam material, wherein the structure exhibits properties of the silicone, and wherein the silicone includes a filler.

Abstract: A micro-fluidic device is described. The micro-fluidic device includes a semiconductor substrate; at least one micro-reactor in the semiconductor substrate; one or more micro-fluidic channels in the semiconductor substrate, connected to the at least one micro-reactor; a cover layer bonded to the semiconductor substrate for sealing the one or more micro-fluidic channels; and at least one through-substrate trench surrounding the at least one micro-reactor and the one or more micro-fluidic channels.

Abstract: An eco anti-mold fresh-keeping chip, a graph layer is formed on a base material after printed and a lustering film polyester layer is pasted on the graph layer by a manufacturing machine to construct a chip body, the chip body is put inside the fumigation trough with natural anti-mold fresh keeping anti-oxidation material, the chip body absorbs the natural anti-mold fresh-keeping anti-oxidation material to form an eco anti-mold fresh-keeping chip after the fumigation and permeation procedure in chamber, the main component of the natural anti-mold fresh-keeping anti-oxidation material is consisted of Allyl isothiocyanate and eucalyptol (juniper pythoncidere).

Abstract: A heat-transfer label assembly and method of using the same. In one embodiment, the assembly is well-suited for decorating refillable glass articles and includes a support portion, a wax skim coat, and a transfer portion. The support portion may include a carrier web overcoated with a polyethylene layer. The wax skim coat may overcoat the polyethylene layer. The transfer portion may include a protective lacquer, an ink design, and a heat-activatable adhesive. The protective lacquer may be printed directly on the skim coat and may include a cross-linked phenoxy resin. The ink design may be printed onto the protective lacquer and may include a binder, a colorant, and a cross-linking system. The adhesive, which may differ from the ink design only by lacking colorant, may be printed onto the ink design, any exposed portions of the protective lacquer, and the surrounding skim coat.

Abstract: The invention comprises, a first preliminary step of cleaning the treatment surface of the moulding base tool and a second step in which the necessary layers of mould-release agent are applied to the treatment surface of the moulding base tool. Based on said preliminary steps, the process is characterized in that, in a later step, the treatment surface (1), covered with a mould-release agent (3), is provided with a continuous uniform film (4) of resin having a low concentration of volatile elements and a laminar resin supporting a very high mould-release capability, which facilitates the transfer of resin to the treatment surface (1) of the moulding base tool (2).

Abstract: The present invention relates to heat-curable compositions containing a mixture of reactive epoxy resins that contains, based on the mass of all epoxy resins, a) at least 10 wt % of an epoxy group-containing reaction product of epichlorohydrin with polypropylene glycol which has an epoxy equivalent weight of at least 250 g/eq, and b) at least 10 wt % of an epoxy group-containing reaction product of epichlorohydrin with a novolac resin which has an epoxy equivalent weight of at least 175 g/eq, and at least one latent hardener.

Abstract: The present disclosure provides a bonding apparatus. The bonding apparatus includes a cleaning module designed for cleaning chips; and a chip-to-wafer bonding chamber configured to receive the chips from the cleaning module and designed for bonding the chips to a wafer.

Abstract: Carbon nanotube interlayer assemblies, methods of manufacturing carbon nanotube interlayer assemblies, and methods of manufacturing composite parts with carbon nanotube interlayer assemblies are disclosed herein. In one embodiment, a method of manufacturing a composite structure in accordance with an embodiment of the invention includes producing a plurality of carbon nanotubes on one or both sides of a substrate, and attaching the substrate to a first fiber layer. The method can further include positioning a second fiber layer adjacent to the first fiber layer to position the plurality of carbon nanotubes between the first and second fiber layers. The method can additionally include infusing the first and second fiber layers with resin, and curing the resin. In one embodiment, the carbon nanotube substrate can be attached to the first fiber layer by melt-bonding. In another embodiment, the carbon nanotube substrate can be attached to the first fiber layer with stitches.

Abstract: In one embodiment, a fluid sampling apparatus is disclosed. The apparatus includes an inlet that is fluidically linked to a vacuum compartment through a one-way intake valve and a storage compartment that is fluidically linked to the vacuum compartment through a one-way exit valve; and a plunger for intaking a sample through the inlet into the vacuum compartment and then pushing the sample into the storage compartment. A method of fabrication and use are provided.

