Abstract: An exemplary a method for manufacturing a lens is provided. In the method, a first lens preform and a second lens preform is formed. The first lens preform includes a first surface and an opposite second surface. The second lens preform includes a third surface and an opposite fourth surface. An oxygen plasma is applied to the second and fourth surfaces so as to form a number of groups capable of being irreversibly bonded. The second surface is contacted with the fourth surface. The groups capable of being irreversibly bonded take place an irreversible bonding reaction to chemically combine the second and fourth surfaces, thereby obtaining a double sided lens preform. The double sided lens preform is diced into a number of double side lenses.

Abstract: An adhesive layer is formed on a substrate by printing such that the adhesive layer has a predetermined pattern. A film having a phase-difference characteristic is bonded thereon to form a divided waveplate material layer. The divided waveplate material layer is divided all at once with cutter blades disposed in a row such that the divided waveplate material layer has the predetermined pattern. Then the divided waveplate material layer remaining on portions to be removed is removed, thereby forming divided waveplates on the substrate such that the divided waveplates have the predetermined pattern.

Abstract: Various embodiments of the present invention are directed to optical fiber coupling systems and to methods for fabricating optical fiber coupling systems. In one aspect, an optical fiber coupling system includes a first resonant cavity abutting the end of an optical fiber. The optical fiber coupling system includes a second resonant cavity located adjacent to the first cavity. The first and second resonant cavities are separated by a sub-wavelength grating layer configured with a non-periodic sub-wavelength grating. The optical fiber coupling system selectively couples light into and/or out of the optical fiber core.

Abstract: An apparatus is provided for applying a construction material, the apparatus having construction and an infrared heat emitter for providing infrared heat on the construction material. The construction material can be a roll of roofing material, which can be a roll of modified asphalt/bitumen roofing membrane material. The infrared emitter can be gas powered or electric powered. A method of applying a roofing membrane is also provided, where construction material is heated using infrared heat and applied onto a rooftop or other suitable surface.

Abstract: A method to bond carbon nanotubes to a surface. The mechanism of this bonding is studied, and shows that intercalation of alkali ions is possibly the central mechanism. Bonding pull-off forces of 4-5 N/cm2 were measured. This bonding also provides improved interfacial properties for other phenomenon, including improved thermal conductivity.

Abstract: Embodiments of the present invention generally comprise a method and apparatus for preparing and bonding a cylindrical sputtering target tube to a backing tube to form a rotary target assembly. In one embodiment, a cylindrical target assembly includes bonding material that has a cylindrical surface and is substantially concentric to the backing tube. In one embodiment, a method for forming a cylindrical target assembly includes filling a gap defined between sputtering target tubes with a spacer. The method also includes removing the spacer after the sputtering target tubes are bonded to a backing tube. In one embodiment, an apparatus for fabricating a cylindrical target assembly comprises of a support tube, two end fittings, and a plurality of clamp elements operable to clamp the support tube between the two end fittings.

Abstract: Described herein are fugitive hot melt adhesive compositions having a substantial weight percent of renewable plant-based content. The adhesive compositions impart high initial adhesive bond strength between an object and a substrate quickly after application in the molten state, wherein the adhesive bond strength is spontaneously substantially reduced to a very low or near zero level after a short time, for example between about 1 minute and 60 minutes after application. Methods of use and articles formed using the compositions are also described.

Abstract: A resin bonding method according to the present invention is a resin bonding method for bonding a first resin and a second resin including (I) a step of irradiating spaces containing oxygen molecules with vacuum ultraviolet light having a wavelength of 175 nm or less, the spaces being in contact with surfaces of the first and second resins; and (II) a step of, after the irradiation, subjecting the surfaces to temperature rise while the surfaces are in contact with each other, to bond the first resin and the second resin together with the surfaces serving as bonding surfaces. In the step (I), the surfaces of the first and second resins may be further irradiated with the vacuum ultraviolet light. In this case, a light amount of the vacuum ultraviolet light having reached the surfaces is preferably, for example, 0.1 J/cm2 or more and 10 J/cm2 or less.

Abstract: There are provided a method and device for thermocompression bonding of possibly preventing any warping of a resin member to be caused by thermocompression bonding, and of possibly reducing the time to be taken for processing. The method for thermocompression bonding, includes: preheating a resin member using an infrared radiation section; and subjecting the resin member to thermocompression bonding using a heating section and a pressurization section.

Abstract: The present disclosure provides for an inflatable foam pillow having a support layer. More particularly, the present disclosure provides for an inflatable foam pillow comprising a support layer, a shell, and a housing layer attached to the shell which surrounds the support layer and secures the support layer against a side wall of the shell. In some embodiments, the shell may be an inflatable bladder. In some embodiments, the pillow may further include a valve or pump for inflating, holding or releasing the air from the pillow.

