Abstract: A joint system includes: a transfer-in/out station capable of holding a plurality of substrates or a plurality of superposed substrates, and transferring-in/out the substrates or superposed substrates to/from a processing station; and the processing station performing predetermined processing on the substrates and joining the substrates together. The processing station includes: a surface activation apparatus activating a front surface of the substrate; a surface hydrophilizing apparatus hydrophilizing and cleaning the front surface of the substrate; a joint apparatus joining the substrates together; and a transfer region for transferring the substrate or superposed substrate to the surface activation apparatus, the surface hydrophilizing apparatus, and the joint apparatus.

Abstract: A multilayer protective film comprising a first layer, a second layer and a PSA layer. The first layer at least comprises a polyester-based polyurethane, a polycarbonate-based polyurethane or a combination or blend of both. The second layer at least comprises a polycaprolactone-based thermoplastic polyurethane. The PSA layer comprises a pressure sensitive adhesive. One major surface of the first layer is bonded to one major surface of the second layer, and the PSA layer is bonded to an opposite major surface of the second layer such that the second layer is sandwiched between the first layer and the PSA layer.

Abstract: The invention provides an in mould label for injection moulding that comprises a vacuum metallised layer of metal for creating a barrier to oxygen ingress. The invention further provides a moulded article including such an in-mould label, as well as a method of manufacture of such an article.

Abstract: A system for treating a tissue site includes a reduced-pressure source to apply reduced pressure, a manifold in fluid communication with the pressure source to provide reduced pressure to the tissue site, and a drape for adhering to the tissue site to cover the tissue site and the manifold. The drape includes an adhesive layer for sealing the drape to the tissue site to create a sealed space having the manifold therein, and a non-adhesive layer formed from a portion of the adhesive layer. A method for manufacturing a medical drape includes providing a sheet of adhesive material and treating a side of the sheet of adhesive material to form a non-adhesive layer and an adhesive layer. The method laminates a release liner adjacent the adhesive layer.

Abstract: The present disclosure relates to a microvalve using surface tension, a microfluidic chip including same and a method for manufacturing same. More particularly, the present disclosure relates to a microvalve using surface tension, a microfluidic chip including same and a method for manufacturing same, wherein the microvalve can be manufactured through a simple process and the microvalve and a coaxial sample channel are not separated, and thus the microvalve may be easily installed not only in an existing quadrangular channel but also in the coaxial channel so as to control the flow and amount of a microfluid (sample).

Abstract: The bonding method of two silicon-based surfaces includes the steps of: subjecting at least one of the surfaces to surface activation treatment by means of an oxygen plasma comprising chlorine, the dilution percentage by volume of the chlorine in the oxygen of the plasma being from 0.25 to 10%, preferably from 1 to 3%, placing the treated surfaces in contact.

Abstract: A bonded substrate structure includes a siloxane-based monomer layer between a first substrate and a second substrate, the siloxane-based monomer layer bonding the first substrate and the second substrate. The first substrate and the second substrate may be one of a silicon substrate and a silicon oxide substrate, respectively.

Abstract: The invention comprises a method of manufacturing a sample chamber, comprising the steps of: providing a first (20) and a second (30) component, the first component (20) comprising an elastomer; treating the elastomer in the region of a contact surface of the first component (20) and/or treating a contact surface of the second component (30) with a plasma, with plasma waste gas, and/or with a reactive gas; and connecting the contact surface of the first component (20) with the contact surface of the second component (30).

Abstract: The invention relates to a method for manufacturing a microfluidic chip, wherein said method comprises the steps of: providing a plate combined with a layer of inorganic silica gel of formula: (HsiO3/2)2n where n is an integer, and providing a lid; chemically activating the layer of silica gel and the lid, in order to make the layer of gel and the lid hydrophilic; mechanically combining the layer of gel and the lid to form a chip, such that the layer of gel forms an intermediate layer between the plate and the lid; annealing the chip, such that the layer of silica gel transforms into an intermediate layer made up of a SiO2 matrix for rigidly securing the plate to the lid. The invention also relates to a related chip and plate.