Abstract: Adhesion by molecular bonding of two free surfaces of first and second substrates, for example formed by monocrystalline silicon wafers, comprises at least successively: a cleaning step of the two free surfaces with hydrofluoric acid in vapor phase to make the two free surfaces hydrophobic, a rinsing step of said free surfaces with deionized water with a time less than or equal to 30 seconds a step of bringing said free surfaces into contact.

Abstract: A flexible substrate includes a flexible mother substrate and a planarization layer on the flexible mother substrate. Here, the flexible mother substrate includes a transparent textile and a resin layer. The transparent textile includes a plurality of first transparent fibers and a plurality of second transparent fibers crossing the plurality of first transparent fibers, and the resin layer coats the transparent textile to fill a space between the first and second transparent fibers. The planarization layer includes an organic material having a curable contraction rate of no greater than about 20%.

Abstract: Provided are a substrate for a superconducting compound and a method for manufacturing the substrate which can realize the excellent adhesive strength simultaneously with high orientation of copper. An absorbed material on a surface of a copper foil to which rolling is applied at a draft of 90% or more is removed by applying sputter etching to the surface of the copper foil, sputter etching is applied to a nonmagnetic metal sheet, the copper foil and the metal sheet are bonded to each other by applying a pressure to the copper foil and the metal sheet using reduction rolls, crystals of the copper in the copper foil are oriented by heating a laminated body formed by such bonding, copper is diffused into the metal sheet by heating with a copper diffusion distance of lOnm or more, and a protective layer is laminated to a surface of the copper foil of the laminated body.

Abstract: Provided is a manufacturing method for a thermal head, including: bonding a flat upper substrate in a stacked state onto a flat supporting substrate including a heat-insulating concave portion open to one surface thereof so that the heat-insulating concave portion is closed (bonding step (SA2)); thinning the upper substrate bonded onto the supporting substrate by the bonding step (SA2) (plate thinning step (SA3)); measuring a thickness of the upper substrate thinned by the plate thinning step (SA3) (measurement step (SA4)); deciding a target resistance value of heating resistors based on the thickness of the upper substrate, which is measured by the measurement step (SA4) (decision step (SA5)); and forming, at positions of a surface of the upper substrate thinned by the plate thinning step (SA3), the heating resistors having the target resistance value determined by the decision step (SA5), the positions being opposed to the heat-insulating concave portion (resistor forming step (SA6)).

Abstract: An apparatus including a seal and a grounding ring along with methods for securing such an apparatus to the housing of a motor. The apparatus comprises an electrically conductive stator including a groove formed in a face thereof. A rotor mates with the stator, wherein the rotor includes a seal groove formed around an inner radius thereof and further comprising a rotor seal disposed in the seal groove. A seal ring is interposed between the stator and the rotor. The stator engages the seal ring around an inner circumference of the seal ring and the rotor engages the seal ring around an outer circumference of the seal ring. A grounding ring is interposed between the stator and the rotor, wherein the grounding ring is electrically coupled to the stator. An electrically conductive adhesive is included for application into the groove and onto the face.

Abstract: In an embodiment of the disclosure, there is provided a molybdenum composite hybrid laminate. The laminate has a plurality of composite material layers. The laminate further has a plurality of surface treated molybdenum foil layers interweaved between the composite material layers. The laminate further has a plurality of adhesive layers disposed between and bonding adjacent layers of the composite material layers and the molybdenum foil layers.

Abstract: A fastener retention tape comprising a transparent tape substrate; the substrate being fabricated of a material capable of plastic deformation. A pair of adhesive strips is applied to an attachment side of the tape substrate, wherein each strip runs parallel to an adjacent edge of the tape. The tap is placed over one or more fasteners to retain the fasteners in proper location upon removal. The service person engages a removal tool with a fastener head sandwiching the tape therebetween. The pliancy of the tape substrate enables removal of the fastener without breaching the ability of the tape to retain the fastener. The fastener is disengaged from the assembly and retained by the tape until reassembly is completed.

