Abstract: A laboratory automation system is described, comprising an automatic conveyor belt sliding within a sliding profile of a lane, and a coating tape interposed between the automatic conveyor belt and the sliding profile. The profile includes a first region onto which a coating tape is applied by gluing.

Abstract: Electronic devices may be provided with displays that have polarizers. A polarizer may have a polymer layer that has a portion covered with a dichroic dye to form a polarized region and a portion that is free of dichroic dye to form an unpolarized region. The unpolarized region may be formed by masking the polymer layer during a dye coating process. Masks may be formed from polymers. The shape of the mask may define the shape of the unpolarized region. The mask may be left in place within the polarizer or may be removed from the polarizer during fabrication. Unpolarized regions may also be formed by light bleaching, chemical bleaching, and material removal techniques. Bleached areas may be chemically stabilized. A moisture barrier layer may be incorporated into the polarizer to help prevent the unpolarized region from reverting to a polarized state.

Abstract: A method of manufacturing a flexible display panel includes forming an adhesive layer by depositing an inorganic material on a flexible substrate, forming a hydroxyl group on a surface of the adhesive layer by modifying the surface of the adhesive layer, laminating a glass substrate to the modified surface of the adhesive layer and forming a heat-treated layer by heating the glass substrate and the adhesive layer.

Abstract: A composite comprising adhered components and method of refurbishing such composites are described herein. The composite includes a first component, a second component, and the first component being adhered to the second component using an adhesive stack. The adhesive stack comprises a first adhesive-impregnated scrim layer disposed between the first component and the second component and a bulk adhesive layer disposed between the first component and the second component.

Abstract: A process for coating a substrate comprising the sequential steps of (a) providing a transfer sheet provided with a printed powder coating, (b) applying the transfer sheet onto the substrate with the powder coating in contact with the substrate, (c) removing the transfer sheet from the powder coating and (d) curing the powder coating on the substrate.

Abstract: A method of transferring graphene is provided. A method of transferring graphene in accordance with an exemplary embodiment of the present invention may include forming a graphene layer by composing graphene and a base layer, depositing a self-assembled monolayer on the graphene layer, and separating a combination layer comprising the self-assembled monolayer and the graphene layer from the base layer.

Abstract: A method of producing an optical panel assembly including the polarizing film in a continuous manner by laminating a polarizing film to a surface of a rectangular-shaped optical panel, is disclosed. The polarizing film is formed by performing a step of subjecting a laminate including a continuous web of a thermoplastic resin substrate and a PVA type resin layer formed on the substrate, to a 2-stage stretching consisting of a preliminary in-air stretching and an in-boric-acid-solution stretching, to reduce a thickness of the PVA type resin layer to 10 ?m or less, and a step of causing a dichroic material to be absorbed in the PVA type resin layer.

Abstract: A label assembly having a first configuration comprising a facestock layer having an upper surface and a lower surface, an adhesive layer having an upper surface and a lower surface, the upper surface of the adhesive disposed adjacent to the lower surface of the facestock layer, a tack varnish layer overlying the upper surface of the facestock, a liner assembly comprising a release liner overlying the adhesive layer, the release liner comprising a liner layer having an upper surface and a lower surface, the upper surface comprising a release coating layer, the release coating layer being disposed adjacent to the adhesive layer, and a tack coating layer overlying the lower surface of the liner layer.

Abstract: A method and a device for application of a label to an object, comprising: moving the object from a storing position to a labeling position; back-feeding and printing a label arranged at a continuous liner; moving the liner across a peeling edge, whereby the label is peeled off from the liner; transferring the label from the liner to the object; and removing the object from the labeling position to a removal position.

Abstract: A polarizing multilayer film is provided. The polarizing multilayer film comprises a first adhesive layer, a second adhesive layer, a polarization layer which is arranged between the first and second adhesive layers, a first separating film which is removably arranged on a side of the first adhesive layer remote from the polarization layer, and a second separating film which is removably arranged on a side of the second adhesive layer remote from the polarization layer. There are further provided a method of using the polarizing multilayer film and a method for producing a screen, a light-emitting decorative element or another device using the polarizing multilayer film.