Abstract: A method of manufacturing footwear includes providing a modular forepart and a modular rearpart, overlapping these parts along an overlap margin a preselected distance, and permanently joining the parts to selectively manufacture footwear of at least two different sizes, for example, a full size or a half size or some other partial size. The forepart and rearpart can be injection molded from one or more polymeric materials in a mold. The polymeric materials can be bonded to a sheet of material which can be at least partially retained in a three-dimensional, contoured shape by the polymeric material. The molded polymeric material can form a supportive and/or structural exoskeleton in an upper portion of the footwear. The exoskeleton can define one or more holes through which the sheet is visible to form one or more aesthetic regions on the upper. An article of footwear constructed with the method is also provided.

Abstract: Provided is a hybrid silicon wafer comprising a structure in which a single-crystal wafer is embedded in a sintered polysilicon wafer. Also provided is a method for manufacturing a hybrid silicon wafer having a structure in which a single-crystal wafer is embedded in a sintered polysilicon wafer, wherein a part of the sintered polysilicon is hollowed, a single crystal ingot is inserted into the hollowed portion, these are mutually bonded through thermal diffusion bonding based on HIP to prepare a complex of the sintered polysilicon and the single-crystal silicon ingot, and the complex is sliced. Thereby provided are a hybrid silicon wafer comprising functions of both the polysilicon wafer and the single-crystal wafer, and a method for manufacturing such a hybrid silicon wafer.

Abstract: A method of forming an underlying layer of an alignment film for an oxide superconducting conductor, includes arranging two or more kinds of targets along a lengthwise direction of a base material so as to face a surface of the base material; simultaneously irradiating an ion beam on surfaces of the two or more kinds of targets to deposit constituent particles of the targets on the surface of the base material in the order of the arrangement of the two or more kinds of targets; and forming a laminate in which two or more kinds of thin films are repeatedly laminated on the surface of the base material by passing the base material through a deposition region of the constituent particles a plurality of times so that the constituent particles of the targets are repeatedly deposited on the surface of the base material at each passage.

Abstract: A laser beam irradiation apparatus irradiates a laser beam to a sealing unit disposed between a first substrate and a second substrate to seal the first substrate and the second substrate. The laser beam irradiation apparatus includes a laser head for irradiating the laser beam; and a control unit for controlling a drive-velocity and a drive-direction of the laser beam. The laser beam is controlled by the control unit which repetitively performs a backward and forward movement along a first direction, and passes a same position at least twice.

Abstract: The invention overcomes the limitations described for the bonding of structured layers by providing a method for selectively reducing the bonding of materials. In its most generic form, the invention uses a bonding technique in combination with a printing method for modifying or covering at least one portion of a surface to either fully or partially prevent localised bonding. The structuring process may act upon the layers either before or after the bonding of the layers. The invention overcomes the limitations described in the application of affinity chromatography by providing a planar substrate with discrete optical detection flow cells that contain porous material and have connecting microchannels for fluid delivery and/or removal, and a method for making the same.

Abstract: A microelectromechanical device package with integral a heater and a method for packaging the microelectromechanical device are disclosed in this invention. The microelectromechanical device package comprises a first package substrate and second substrate, between which a microelectromechanical device, such as a micromirror array device is located. In order to bonding the first and second package substrates so as to package the microelectromechanical device inside, a sealing medium layer is deposited, and heated by the heater so as to bond the first and second package substrates together.

Abstract: Provided is a microfluidic device including: a sample chamber; at least one analyzing unit receiving a sample from the sample chamber and detecting components contained in the sample according to a reaction of the sample and a reagent; and a denaturation detection chamber determining the storage condition of the microfluidic device, wherein the denaturation detection chamber accommodates a material whose light absorption changes according to the temperature and the water thereof.

Abstract: Nondestructive examination is performed on a composite aircraft component including a composite body and a conductive medium. The conductive medium is substantially more conductive than the composite body. The nondestructive examination includes applying an electromagnetic field that penetrates the composite body and heats the conductive medium, and creating a thermal image of the conductive medium to reveal conductivity information about the conductive medium.

Abstract: A method for attaching a label to a surface of an item. The label includes a carrier layer and a bonding layer. The method includes heating the bonding layer using infrared light such that the infrared light has a maximum spectral irradiance at a peak wavelength. The bonding layer has an absorbing spectral region that spectrally matches with the peak wavelength.