Abstract: The invention relates to a device for protecting a display facility, comprising a protective element for covering an image surface of the display facility. As the protective element is designed to be transparent and the retaining means are provided for the exchangeable arrangement of the protective element in front of the image surface, a protective device is provided, which allows the image surface to be examined and is easy to operate.

Abstract: A multipole rod assembly, such as used as mass analyzer, is fabricated using rods adhesively attached to shoes, which are then attached to isolation rings. A fixture is used in conjunction with precision-made spacers to precisely assemble the ion mass analyzer. The rods and shoes can be made of metal, while the isolation rings are preferably made of insulator, such as ceramic. The shoes and isolation rings need not be made to high precision, as the spacer ensures high accuracy in alignment and symmetry of the rods. Consequently, the rods are the only precision machined parts in the ion mass analyzer assembly.

Abstract: A method of fabricating a composite part including reinforcing fibers comprises fabricating a masterless layup mandrel tool at a fabrication site. The tool includes a composite face sheet that provides a layup surface. The method further comprises using the masterless tool at that site to form a layup of the reinforcing fibers.

Abstract: The non-contact information recording medium is made by forming the antenna circuit and connecting it to the IC module through connection terminals at the same time. This provides a high degree of freedom of patterning of the antenna circuit. The antenna circuit is formed on a recording substrate, in which an IC module has been embedded. A foil-bonding resin layer is formed on the connection terminals of the recording substrate, with a toner containing a binder resin by an electrophotographic method. Then a conductive foil is brought into contact with the foil-bonding resin layer to bond the foil to the resin layer, to connect the antenna circuit to the connection terminals and form the antenna circuit composed of the conductive foil.

Abstract: An improved geode breaking method, system, and apparatus are disclosed. A geode can be broken or cut into at least two pieces, or grooved with a circumferential groove. The geode pieces can be reassembled and connected to each other using a bonding material that supports the joint formed between the reassembled pieces. The bonding layer can denote a joint guideline to assist in aligning a geode breaking tool for re-breaking the geode. A support layer can be added for additional strength, support, and geode crumbling prevention. The reassembled geode can be safely and easily re-broken without crumbling the exterior and interior surface of the geode. The geode's interior crystals or concentric lines can be safely appreciated within a piece or section of a reassembled and re-broken geode.

Abstract: A method for making a microfluidic device, the method includes providing at least one inorganic layer on a substrate; applying an alkoxysilane material containing a primary or secondary amine on the at least one inorganic layer; baking the applied alkoxysilane material at a temperature greater than 130 degrees C.; applying an epoxy material to form an epoxy layer, wherein the applied alkoxysilane material is disposed at an interface between the epoxy layer and the at least one inorganic layer; and patterning the epoxy layer to provide a wall for defining a location for a fluid in the microfluidic device.

Abstract: An improved apparatus for debonding temporary bonded wafers includes a debonder, a cleaning module and a taping module. A vacuum chuck is used in the debonder for holding the debonded thinned wafer and remains with the thinned debonded wafer during the follow up processes steps of cleaning and mounting onto a dicing tape. In one embodiment the debonded thinned wafer remains onto the vacuum chuck and is moved with the vacuum chuck into the cleaning module and then the taping module. In another embodiment the debonded thinned wafer remains onto the vacuum chuck and first the cleaning module moves over the thinned wafer to clean the wafer and then the taping module moves over the thinned wafer to mount a dicing tape onto the wafer.

Abstract: Disclosed are methods for firmly joining fiber-reinforced, plastic-based adherends, wherein depressions are introduced into opposing lateral surfaces of the adherends, and have injected into them a fiber-reinforced plastic material that serves as an adhesive, a device for implementing such a method, as well as a component joined in this way.

Abstract: The present invention relates to products having a foam carrier or substrate, and particularly to such products employing a reticulated polyurethane foam carrier impregnated with silicone polymer. The present invention also relates to a method of producing these silicone-impregnated foam products.

Abstract: A manufacturing method of an application roller that applies a coating solution onto a surface of a substrate, wherein the application roller includes a roller body that includes a large diameter portion and small diameter portions coaxially extended from both ends of the large diameter portion, the manufacturing method includes: overlaying a resin layer on at least an outer periphery of each of the small diameter portions; forming a masking portion on the outer periphery of each of the small diameter portions by processing an outer periphery of the resin layer; and forming an application groove portion on an outer periphery of the large diameter portion.