Abstract: Provided is a process for producing an adhesive sheet having a singulated adhesive layer (b) on a carrier film (a), comprising the following steps in the order mentioned: Step A: cutting an adhesive film having a carrier film (a), an adhesive layer (b), and a cover film (c) in the order mentioned locally only at the adhesive layer (b) and the cover film (c) by means of local half-cutting; Step B: peeling only the cover film (c) at unwanted parts of the adhesive film; Step C: applying adhesive tape to the side of the cover film (c) of the adhesive film; and Step D: peeling the adhesive layer (b) at unwanted parts and the cover film (c) at desired parts of the adhesive film together with the adhesive tape. Also provided are a process for producing an adhesive sheet comprising a singulated adhesive disposed at a specific position, and equipment for producing an adhesive sheet.

Abstract: A sling label comprises a single layer label portion having an upper surface and a lower surface, a cut in the label portion forming a sling, and adhesive on the lower surface of the label portion. The adhesive is inactivated on the lower surface of the label corresponding to the position of the sling. Further, a method for making a sling label comprises placing a single layer label portion over a backing layer so that the label portion adheres to the backing layer by means of the adhesive, and inactivating a portion of the adhesive on the lower surface of the label portion. A diecut is made in the label portion where the adhesive on the lower surface of the label portion has been inactivated, and the label portion is re-fastened to the backing layer.

Abstract: An embodiment of the inventive method of transfer lamination bonding a first metallized side of a film to a substrate. Then a breakaway coating is applied to a second, non-metallized side of the film after the first metallized side has been bonded to the substrate. The bonded film and substrate are then placed in an oven. The film is then stripped from the substrate leaving metal from the film deposited on the substrate. The application of the breakaway coating is performed as an inline part of the transfer lamination process thereby providing an ease of manufacture presently unknown.

Abstract: Improved methods and apparatus are provided for the production of prepreg slit tape wherein master rolls of prepreg sheet are formed which are capable of being slit, with liner attached, at high precision.

Abstract: An adhesive strip, with improved barrier effect, encapsulates electronic arrangements against permeates, whereby the composite system comprises at least (a) an adhesive strip containing at least one pressure-sensitive adhesive substance for direct application on a substrate; and (b) at least one release liner which lies directly upon the pressure-sensitive adhesive substance, wherein the surface of the release liner, that faces the pressure-sensitive adhesive substance, has a surface roughness of less that 100 nm, measured as an arithmetic mean Sa as per ISO/FDIS 25178-2:2011 of the amounts of at least 10,000 height values of the profile of a partial surface of at least 200 ?m×200 ?m. A method produces a release liner with a smooth surface for equipping barrier adhesive strips by removing the liner in order to encapsulate electronic arrangements with the adhesive strip.

Abstract: A nasal dilator comprises a laminate of vertically stacked layers each comprising at least one member or component. The layers form a unitary, or single body, truss. The truss features horizontal regions adapted to engage outer wall tissues of first and second nasal passages and to traverse the bridge of a nose therebetween. The dilator acts to stabilize and/or expand the nasal outer wall tissues and prevent said tissues from drawing inward during breathing. Dilator members, including components thereof, are configured to dimensional criteria suitable to engage and provide effective dilation to nasal passages, that create lateral and longitudinal registration of dilator members or components during manufacture, and that facilitate manufacture with minimal material waste. Methods of manufacture further include progressive steps that fabricate and assemble components into finished devices, including user assembly thereof.

Abstract: A method produces adhesive tapes which are adhesive at least on one side, wherein an adhesive tape web, in which the at least one adhesive side is covered by a first liner, is guided into a cutting device in which a total of N individual adhesive tape strips located next to one another are produced in the machine direction from the adhesive tape web. Every other adhesive tape strip is removed from the first liner and is applied to a second liner in each case having a spacing a between the individual adhesive tape strips. The liners are cut between the adhesive tape strips located on the first liner and on the second liner, and the individual adhesive tapes, together with the liner strips, are wound up in a total of X rolls in a form of an Archimedean spiral.

Abstract: A flexible display device includes a protection film and a display panel, and the protection film includes a carrier film and an adhesive layer on the carrier film and including a plurality of adhesive dots separated from each other.