Abstract: The invention relates to a double-sided adhesive tape having a first outer, pressure-sensitive adhesive side and a second outer, thermally-activatable side, and that comprises an at least dual-layered product construction consisting of layers A and B, layer A being a pressure-sensitive adhesive layer that is chemically cross-linked by thermal initiation, or being a pressure-sensitively adhesive carrier layer chemically cross-linked by thermal initiation, layer B being a thermoplastic synthetic material-based layer, layers A and B being in direct contact with one another, and the surface of layer A, which is in direct contact with layer B, having been corona or plasma pre-treated. The corona or plasma pre-treatment takes place in an atmosphere of nitrogen, carbon dioxide or a noble gas, or a mixture of at least two of these gases. The inventive adhesive tape is useful for adhesively bonding articles composed of thermoplastic polymer, of EPDM, or of another rubberlike material.

Abstract: One object is to provide a method for providing a water- and oil-repellent layer on an amorphous carbon film with excellent fixity. A method according to an embodiment of the present disclosure includes the steps of: preparing a substrate; providing, directly or indirectly on the substrate, an amorphous carbon film layer containing silicon and nitrogen in at least a surface thereof; and providing a water- and oil-repellent layer containing fluorine on the amorphous carbon film layer via a coupling agent capable of forming, with the amorphous carbon film layer, hydrogen bonds based on polarity and/or —O-M bonds (M is any one element selected from the group consisting of Si, Ti, Al, and Zr) by condensation reaction with functional groups of the amorphous carbon film.

Abstract: A prepared mold tool having a thermoplastic surface layer polymer coating on the mold surface of the mold tool or prepared prepreg having a thermoplastic surface layer polymer coating on the surface of the thermoplastic fiber reinforced prepreg are described that enhance first ply laydown of thermoplastic fiber reinforced composite prepregs onto mold tools for prepreg forming or in situ tape placement. Resulting thermoplastic fiber reinforced composite parts from a thermoplastic fiber reinforced thermoplastic composite material having structural reinforcement fibers with one or more high performance polymers, and a thermoplastic surface layer polymer coating which forms a polymer blend with the high performance polymers of the thermoplastic fiber reinforced composite material thereby imparting improved properties, and methods for making and using same, are provided herein.

Abstract: A non-adherent cell support for use as a substrate in fluidic chambers used for cell culturing and assays. The non-adherent cell support allows for the formation of sphere cultures from single cells, which can better mimic primary tumor-like behavior in the study of cancer stem cells. The non-adherent cell support can allow for adhesive culturing and may include a hydrophobic substrate having a lower body and a raised support structure extending upwardly from an upper surface of the body. The support structure comprises one or more vertically extending support members that extend from a proximal portion at the upper surface of the body to a distal end spaced from the upper surface of the body. The support structure may be formed from a biocompatible material such as poly-2-hydroxyethyl methacrylate, polydimethylsiloxane, polymethyl methacrylate, polystyrene, or a polyethylene glycol diacrylate-based hydrogel.

Abstract: A process increases adhesion between a layer of pressure-sensitive adhesive and a substrate, wherein the layer of pressure-sensitive adhesive has a first surface facing away from the substrate and a second surface facing toward the substrate and a third surface of the substrate. The process treats (i) the second surface of the layer of pressure-sensitive adhesive that faces toward the substrate and (ii) the third surface of the substrate with atmospheric-pressure plasma, and adhesive bonds the layer of pressure-sensitive adhesive to the third surface of the substrate.

Abstract: A cover tape includes a polymer film substrate having first and second opposed major surfaces. A primer layer is disposed on the first major surface of the polymer film substrate. A static control layer is disposed on the primer layer, the static control layer comprising carbon nanotubes dispersed in a dielectric polymeric binder, wherein the static control layer has a thickness of from 0.1 to 2 microns. Adhesive strips are disposed on the static control layer adjacent opposite edges of the static control layer. Methods of making cover tapes according to the present disclosure, and component packages including them, are also disclosed.