Abstract: Embodiments related to making an optic comprising a cladding are disclosed. One example embodiment comprises forming a wedge-shaped light guide having opposing first and second faces and comprising a material having a first refractive index. The embodiment further comprises applying a cladding layer to the first face, and, applying an interface layer to the cladding layer. In this embodiment, the cladding layer has a second refractive index less than the first refractive index, and the interface layer has a third refractive index matched to the first refractive index.

Abstract: A method of assembling a chair includes providing a first chair component composed of a first polymeric material and a second chair component composed of a second polymeric material. An adhesive is positioned on or in the first chair component. The adhesive is composed of a third polymeric material and at least one ferromagnetic susceptor. The second chair component is positioned in engagement with the adhesive and adjacent to the first chair component. A magnetic field or electromagnetic waves are applied to the adhesive to activate the adhesive. A force is also applied to at least one of the first chair component and the second chair component to press the first chair component and the second chair component. A chair is also provided that includes the first and second chair components and the adhesive.

Abstract: A game ball, such as a soccer ball, having a cover comprised of one or more cover panel blanks and one or more reinforcement material blanks, is provided. The cover panel blanks and reinforcement material blanks are heat bonded together so that the free edges and interior panel boundaries of the cover panel blanks are aligned with the reinforcement material blanks.

Abstract: A transfer sheet includes a supporting substrate, a photothermal conversion layer disposed on the supporting substrate, and a passive layer disposed on the photothermal conversion layer.

Abstract: The transparent fire-resistant glazing has at least two glass or glass ceramic panes with a gap between them, which is filed with a UV-cured material made by curing a UV-curable material with UV radiation. The UV-curable material includes at least one bromine-containing flame retardant, which is a polybrominated diphenyl ether, a brominated alcohol, or a polybrominated cycloalkane, and/or a mixtures thereof. The glazing is made by a process in which the panes are cleaned and masked so that there is a gap between them, the UV-curable material is filled into the gap and then cured with UV radiation.

Abstract: A welding machine having a frame that includes end supports spanned by a top beam with a truncated V-shaped cross-section and a method of using the same. A vacuum track assembly disposed vertically beneath the top beam retains fabrics to be welded on a perforated surface using suction. A welding head travels along the top beam and applies heat and pressure to the surface to weld the fabrics together. The top beam and vacuum track assembly are extendable by including additional unit segments from which the beam and assembly are constructed.

Abstract: A method of forming a bag assembly by RF welding includes generating from a single source of RF energy a high frequency electric field having a first strength between tube-welding electrodes of opposing die members and a second strength less than said first strength between perimeter-welding electrodes of the opposing die members. Subjecting a tube assembly and corresponding portions of sheets surrounding the tube assembly to the high frequency electric field of said first strength for a predetermined amount of time to weld the sheets to a tube along a tube-weld. Corresponding portions of the sheets between the perimeter-welding electrodes are subjected to the high frequency electric field of said second strength for said predetermined amount of time to weld the sheets together along a bladder perimeter-weld. The subjecting steps are performed simultaneously so that the bag assembly is formed in one welding operation.

Abstract: A method of producing a ceramic weld, including identifying a ceramic first surface and a ceramic second surface to be bonded together, maintaining a non-oxidizing atmosphere over the first and second surfaces, and engaging the first and second surfaces to define a joint. An arc is generated between an electrode and the joint to create a liquid phase, and the liquid phase is cooled to yield a solid fusion layer, wherein the first and second surfaces are joined in the fusion layer.

Abstract: A curable composition comprising magnetically active elastic microspheres that are filled with a curing agent. The elastomeric microspheres are predispersed throughout the curable resin and are magnetostrictive. Cure of the adhesive is initiated when an external magnetic field is applied that physically distorts or ruptures the magnetic microspheres due to a magnetostrictive effect from the magnetic field.

Abstract: In accordance with an embodiment of the disclosure, A water-proofing laminate includes a drainboard having a first surface positioned against a hydraulic source and a second surface opposed to the first surface, a fastener plate positioned against the second surface of the drainboard securing the drainboard to the hydraulic surface, the fastener plate comprising a conductive element and a thermoplastic resin, and a self-healing hydraulic barrier comprising a thermoplastic surface adjoined to a geotextile and carrying a water-absorbent material, the thermoplastic surface inductively welded to the fastener plate.

Abstract: A method of sealing together two elements of a bipolar battery, the method comprising: interposing an inductive heating element between the two elements; applying a current to the inductive heating element to generate localised heat to melt material in the vicinity of the heating element to seal the two elements together.