Abstract: A form for mailing a mailpiece using a special service has a sheet and a label removably attached to the sheet. The label has information related to the delivery of the article by the special service on the front side. The back side of the label attaches to the article. An electronic return receipt information section and a special services designation section including information indicative of the special service are located on the label. The mailpiece is prepared for delivery by the special service by printing information on the form necessary to comply with the special service delivery requirements. The information has data concerning electronic return receipt of the mailpiece and a machine-readable code section with machine-readable information associated with the mailpiece. The form is removed from the sheet and attached to the mailpiece.

Abstract: The present invention relates to a film for semiconductor device production, which includes: a separator; and a plurality of adhesive layer-attached dicing tapes each including a dicing tape and an adhesive layer laminated on the dicing tape, which are laminated on the separator at a predetermined interval in such a manner that the adhesive layer attaches to the separator, in which the separator has a cut formed along the outer periphery of the dicing tape, and the depth of the cut is at most ? of the thickness of the separator.

Abstract: A method for transferring a graphene layer from a metal substrate to a second substrate is provided comprising: providing a graphene layer on the metal substrate, adsorbing hydrogen atoms on the metal substrate by passing protons through the graphene layer, treating the metal substrate having adsorbed hydrogen atoms thereon in such a way as to form hydrogen gas from the adsorbed hydrogen atoms, thereby detaching the graphene layer from the metal substrate, transferring the graphene layer to the second substrate, and optionally reusing the metal substrate by repeating the aforementioned steps.

Abstract: A method for manufacturing an RFID tag integrated into an artwork includes steps of selectively coating a watertight layer on a periphery of the artwork; printing a conductive ink on a surface of a polyethylene terephthalate film; heating the printed conductive ink on the surface of the polyethylene terephthalate film, and curing the conductive ink as an antenna of the RFID tag; removing the antenna from the polyethylene terephthalate film to be packaged as the RFID tag with an RFID chip; pasting the RFID tag on the periphery of the artwork with AB adhesive provided on an interface between the RFID tag and the artwork; and coating a protective layer on a periphery of the RFID tag to prevent exposure to the air.

Abstract: A shield that is attachable to a touch sensitive screen is disclosed. The shield may be attached to the touch sensitive screen only at its outer peripheral portion. An air gap is enclosed between the shield and the touch sensitive screen to form a planar air bearing. The shield preferably does not touch the active area of the touch sensitive screen when the user is not touching the shield but only viewing the touch sensitive screen through the shield. This mitigates unwanted optical artifacts such as trapped air bubbles, Newton rings and chromatic interference while maintaining the sensitivity of the touch sensitive screen.

Abstract: Hang tags are provided for mounting on merchandise in a retail setting. The hang tags include a card with a plurality of edges, with a region of reinforcing material located at or adjacent to the top edge of the card, surrounding an aperture through which a fastener is received. The region defines the shape of a pair of intersecting elongated shapes such as ovals or ellipses, thereby positioning the reinforcing material in the locations where it is most needed to prevent theft-based removal of the tag from the merchandise, while omitting reinforcing material from the locations where it is not needed. Also provided is an attachment device, such as an applicator gun, for substantially simultaneously applying the reinforcing material to the tag and fastening the tag to a piece of merchandise.

Abstract: A particulate contamination measurement method and apparatus are discussed. The method, for example, comprises pressing a measurement surface (5) of a polyurethane elastomer (2) against a surface (7) to be 2 measured, removing the polyurethane elastomer from the surface without leaving residues, then using an optical apparatus (11) to detect particles (8) which have been removed by the polyurethane elastomer from the surface and which have become attached to the polyurethane elastomer.

Abstract: Processing tapes have special properties to permit them to be used to prepare laminate articles, such as security articles. The processing tapes include a backing, a pressure sensitive adhesive layer and a release surface covering the pressure sensitive adhesive layer. The backing is a dimensionally stable transparent polymeric film, and the surface on which the pressure sensitive is coated may be a treated surface. The pressure sensitive adhesive is a transparent pressure sensitive adhesive that includes a crosslinked (meth)acrylate-based polymer and has a refractive index in the range of 1.45-1.55. The (meth)acrylate-based polymer includes alkyl (meth)acrylate monomers and may include acidic monomers.