Abstract: Prepregs comprising fibrous reinforcing material and a heat curable resin are provided with a backing sheet whose surface has been treated to increase the surface tension which enhances the bonding between the prepreg and the backing sheet, and reduces resin removal when the backing sheet is removed. The use of the treated backing sheet also provides improved tack between prepregs when assembled in a stack for moulding after removal of the backing sheet.

Abstract: A method of disposing catalyst in a reformer is disclosed. The method of disposing catalyst comprises the steps of providing a silicon-based substrate with a predetermined pattern thereon; providing a cover with an inlet hole and an outlet hole therein; bonding the silicon-based substrate with the cover; and disposing a catalyst solution on a wall of the predetermined pattern by centrifuging in a predetermined speed for a predetermined time so as to obtain a catalyst layer with a gradient-thickness on the wall.

Abstract: The invention provides a laminate of a substrate, a polyimide film, and a coupling treatment layer interposed therebetween, which provides different delamination strengths between the substrate and the polyimide film to form a prescribed pattern. The invention also provides a method for producing such a laminate formed from at least a substrate and a polyimide film, whereby, using a film obtained by plasma treatment of at least the surface facing the substrate as the polyimide film, coupling agent treatment is performed on at least one of the surfaces facing the substrate and the polyimide film to form a coupling treatment layer, deactivation treatment is performed on a portion of the coupling treatment layer to form a pre-determined pattern, and then pressing and heating are performed with the substrate and polyimide film overlapping.

Abstract: A composite material is described. The composite material has a layer of polymeric piezoelectric material, where such polymeric piezoelectric layer has a first surface and a second surface, a textile substrate, and a first electrode disposed on the first surface of the polymeric piezoelectric layer. Conductors are provided on a surface of the textile substrate turned towards the second surface of the layer of polymeric piezoelectric material.

Abstract: The invention provides an in mould label for injection moulding that comprises a vacuum metallised layer of metal for creating a barrier to oxygen ingress. The invention further provides a moulded article including such an in-mould label, as well as a method of manufacture of such an article.

Abstract: A 3D microelectrode device includes a flexible substrate containing poly-dimethyl siloxane (PDMS). The device may be fabricated in a miniature form factor suitable for attachment to a small organ such as a lateral gastrocnemius muscle of a live rat. In addition to providing a miniaturized, conformable attachment, the device provides an anchoring action via one or more microelectrodes, each having an insertable tip particularly shaped to provide the anchoring action. Furthermore, a base portion of each of the microelectrodes is embedded inside conductive poly-dimethyl siloxane (cPDMS). The cPDMS is contained in a pad that is coupled to a conductive track embedded in the flexible substrate. Embedding of the base portion inside the cPDMS material not only allows the microelectrode to bend in various directions, but also provides good electrical conductivity while eliminating the need for attachment processes using solder or epoxy adhesives.

Abstract: An activating treatment method for an optical film includes feeding the optical film along a roll, and subjecting the optical film to the activating treatment from a side of the optical film that is opposite to a side of the optical film at which the roll is located. The activating treatment is conducted while the roll is cooled.

Abstract: Provided are graphene-based nanopore and nanostructure devices, which devices may include an insulating layer disposed atop the graphene, which can be in a planar shape or nanostructured into a ribbon or other shapes, containing a single graphene layer or several layers. Graphene layers and nanostructures can be placed nearby horizontally or stacked vertically. Also provided are related methods of fabricating and processing such devices and also methods of using such devices in macromolecular analysis.

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

Abstract: A laminate production method using a surface-modified film includes the step of laminating a first substrate and a second substrate on each other, where the first and second substrates have thermoplastic resin films or cellophane films and are different in type from each other. One of the first and second substrates has a surface with a heat-bonding-modified layer formed by surface modification using an atmospheric plasma treatment apparatus. The other of the first and second substrates has an air corona-treated surface. The first and second substrates are individually fed from respective rolls of film, which are obtained by respectively winding the first substrate and the second substrate. The surface having the heat-bonding-modified layer faces the air corona-treated surface, and the first and second substrates are thermocompression-bonded together using a heated roller without applying an adhesive or anchoring agent to perform a continuous lamination.