Abstract: There is provided a method of manufacturing a camera module including a sensor package having an image pickup element, and a lens configuration in which a lens holder, and a receptacle accommodating the sensor package are integrally formed, the sensor package being fixed within the receptacle, the method including: applying a photo-curing resin to predetermined portions of the receptacle; performing alignment of a relative position of the sensor package to the lens configuration; a first joining whereby the photo-curing resin is cured so that the sensor package is fixed within the receptacle while maintaining the relative position of the sensor package to the lens configuration; and a second joining whereby a thermosetting resin is applied so as to fill a space formed between the sensor package and the lens configuration, and then curing the thermosetting resin.

Abstract: A process for fabricating an acoustic wave resonator comprising a suspended membrane comprising a piezoelectric material layer, comprises the following steps: production of a first stack comprising at least one layer of first piezoelectric material on the surface of a first substrate; production of a second stack comprising at least one second substrate; production of at least one non-bonding initiating zone by deposition or creation of particles of controlled sizes leaving the surface of one of said stacks endowed locally with projecting nanostructures before a subsequent bonding step; direct bonding of said two stacks creating a blister between the stacks, due to the presence of the non-bonding initiating zone; and, thinning of the first stack to eliminate at least the first substrate.

Abstract: Disclosed are systems and methods for bonding wafers by use of microwave energy. Various components that facilitate relatively quick and efficient bonding provided by microwave energy are disclosed. In certain embodiments, devices and methods for applying desirable compression to the wafers can be implemented. In certain embodiments, devices and methods for providing a controlled gas environment such as vacuum can be implemented. In certain embodiments, devices and methods for maintaining the integrity of microwave mode of operation during the bonding process can be implemented. In certain embodiments, devices and methods for increasing throughput of the bonding process can be implemented.

Abstract: Medical devices and related methods are disclosed.

Abstract: A method for manufacturing an electro-optical device in which thin film layers are formed by drying droplets containing a thin film layer formation material, and these thin film layers are laminated to form a light emitting element, includes mixing lyophilic microparticles that are lyophilic with respect to droplets that form an upper thin film layer into droplets that form a lower thin film layer, and drying the droplets in which these lyophilic microparticles have been mixed to form the lower thin film layer, and then drying the droplets that form the upper thin film layer on the lower thin film layer to laminate the upper thin film layer over the lower thin film layer.

Abstract: The present invention provides a resin porous membrane with an adhesive layer that exhibits excellent bonding precision and can be bonded to an adherend while maintaining the gas permeability of the porous membrane even when the porous membrane is small, and a method for producing the resin porous membrane with the adhesive layer. The present invention also provides the filter member including the resin porous membrane with the adhesive layer.

Abstract: Provided are microfluidic devices and methods for fabricating and bonding such devices. Also provided are kits for analyzing analyte-containing samples and for lysing cells.

Abstract: A method and an apparatus for easily making a continuous oriented structure of a polymer are provided. In making a polymer assembly, single crystals are bonded to each other, an external force, such as an electrical field or a magnetic field, is applied to the single crystals, or a solution of the polymer is applied on a substrate such that the applied solution is linear in shape.

Abstract: A first electro-optic display comprises first and second substrates, and an adhesive layer and a layer of electro-optic material disposed between the first and second substrates, the adhesive layer comprising a mixture of a polymeric adhesive material and a hydroxyl containing polymer having a number average molecular weight not greater than about 5000. A second electro-optic display is similar to the first but has an adhesive layer comprising a thermally-activated cross-linking agent to reduce void growth when the display is subjected to temperature changes. A third electro-optic display, intended for writing with a stylus or similar instrument, is produced by forming a layer of an electro-optic material on an electrode; depositing a substantially solvent-free polymerizable liquid material over the electro-optic material; and polymerizing the polymerizable liquid material.

Abstract: A metal-ceramic substrate for electrical circuits or modules includes at least one first outer metal layer forming one first surface side of the metal-ceramic substrate and at least one second outer metal layer forming one second surface side of the metal-ceramic substrate. The outer metal layers are bonded respectively by two-dimensional bonding with the surface sides of a plate-like substrate body.

Abstract: A method for making a carbon nanotube composite structure is provided. First, a matrix having a surface and a carbon nanotube structure are provided. The carbon nanotube structure is placed on the surface of the matrix. The carbon nanotube structure includes a plurality of carbon nanotubes. The carbon nanotube structure and the matrix are exposed to electromagnetic waves.

Abstract: A method for bonding members is provided. First, a first member having a first surface and a second member having a second surface are provided. A carbon nanotube structure is formed and is located between the first member and the second member, and the carbon nanotube structure contacting the first surface and the second surface. Then the carbon nanotube structure is exposed to electromagnetic waves.