Abstract: Film attaching apparatus and process for attaching the film by preparing a mother panel comprising a first panel, a second panel, and a third panel; preparing a first and a second set tables that are independently driven from each other on a moving path of the mother panel; preparing a first film that is to be attached to the first panel on the first set table; driving the first set table to attach the first film to the first panel; preparing a second film that is to be attached to the second panel on the second set table; driving the second set table to attach the second film to the second panel; preparing a third film that is to be attached to the third panel on the first set table; and driving the first set table to attach the third film to the third panel.

Abstract: A method for optically examining a birefringent specimen, the method comprising the steps of: collecting a specimen using a substantially non-birefringent polymer film having an adhesive surface, such that the specimen is attached to the adhesive surface; and examining, between crossed polars, the specimen attached to the said film. Also provided is a substantially non-birefringent laminate film comprising: a first birefringent polymer layer and a second birefringent polymer layer, the first and second layers being mutually oriented such that the birefringent properties of the two layers cancel each other out; and an adhesive surface; wherein the adhesive surface is an outer surface of the film, and/or is an exposable surface between the first and second layers. A method of manufacturing such a film is also provided.

Abstract: A method of placement of a component on a stretchable substrate is described. A base substrate, having a stretchable substrate layer, and a flexible foil, having an integral arrangement of multiple flexible foil components, are aligned, so as to be used in a reel based manufacturing process. Through lamination of the base substrate and the flexible foil an electro/optical via connection between in plane interconnecting traces on the stretchable substrate layer and component pads of the integral component arrangement is provided. The integral arrangement of flexible foil components are mechanically separated. The method may be used in a manufacturing process for multi-foil systems.

Abstract: A method for manufacturing a liquid-crystal display device in which at least an absorptive polarizing film is arranged on a viewing side of a rectangular liquid-crystal display panel and at least the absorptive polarizing film and a reflective polarizing film are arranged on a non-viewing side thereof, the liquid-crystal display panel having a long side and a short side and of VA mode or IPS mode is provided.

Abstract: The present invention relates to a security element for a security paper, a valuable article or the like having a substrate (1), the substrate being at least partially furnished with a coating (2) that is substantially tack free at room temperature, and the coating (2) including at least one radiation-crosslinkable component.

Abstract: The present invention relates to aluminium flakes having a thickness between 7 and 9 nm, coating compositions containing them and the use of the coating compositions for forming (security) products. When the compositions of the present invention are used in coating a hologram the obtained products show an extremely bright OVD image and extremely strong rainbow effect, high purity and contrast.

Abstract: Disclosed is a masking article such as a masking tape, roll of masking tape, masking sheet, etc. that has a substrate or backing with a primer layer on a first major surface thereof and a pressure-sensitive silicone adhesive layer on the primer layer such that the primer layer is positioned between the backing and the adhesive layer. The masking article is able to adhere to a semi-permanent release composition at greater than about 10 oz/in as measured with a 90° peel test to stainless steel with a 4.5 lb roll down. A method of masking a mold having a semi-permanent release applied thereto with the disclosed masking article is disclosed. The method includes the steps of providing a mold having the semi-permanent release agent applied thereto and applying a masking article to an area of the mold with the masking article at least partially adhered to the semi-permanent release agent.

Abstract: An object of the present invention is to provide a method of transferring an object to be peeled onto a transferring member in a short time without imparting damage to the object to be peeled within a laminate. Also, another object of the present invention is to provide a method of manufacturing a semiconductor device in which a semiconductor element manufactured on a substrate is transferred onto a transferring member, typically, a plastic substrate. The methods are characterized by including: forming a peeling layer and an object to be peeled on a substrate; bonding the object to be peeled and a support through a two-sided tape; peeling the object to be peeled from the peeling layer by using a physical method, and then bonding the object to be peeled onto a transferring member; and peeling the support and the two-sided tape from the object to be peeled.