Abstract: The present invention relates to construction materials and more specifically, to a continuous composite exterior insulation system and cladding used in the construction of building walls and structure, to control heat transfer, rain-water penetration, air and water vapor transmission while providing fire protection to a building enclosure. This invention relates to a thermal upgrade of existing and new buildings. The wall substrate is arranged for receipt of subsequent layers of cladding materials. Thermo-grid of insulated composite strapping is mounted on the surface of the said wall and a layer of continuous insulation e.g. polyurethane foam is applied between the thermo-grid strapping leaving a thin air gap between it and the next layer of the fire protective composite.

Abstract: A simple and innovative process for manufacturing a high performance mechanical polarizing device is provided. The invention utilizes an inexpensive, high output production process where a transparent film substrate is coated with a non-transparent layer by deposition or other wet or dry method. Then a photoresist or a nano-imprint lithography process is used to overlay the non-transparent coated film with a pattern. The exposed non-transparent material is then removed by means of acid or base etching or the use of other mechanical or nano-technology removal methods. The photoresist is then removed and a protective layer may then be applied to the polarizer substrate. According to another embodiment, nano-imprinting techniques are used to prepare the polarizer substrate. The process may be automated in one or more embodiments, and lends itself to a high speed production manufacturing line, utilizing roll-to-roll, sheet fed or other methods of automated manufacturing.

Abstract: An electrode bonding structure sealed with a sealing resin, in which a flexible substrate is bonded to a first substrate via an adhesive, wherein: a region along a bottom face edge of an flexible substrate end part is bonded, via the adhesive, to an inner side region of a region along a top face edge of an first substrate end part; a gap is formed between an inner side region of the region along the bottom face edge of the flexible substrate end part and the region along the top face edge of the first substrate end part; the sealing resin is formed so as to enter, while covering a top face of the flexible substrate end part, at least a portion of the gap; and a height of the gap gets smaller towards the adhesive from the top face edge of the first substrate end part.

Abstract: A process to increase the resistance of paper board to hot penetrants using a sizing agent containing fatty acid anhydride, and an insolubilizing agent is disclosed. Additionally a composition useful to impart hot penetrant resistance is disclosed.

Abstract: Methods are disclosed for manufacturing piezoelectric devices. An exemplary method comprises the step of bonding a lid wafer, a piezoelectric frame wafer (having a vibrating piece and a outer frame surrounding the vibrating piece), and a base wafer (having at least one wiring through-hole) together. A surface of a unit (typically ball-shaped) of eutectic metal is cleaned and then arranged on the through-hole. The unit of eutectic metal is then melted in a vacuum or inert gas environment to allow the eutectic metal to enter the through-hole.

Abstract: A fluid treatment arrangement may include a fluid treatment unit having a multilayer structure. The multilayer structure may include at least one feed layer, at least one permeate layer, and at least one layer of a permeable fluid treatment medium between the feed layer and the permeate layer. The fluid treatment unit may further include a thermoset which holds the layers together and forms at least a portion of a first end surface of the fluid treatment unit. The fluid treatment arrangement may also include a thermoplastic sheet which overlies the first end surface of the fluid treatment unit. The thermoset directly bonds to the thermoplastic sheet.

Abstract: A process for producing a porous body with different physical properties in desired regions is provided by pore forming treatment, not by bonding two or more materials made porous beforehand, with, for example, an adhesive. Raw materials are prepared, each of which contains a polymer and a raw material preparation solvent. At least two types of the raw materials having different compositions are prepared. Thereafter, the respective raw materials are frozen into desired shapes to form frozen bodies thereof. The frozen bodies thus formed are brought into contact with each other to form an assembly thereof, the assembly is exposed to a condition under which the frozen bodies begin to melt, and the assembly is then freeze-dried. Thus, a porous body having regions different in physical properties can be obtained. Such a porous body can be used as, for example, an adhesion inhibitory material or a scaffold for a cell culture.

