Abstract: The laminate has a resin substrate and a composite layer thereon. The composite layer contains an inorganic compound and a cellulose fiber exhibiting an average fiber diameter of not less than 2 nm and not more than 200 nm. The laminate has a flexible substrate which exhibits superior gas-barrier capability as well as enhanced mechanical strength and heat-resistance and is suitably applicable to a variety of display substrates.

Abstract: In one embodiment, a laminate comprises: a plastic sheet, a second sheet, an adhesive disposed between and in physical contact with the plastic sheet and the second sheet, and an interlayer formed from a liquid filling having a viscosity that does not form bubbles visible to the unaided eye. The laminate has a storage modulus that varies by a factor less than or equal to about 200 at 1 Hz in the temperature range of ?40° C. to 200° C. In another embodiment, a laminate comprises: a plastic sheet, a second sheet, an adhesive disposed between and in physical contact with the plastic sheet and the second sheet, and an elastomer interlayer formed from a liquid RTV filling. In one embodiment, a method for making a laminate comprises: adhering a glass sheet to a plastic sheet with an adhesive to form a gap therebetween, and introducing a liquid RTV filling to the gap.

Abstract: A sheet of vitreous material bearing a multilayer solar control lamination that includes at least one functional layer based on a material that reflects infrared radiation surrounded by dielectric coatings and at least one 4 nm thick absorbent layer formed by at least one oxide or oxynitride of a cobalt- and/or copper-based alloy. The sheet of vitreous material may be applied to solar control glazing units having multiple glazings.

Abstract: An entry sheet comprising polymer material for drilling printed circuit boards is provided. The entry sheet is suitable for use with a broad range of diameters, including commonly available drill diameters. The entry sheet comprises an adhesive epoxy configured to, among others, resist drill deflection, resist mechanical damage, and reduce to dust such that the entry sheet may increase drilling accuracy, protect printed circuit board from damage, minimize entry burrs, and may addresses other issues such as fliers, bird nesting, and the like.

Abstract: A transparent laminate comprises an optically clear, cured coating layer including abrasion-resistant nanoparticles, and one or more monomers and/or one or more oligomers that are reacted in the presence of an ultraviolet light photoinitiator. The coating layer also contains a surface portion rich in hydrophilic surfactant so that the coating layer when residing on a transparent substrate forms a laminate having good abrasion resistant properties as well as good anti-fog properties.

Abstract: A holographic sealing member for a container including a heat actuated sealant or adhesive layer that secures the sealing member to a container. The sealing member also includes a metal foil sealing layer over and covering and bonded to the heat actuated sealant or adhesive layer, a holographic layer over and covering and bonded to the metal foil layer having an upper plastic layer and a lower embossed image layer, and a tab over and covering and bonded to the upper plastic layer. The tab may be pulled to remove the tab and the plastic layer from a container, thereby exposing the lower embossed image layer which may then be perforated to gain access to the contents of the container.

Abstract: Disclosed herein is an electrical component including a substrate comprising an electroconductive filler in a first polymeric binder, and a coating layer adhered to at least a portion of the substrate surface, the coating layer comprising a nanostructured electroconductive particulate dispersed in a polymeric binder, such as an epoxy resin. A method of making the component also is disclosed, comprising obtaining a substrate containing an electroconductive filler in a polymeric binder, dispersing a nanostructured electroconductive particulate filler in a liquid that includes a solvent and/or a reactive diluent to form a dispersion, mixing the dispersion with a liquid resin to form a coating mixture, applying the coating mixture to the substrate, and crosslinking the applied coating mixture to form the coated substrate.

Abstract: A multilayer composite includes a metal substrate layer, an electrically insulating layer directly disposed on the metal substrate layer, and a light absorbing layer directly disposed on said electrically insulating layer. In one embodiment, the light absorbing layer includes carbon black. This multilayer composite is bifunctional having the characteristics of both energy generation upon the absorption of electromagnetic radiation of the solar spectrum (making it useful as the photovoltaic component of a solar cell) and electrical energy storage. Therefore, in one embodiment, the multilayer composite is included in a solar cell.

Abstract: A pressure-sensitive adhesive optical film includes: an optical film; and a pressure-sensitive adhesive layer laminated on at least one side of the optical film with an anchor layer interposed therebetween, wherein the anchor layer has a thickness of 5 to 300 nm, the pressure-sensitive adhesive layer has a thickness of 5 to 50 ?m, at least one of the anchor layer and the pressure-sensitive adhesive layer is made from a ammonia-containing water-dispersible material, the layer made from the ammonia-containing water-dispersible material contains ammonia in an amount of 10 ng or more per 1 cm2 of the pressure-sensitive adhesive optical film, wherein the amount is a measurement derived from the layer, and the pressure-sensitive adhesive optical film contains ammonia in a total amount of 2000 ng or less per 1 cm2 of the pressure-sensitive adhesive optical film. The pressure-sensitive adhesive optical film has good appearance and high durability.