Abstract: A method for manufacturing a printed wiring board includes laminating a first core substrate and a second core substrate, forming a first upper buildup layer on a surface of the first core substrate, forming a second upper buildup layer on a surface of the second core substrate, separating the first core substrate and the second core substrate from each other, laminating the first upper buildup layer formed on the first core substrate and the second upper buildup layer formed on the second core substrate, forming a first lower buildup layer on the opposite surface of the first core substrate, forming a second lower buildup layer on the opposite surface of the second core substrate, and separating the first upper buildup layer and the second upper buildup layer.

Abstract: A protective adhesive film may include a polyurethane sheet and an adhesive layer disposed on at least a portion of a first major surface of the polyurethane sheet. The adhesive layer may comprise a pressure-sensitive adhesive that includes an acrylate polymer and a silicone macromer. The adhesive layer may adhere to a surface of an electronic device without the application of any liquid or additive to the adhesive layer or the surface of the electronic device.

Abstract: Provided is an optical functional film in which air bubbles can be effectively prevented from forming during lamination, and preferably in which a carrier film does not tear readily. Also provided is a method for manufacturing a liquid crystal display device using this optical functional film. A belt-shaped optical functional film is used in order to cut away the optical functional film at predetermined intervals from the belt-shaped optical functional film to which a carrier film is bonded, with the carrier film remaining uncut; to subsequently turn over the carrier film by an edge-shaped member and peel away the optical functional film; and to laminate the exposed surface of the optical functional film to a sheet member while the optical functional film is being peeled away, wherein the optical functional film is characterized in that the flexural rigidity of the carrier film per unit length in the longitudinal direction is from 5.0×10?5 N·mm2 to 8.

Abstract: A method of manufacturing a flexible composite panel having a plurality of reservoirs connected by at least one capillary includes forming a capillary assembly by winding a flexible, deformable capillary base web partially around a rotating cylinder that has a plurality of recessed features formed therein; drawing the capillary base web into the recessed features to form the capillaries in the capillary base web; filling the capillaries; and laminating a capillary barrier web over the capillary base web. A flexible reservoir assembly is formed by cutting the perimeter of the at least two reservoirs and associated catchments into a flexible reservoir web; removing the waste cut interiors of the reservoirs and the catchments from the reservoir web; securing the reservoir web to a base layer; overfilling each reservoir; and laminating the capillary assembly over the reservoir assembly, driving excess filler from the reservoirs into the catchments.

Abstract: A system, topology, and methods placing a protection module on one or more surfaces of a device, in particular on an electronic device. Architecture including multiple layer protection module and alignment tool. Other embodiments may be described and claimed.

Abstract: A touch panel includes a cover substrate, an upper resin layer, upper conductive layers, a lower resin layer, lower conductive layers, and a protective layer. The upper conductive layers are in contact with the upper resin layer on the side opposite to the cover substrate. The lower resin layer is in contact with the upper conductive layers and the upper resin layer. The lower conductive layers are provided on the side of the lower resin layer opposite to the upper conductive layers with the lower resin layer placed between the lower conductive layers and the upper conductive layers. The protective layer is provided on the surface of the lower resin layer on which the lower conductive layers are formed. Each of the upper resin layer and the lower resin layer is formed of a uniform material.

Abstract: Method for producing a fastening system, in particular for components of photovoltaic systems, preferably on roof surfaces of buildings, includes providing a support surface (1) and applying at least one fastening component (7, 19) of loops and/or other interlocking elements on the support surface. After applying the fastening component (7, 19) in the mounted state of the support surface (1), at least one other corresponding fastening component (7, 19) provided with other interlocking elements can be detachably connected to the fastening components (7, 19) on the support surface.

Abstract: A process comprising removing an adhesive-protecting film layer from a peel and stick multilayer article comprising an embossed, anti-slip thermoplastic layer selected from polyvinyl chloride, polypropylene, acrylonitrile butadiene styrene, polycarbonates or high density polyethylene; a water-resistant adhesive layer; and the adhesive-protecting film layer, thereby exposing one side of the water-resistant adhesive layer; and then applying the exposed side of the water-resistant adhesive layer to a surface that is at least partially covered with water.