Abstract: To provide a stent delivery system that can limit/prevent drop-off or shifting of a stent from the balloon. A stent delivery system that is equipped with a main tube-shaped shaft, a balloon provided on the tip of the main shaft, and a stent fitted so as to encircle the balloon, wherein a layer for preventing stent drop-off containing a compound with multiple thiol groups is formed on at least a portion of the balloon surface, and at least the portion of the stent that contacts the stent drop-off preventing layer is made of metal.

Abstract: A method for bonding of a first contact surface of a first substrate to a second contact surface of a second substrate according to the following steps: forming a reservoir in a surface layer on the first contact surface, at least partially filling the reservoir with a first educt or a first group of educts, contacting the first contact surface with the second contact surface for formation of a prebond connection, and forming a permanent bond between the first and second contact surface, at least partially strengthened by the reaction of the first educt with a second educt contained in a reaction layer of the second substrate.

Abstract: A resin-bonded body of a fuel injection apparatus includes a first resin material and a second resin material, which are bonded together and have different properties, respectively. The resin-bonded body has a fuel seal portion to limit leakage of fuel from a boundary surface between the first resin material and the second resin material to an outside. The fuel seal portion is formed in a portion of the boundary surface and is surface-modified to increase hydrophilicity of the fuel seal portion.

Abstract: Method of bonding a layer (S) of silicone to a substrate (4?) of methacrylic polymer; the method involves positioning between the methacrylate polymer and the silicone a layer (9) of an organosilane having the formula R1Si(R2)3, in which R2 is OH and R1 is a methacrylic residue.

Abstract: Fabrics made for apparel, tents, sleeping bags and the like, in various composites, constructed such that there is at least one metal layer, forming a radiant barrier to reduce heat loss via radiation from the human body, and insulating this metal layer from heat loss via conduction, and a process for its manufacture.

Abstract: A process for manufacturing a polarized optical device and the resulting optical device. In the process, an optical device is coated with an adhesive. A PVA polarizing film is moistened to render it formable. The PVA polarizing film is laminated on to the adhesive coating so that the PVA polarizing film forms to the shape of the optical device. The film, adhesive, device ensemble is then heat annealed. The PVA polarizing film is then contacted with a boric acid solution to crosslink the PVA so that it can withstand use and further processing. A polarized optical device includes an adhesive disposed between an optical base element and a PVA polarizing film.

Abstract: Provided is a laser bonding method which is a highly reliable laser bonding method for a thermoplastic resin and a metal, wherein the adhesiveness at an interface between a thermoplastic resin and a metal is improved to prevent peeling due to heat stress at the time of bonding. Accordingly, the method includes a step of forming an oxide layer having a higher oxygen functional group content than a bulk thermoplastic resin by subjecting at least a thermoplastic resin on the side of a bonding interface to a surface modification treatment prior to bonding, and the thermoplastic resin and a metal are bonded to each other by applying pressure and irradiating a laser in a state where the surface energy of the metal on the bonding surface side is increased to be larger than that of the thermoplastic resin having the oxide layer formed thereon.

Abstract: The invention relates to a method for joining objects made of metal, plastic, hybrid structures or ceramic by means of heat input such as soldering or welding, wherein materials such as particles, in particular nanoparticles, elements, atoms, molecules or ions are introduced into the joint. It is proposed according to the invention that a gas stream brings gaseous compounds to the joint which decompose at elevated temperature and deposit particles as heat is being applied to the joint.

Abstract: Provided herein are technologies generally relating to creating connections and/or associations. In some examples, the embodiments can relate to a circuit that includes a surface, a first electrical contact that is attached to the surface, a glass substrate, a second electrical contact that is attached to the glass substrate, and at least one elastomer layer. In some embodiments, the elastomer layer can provide or assist in creating a contact between the first electrical contact and the second electrical contact.

Abstract: There is disclosed a composite comprising a first substrate comprising a formed resin body containing a silicone-modified resin, and a second substrate having a to-be-joined surface joined'to a to-be-joined surface of the first substrate, wherein the to-be-joined surface of the first substrate, or the to-be-joined surfaces of the first and second substrates has/have been subjected to application of one or more of an ultraviolet light irradiating treatment, a corona treatment, and a plasma treatment. As a result, there is provided a composite and an expedient production method of such a composite, which composite comprises a substrate comprising a formed resin body containing a silicone-modified resin, and another substrate joined to the firstly mentioned substrate in a strong manner with excellent durability therebetween.