Abstract: An apparatus and method are provided for splicing together old and new thermoformable sheets in order to supply a continuous thermoforming operation. The method for joining together thermoformable sheets includes: providing a first thermoformable sheet with a trailing edge and a second thermoformable sheet with a leading edge; forming a terminal edge portion with a hot element along the trailing edge and a complementary terminal edge portion along the leading edge by severing a scrap sheet from each portion; laterally retracting each scrap portion away from the trailing edge and the leading edge; and joining together the first thermoformable sheet and the second thermoformable sheet by interlocking together the terminal edge portion with the complementary terminal edge portion.

Abstract: A method of manufacturing part of a microelectromechanical system (MEMS) and such part manufactured by the method are provided. The method comprises preparing first and second base members; imparting liquid repellency for a liquid material to at least part of a bonding film non-formation region of the first base member to form a liquid repellent region thereon; supplying the liquid material onto the first base member to selectively form a liquid coating on a bonding film formation region of the first base member with the aid of the liquid repellency of the liquid repellent region; drying the liquid coating to obtain a bonding film on the bonding film formation region; and bonding the first and second base members together through the bonding film due to a bonding property developed in the vicinity of a surface of the bonding film by applying energy thereto to obtain the bonded body.

Abstract: A method of manufacturing an article comprises providing a first sheet, wetting the first sheet with a liquid precursor to provide a first wet sheet, and irradiating the first wet sheet in a pattern corresponding to a first cross section of the article such that the liquid precursor is at least partially converted to a solid in the first cross section. A second sheet is disposed adjacent to the first sheet. The method further comprises wetting the second sheet with the liquid precursor to provide a second wet sheet, and irradiating the second wet sheet in a pattern corresponding to a second cross section of the article such that the liquid precursor is at least partially converted to a solid in the second cross section. In particular the liquid precursor may be converted to a metal, ceramic, semiconductor, semimetal, or a combination of these materials.

Abstract: (a) A first Sn absorption layer (5) is formed on the principal surface of a first substrate (1), the first Sn absorption layer being made of metal absorbing Sn from AuSn alloy and lowering a relative proportion of Sn in the AuSn alloy. (b) A second Sn absorption layer (17) is formed on the principal surface of a second substrate (11) the second Sn absorption layer being made of metal absorbing Sn from AuSn alloy and lowering a relative proportion of Sn in the AuSn alloy. (c) A solder layer (7) made of AuSn alloy is formed at least on one Sn absorption layer of the first and second Sn absorption layers. (d) The first and second substrates are bonded together by melting the solder layer in a state that the first and second substrates are in contact with each other, with the principal surfaces of the first and second substrates facing each other.

Abstract: A method of making a multi-layer circuit board that has a first film and at least two more films, second and third films, each being made of a thermoplastic polymer capable of forming an optically anisotropic melt phase, the first film having a low melting point, the second and third films having respective melting points higher than the melting point of the first film and at least one of the second and the third films having a circuit pattern thereon, and the first to third films are thermo compressed together with the first film interposed between the second and third films. This method entails causing at least one of the circuit patterns on one of the second and third films to contact an opposing surface of the other of the second and third films through the first film during the thermo compression bonding of the first to third films.

Abstract: A method of and apparatus for forming a bag assembly by RF welding. A single source of RF energy is used to generate a high frequency electric field having a first strength between tube-welding electrodes of opposing die members and a second strength less than the first strength between perimeter-welding electrodes of the opposing die members. Respective portions of the bag assembly are subjected to this variable-strength field simultaneously so that the bag assembly is formed in one welding operation. Stand-offs are used in some embodiments to limit penetration of the electrodes into the weld areas.

Abstract: The present invention provides an oriented substrate for forming an epitaxial thin film thereon, which has a more excellent orientation than that of a conventional one and a high strength, and a method for manufacturing the same. A clad textured metal substrate for forming the epitaxial thin film thereon according to the present invention comprises a metallic layer and a nickel layer which is bonded to at least one face of the metallic layer, wherein the nickel layer has a {100}<001> cube texture in which a deviating angle ?? of crystal axes satisfies ???7 degrees and has a nickel purity of 99.9% or more. The oriented metal substrate is manufactured by cold-working the nickel sheet having a purity of 99.9% or more, heat-treating it for orientation, and bonding the metal sheet with the oriented nickel sheet by using a surface activated bonding process.

Abstract: A polarizing plate comprising a polarizing film having thereon a retardation film containing a plasticizer and a cellulose ester, wherein a free volume radius of the retardation film determined by positron annihilation lifetime spectroscopy is in the range of 0.250-0.310 nm.