Abstract: The present invention relates to a method for transferring graphene using a hot press, comprising: a step of contacting graphene, having a thermal-releasable sheet attached thereto, with a target substrate; and a step of pressing and heating the graphene having the thermal-releasable sheet attached thereto and the target substrate using the upper press and lower press of a hot press so as to separate the thermal-releasable sheet and the graphene and transfer the separated graphene to the target substrate. The present invention also relates to a graphene-transfer hot press apparatus for said transfer process.

Abstract: Provided are a filling film and a method of manufacturing an organic light-emitting display apparatus by using the filling film. The filling film includes a filling material, a first releasing film attached to a surface of the filling film, a second releasing film attached to another surface of the filling film, and a supporting layer attached to the second releasing film. The bonding force between the second releasing film and the supporting layer is greater than the bonding force between the filling material and the second releasing film.

Abstract: A manufacturing method for an optical unit includes: a step of bonding plural lens wafers, on which optical components are formed, and forming a lens unit wafer including plural lens units; a step of bonding a bending optical element wafer including plural bending optical elements to a first surface of the lens unit wafer such that the plural bending optical elements are respectively opposed to the plural lens units and forming an optical unit wafer; and a step of separating and individualizing the optical unit wafer for each of the lens units and the bending optical elements and manufacturing plural optical units.

Abstract: A method for making a pressure sensitive adhesive comprising: (a) making at least one epoxidized fatty acid from at least one plant oil, marine oil, other ester of unsaturated fatty acid, or a mixture thereof; and (b) polymerizing the at least one epoxidized fatty acid to produce a pressure sensitive adhesive. A method for making a pressure sensitive adhesive comprising: (a) making epoxidized oleic acid, an epoxidized linoleic acid (including fully and partially epoxidized linoleic acid), or an epoxidized linolenic acid (including fully and partially epoxidized linolenic acid) from at least one plant oil, marine oil, other ester of unsaturated fatty acid, or making mixture thereof; and (b) polymerizing the epoxidized oleic acid, the epoxidized linoleic acid, the epoxidized linolenic acid, or the mixture thereof to produce a pressure sensitive adhesive.

Abstract: The method for manufacturing a liquid crystal display device includes carrier film feeding steps including feeding long carrier films from continuous rolls, respectively; peeling steps including folding back each of the carrier films at a front end part placed on a carrier film feed path so that the optical films are peeled off from the carrier films, respectively; and bonding steps including bonding the optical films to the viewer side and back side of a liquid crystal panel, wherein in the bonding steps, the optical films are bonded to the liquid crystal panel in such a manner that the number of times the optical film is bonded to the back side of the liquid crystal panel is greater than the number of times the optical film is bonded to the viewer side of the liquid crystal panel.

Abstract: A method for manufacturing a liquid crystal display device by feeding carrier films from continuous rolls, respectively, and by bonding optical films, which are being peeled off or have been peeled off from the carrier films, respectively, to first and second panel surfaces of a liquid crystal panel, respectively, with a pressure-sensitive adhesive interposed therebetween so that the liquid crystal display device is obtained. The method includes: a first bonding step including bonding a first optical film to the first panel surface; a rotation step including rotating the liquid crystal panel; a second bonding step including bonding a second optical film to the first optical film; and a third bonding step including bonding a third optical film to the second panel surface of the liquid crystal panel.

Abstract: One embodiment is a pressure sensitive adhesive construct comprising: (a) a backing substrate; and (b) a pressure sensitive adhesive composition disposed on the backing substrate, wherein the pressure sensitive adhesive composition includes a product made from (i) at least one epoxidized vegetable oil and; (ii) a dimer acid or anhydride thereof, a trimer acid or anhydride thereof, a polymerized fatty acid or anhydride thereof, or a mixture thereof.

Abstract: Disclosed is an apparatus for the application of protective films to electronic devices and a method for applying the same. The apparatus utilizes a base shoe and modular framing system that is adaptable for many devices and, when fitted with a device and installed in the shoe, precisely holds the device in a known location relative the shoe. Films are supplied on an application sheet and precisely positioned thereon in a manner such that the application sheet, when positioned on the shoe, holds the film in the exact location needed for quick and precise application of the film. The application sheet is pressed downwards against the device, successively from one edge to another, thereby the film to the device. The shoe features a raised head on a flexible arm, thus raising the film above the level of the device before application and allowing the sheet to be pressed into position.