Abstract: An electrode bonding method according to the present invention includes: a plasma cleaning step of irradiating an electrode surface to be cleaned of at least either one of a part, such as a semiconductor device, and a substrate with atmospheric pressure plasma for cleaning; an inert gas atmosphere maintaining step of covering the electrode surface to be cleaned and its vicinity with a first inert gas before the irradiation of the atmospheric pressure plasma is ended, and maintaining that state even thereafter; and a bonding step of bonding an electrode of the part and an electrode on the substrate before the inert gas atmosphere maintaining step is ended. The electrode surface is thereby plasma-cleaned without the possibility of damaging the part to be bonded to the substrate, and the cleaned state is maintained while bonding the electrodes to provide an electrode bonding state of high bonding force and high reliability.

Abstract: A bonding unit (20) bonding a wafer (12) and a support plate (14) with a mediation of an adhesive agent (16) to form a bonded substance (18), and a plasma treatment unit (22) treating the bonded substance (18) with a plasma treatment are provided.

Abstract: Disclosed herein is an improved, metallized polymer film and method for preparing the same. Such films comprise a) at least one treated polymeric skin layer comprising butylene, and b) a metal layer deposited onto at least one surface of this polymeric skin layer. The polymeric skin layer can comprise a propylene-butylene copolymer or an ethylene-propylene-butylene terpolymer, with this copolymer or terpolymer containing from about 4 wt % to about 12 wt % of butylene. The polymeric skin layer is preferably preconditioned by subjecting an outermost surface thereof to plasma treatment which facilitates the deposition thereon of a strongly adhering metal layer which is preferably aluminum. The resulting multi-layer films exhibit metal adhesion bond strength of at least about 100 grams/25 mm. These films will preferably also exhibit a Water Vapor Transmission Rate of from about 0.05 to about 0.2 g/m2/24 hour, and an Oxygen Transmission Rate of from about 5.0 to about 20 cm3/m2/24 hour.

Abstract: The invention relates to a method for manufacturing a microfluidic chip, wherein said method comprises the steps of: providing a plate combined with a layer of inorganic silica gel of formula: (HsiO3/2)2n where n is an integer, and providing a lid; chemically activating the layer of silica gel and the lid, in order to make the layer of gel and the lid hydrophilic; mechanically combining the layer of gel and the lid to form a chip, such that the layer of gel forms an intermediate layer between the plate and the lid; annealing the chip, such that the layer of silica gel transforms into an intermediate layer made up of a SiO2 matrix for rigidly securing the plate to the lid. The invention also relates to a related chip and plate.

Abstract: There is provided a dimensionally stable laminated paperboard material having a tear-resistant polymer film core. The tear-resistant paperboard laminate is a multi-layer paperboard laminate with an integral polymer core having a tear resistance a thickness of at least 1 mil and a tear resistance of at least 350 grams of force in machine direction and 400 grams of force in cross direction, as measured by the Elmendorf tear propagation test. Two paperboard substrates are bonded on respective opposite sides of the polymer core, to provide printability, facilitate adherence and prevent frictional resistance. The multi-layer paperboard-polymer-paperboard laminate is particularly useful for child-resistant, senior-friendly and pilfer-proof packaging and may be printed on, hot-stamped, embossed, die-cut and glued using conventional printing and converting techniques. An adhesive laminating process and an extrusion laminating process for manufacturing the laminate are also disclosed.

Abstract: A multilayer article including a thermoplastic layer having a first surface and a second surface opposite the first surface and a base layer have a first base surface and a second base surface opposite the first base surface, wherein the first base surface of the base layer is permanently bonded to the second surface of the thermoplastic layer, wherein the thermoplastic layer has a first glass transition temperature, Tg1, and wherein the multilayer article is rigid at temperatures less than Tg1 and is flexible at temperatures greater than Tg1.