Abstract: In order to attach an add-on unit to a low temperature pressure chamber unit having a low temperature pressure chamber, and an external housing surrounding the low temperature pressure chamber, an attachment device is used to attach at least one add-on unit to the external housing, and the attachment device has an adhesive unit designed for the arrangement and/or attachment of the at least one add-on unit to the external housing.

Abstract: A method of installing a pressing block suit of a solar panel to a mounting body, in the method, a pressing block suit of the solar panel is adhered to the mounting body with an adhesive directly. The processes of the method is easy and convenient, the cost of installing is reduced.

Abstract: A hermetic container comprises first and second substrates and bonded by bonding members to form a hermetically sealed space therebetween. Second bonding members placed on both sides of a first bonding member to form the hermetically sealed space between the substrates are sandwiched between the substrates, thereby bonding the substrates together with the first bonding member. A height of first bonding member is higher than that of second bonding member and at least one of the substrates is elastically deformed and is bonded by the first bonding member and the second bonding members. Thus, the hermetic container in which a compressing force has been applied to a height direction of the first bonding member is obtained.

Abstract: A microfluidic sensor device includes a substrate having patterned thereon at least one Ag/AgCl electrode (working electrode) and an inner chamber overlying the at least one Ag/AgCl electrode. The device includes an ion selective permeable membrane permeable to TPP+ disposed on one side of the first chamber and a sensing chamber overlying the ion selective permeable membrane. A separate reference electrode is inserted into the sensing chamber. The working electrode and reference electrode are coupled to a voltmeter to measure voltage. This voltage can then be translated into a TPP+ concentration which is used to determine the mitochondrial membrane potential (??m).

Abstract: A fluidic chip device configured for processing a fluidic sample includes two outer boundary layers, and at least one reinforcing layer arranged between the two outer boundary layers and being at both of its opposing main surfaces laminated with directly adjacent layers to reinforce pressure resistance of the fluidic chip device by the lamination, in which at least a part of the layers of the fluidic chip device includes a hole forming at least a part of a fluidic conduit for conducting the fluidic sample under pressure.

Abstract: A composite sensor assembly for monitoring bio-processes which is suitable for use with a polymeric bioprocess vessel or with downstream equipment, and comprises: i) a port comprising a high surface tension thermoplastic having a hollow tubular portion and a base plate portion, the base plate being fusibly sealable to the bioreactor vessel at a hole in the wall thereof; ii) a generally opaque polymeric monitoring sensor assembly including electrical, and/or optical measurement components. The sensor assembly fits inside the bore of the hollow tubular portion of the port, and is adhesively retained therein.

Abstract: Novel cellular solids and foams from amorphous materials with a glass transition temperature (Tg) and methods of forming such materials are provided. In particular, foams are formed by expanding or compressing hollow spheres made of a high strength amorphous material, which is defined as a material having high strength characteristics, but also possessing a glass transition within a confined space. Using such a method, it has been unexpectedly found that it is possible to make cellular structures, including both open and closed cell foams, with customizable properties from materials that have been inaccessible with conventional methods. Moreover, based on calculations high specific strengths and stiffnesses are expected.

Abstract: The disclosure provides in one embodiment a method of promoting adhesion on a composite surface. The method comprises providing a composite structure having at least one composite surface to be bonded. The method further comprises preparing the at least one composite surface. The method further comprises providing a chemical derivatization compound containing active functional groups that promote adhesion. The method further comprises depositing the chemical derivatization compound on the prepared composite surface to form a functional group-adhesive promoter derivatized layer. The method further comprises applying an adhesive layer to the derivatized layer. The method further comprises heat curing the adhesive layer to result in a bond with another structure made of a composite, a metal, or a combination thereof.

Abstract: A diffusion-tight joint (30) between ends of prefabricated spacers (10) that support a diffusion barrier (3) on the spacer outer face is achieved in that a tongue (9) is formed from the diffusion barrier (3) at an end of two spacers (10) that abut each other at a joint (30), the tongue protruding over the end. The tongue (9) is fixed to the outer face of the diffusion barrier (3) of the other end of the spacer (10) using an adhesive application (13) so that an overlapping of the diffusion barriers (3) of both ends is achieved. The formation of the joint can be formed in the corner region of prefabricated spacer frames (10) or in straight regions of spacers (10), thus wherever ends of spacers (10) that are prefabricated abut each other.