Abstract: The present invention relates to methods for joining and for improving interfacial strength of joints in objects of fibre-containing composite materials, such as epoxy/glass fibre composite materials of a wind turbine blade, as well as fibre reinforced composite materials, laminates and other interconnected objects prepared by this method. In particular wind turbine blades prepared by this method are described. The present invention further relates to robots and robotic tools for carrying out the described methods for joining objects of fibre-containing composite materials.

Abstract: Self-adhesive tape comprising a laminate composed of at least two pressure-sensitive adhesive (PSA) layers A and B laminated directly to one another, one or both of the surfaces to be laminated to one another of the PSA layers A and B having been chemically and/or physically pretreated prior to lamination, and the shear strength tSA/B of the self-adhesive tape at 25° C., 40° C. and 70° C. under a weight load of 1000 g being at least 80% of the shear strength tSo of the PSA layer A and/or of the PSA layer B, where tSo represents the shear strength of the PSA layer having the lower shear strength.

Abstract: An encapsulation for an organic electronic component, characterized in that the component, encapsulated in a dimensionally stable capsule, is at least partially covered with a protective film.

Abstract: To provide a microchip for a nucleic acid amplification reaction which allows high-precision analysis by a simple method. There is provided a microchip A for a nucleic acid amplification reaction including an entrance through which a liquid enters from the outside, a plurality of wells configured to function as reaction sites of nucleic acid amplification reaction, and flow channels through which the liquid entered from the entrance is fed into each of the wells, in which a plurality of reagents needed for the reaction are laminated and anchored in a prescribed order in each well.

Abstract: A method for coating workpieces (10), preferably in sheet form, which preferably consist at least in certain portions of wood, wood-based materials, plastic or the like, with the following method steps: providing a workpiece (10) having at least one workpiece surface (12), in which the workpiece surface (12) is improved by applying at least a first curable liquid to the workpiece surface (12) and at least partially curing the first liquid (16); exposing the workpiece (10) to energy, at least on the workpiece surface (12) and/or a coating (14) that is intended to be applied to the workpiece surface (12); and applying the coating (14), in particular of an edge (14), to the liquid-coated workpiece surface (12) and preferably pressing the edge (14) onto a liquid-coated workpiece surface (12).

Abstract: The subject of the invention is a method for fabricating a composite laminate part, consisting in coating a steel sheet of which the thickness is less than 0.65 mm, with an adhesive polymer film of which the thickness is at least 0.1 mm, in order to form a composite laminate steel sheet, and then forming this composite laminate sheet by drawing in order to obtain said composite part.

Abstract: The present invention relates to a process for producing a resin composite molded article comprising bonding a molded article (A) of a resin A which contains a polymer containing an alicyclic structure and a molded article (B) of a resin B to produce a resin composite molded article, the bonding including a step 1 of applying at least one activation treatment selected from plasma application, excimer ultraviolet irradiation, and corona discharge to the bonding surface of the molded article (A), followed by a treatment with a silane coupling agent (A), a step 2 of applying at least one activation treatment selected from plasma application, excimer ultraviolet irradiation, and corona discharge to the bonding surface of the molded article (B), and a step 3 of superposing the bonding surface of the molded article (A) on the bonding surface of the molded article (B), and press-bonding the bonding surfaces.

Abstract: The present invention relates to a biomedical device for the distribution or containment of biological substances comprising at least two components assembled each other with an adhesive composition comprising a mixture of an acrylic adhesive composition and an epoxy adhesive composition, and particularly thermal or piezoelectric ejecting devices, and biochip microarray.

Abstract: A method for laminating a functional film on to an optical base element and a tri-layer adhesive system for use in the method. The tri-layer adhesive includes a first latex adhesive layer disposed on the functional film and a second latex adhesive layer disposed on the optical base element. An HMA layer is disposed in between the latex layers to form a tri-layer adhesive to permanently retain the functionalized film on the optical base element. The method includes first coating a latex adhesive on the functional film and second coating a latex adhesive on the optical base element. An HMA is then coated on to one of the dried latex adhesive layers. The film is hot pressed on to the optical base element with the HMA sandwiched in between the latex layers to form a laminated optical device.