Abstract: A decorative sheet includes a decoration layer having air permeability and an adhesive layer on the decoration layer arranged to bond the decoration layer onto an object. The decoration layer has an adhesive permeated portion permeated with the adhesive that has diffused from the adhesive layer. The adhesive permeated portion is about one-fifth to about one-third as thick as the decoration layer. A method of making the decorative sheet includes providing the adhesive in a sheet shape, and forming an adhesive layer by applying the adhesive onto a decoration layer permeable to air. The step of forming the adhesive layer includes permeating a portion of the decoration layer with a portion of the adhesive, and making the adhesive permeate through a surface of the decoration layer to a depth corresponding to about one-fifth to about one-third of the overall thickness of the decoration layer.

Abstract: Producing a circuit board, by laminating, on a substrate, an adhesive film with a metal film, which comprises a water-soluble polymer release layer, a metal film layer and a curable resin composition layer, which are formed in this order on a support layer, and has a release property enabling detachment of said water-soluble polymer release layer from the support layer after curing of the curable resin composition layer, such that the curable resin composition layer contacts the substrate; curing the curable resin composition layer; detaching the support layer, and removing the water-soluble polymer release layer present on the metal film layer by dissolving the release layer in an aqueous solution, efficiently forms an insulating layer and a metal film layer superior in adhesiveness to the insulating layer and in uniformity.

Abstract: A functional multilayer anisotropic conductive adhesive film, capable of bonding and package 0.18-0.13 micron IC chips and high density COF, includes a monomer layer, a reinforcing layer, a low-temperature, hot-melt resin layer, and a conductive particle layer, successively bonded by coating and drying processes. The monomer layer comprises a copolymer of butyl acrylate, methyl acrylate, glycol acrylate, and tetramethyl butyl peroxy-2-ethyl hexanoate. The reinforcing layer comprises long chain imidazole derivatives. The hot-melt resin layer comprises polymer of tocopheroxyl, novolac epoxy, acrylic rubbers and elastic mixture of acrylic rubbers and styrene-butadiene rubbers. The conductive particle layer comprises conductive particles and micro-encapsulating resin for receiving the conductive particles. Diameter of the conductive particles is selected from the group consisting of 3.00 ?m±0.05, 3.25 ?m±0.05, 3.50 ?m±0.05, 3.75 ?m±0.05 and 4.00 ?m±0.05.

Abstract: A resin panel for an automobile includes a skin layer formed on sides of a package tray along the direction of the thickness of the package tray and both surfaces of the package tray substantially orthogonal to the sides. An expanded layer is formed in an inner part of the package tray surrounded by the skin layer having voids by enlarging the volume of the cavity of a mold assembly during molding of the package tray to expand a thermoplastic resin in the cavity. Hollow ribs are formed of solid layers in the expanded layer to extend along the surfaces, each have a hollow formed inside over the entire length so that ends of the hollow rib continue out to the skin layer at the opposed sides of the panel. Openings in communication with the hollow rib are formed through the skin layer at the opposed sides, respectively.

Abstract: Methods and structures including a release mechanism for use with the formation and then separation of a multi-layered structure are provided. The methods and structures provide for a master substrate on which is formed a temperature-sensitive release layer. A releasable structure is then formed on top of the temperature-sensitive release layer. The releasable structure can be freed from the master substrate by exposing the temperature-sensitive release layer to a temperature sufficient to soften or melt of the release layer.

Abstract: A fastening system that includes an auto-adhesive layer and a cover layer. The cover layer engages the auto-adhesive layer such that the auto-adhesive layer is exposed as the cover layer is stretched. In some embodiments, stretching the cover layer causes the cover layer to rupture (i.e., tear) so that the auto-adhesive layer may be exposed for subsequent bonding. The term “auto-adhesive” refers to self-adhesive properties of a polymeric material where an auto-adhesive is substantially non-adhesive with respect to many other materials. Also disclosed is a method of joining a fastening system to an item. The method includes positioning the fastening system near the item. The method further includes exposing an auto-adhesive layer by stretching a cover layer that is engaged with the auto-adhesive layer and then engaging the auto-adhesive layer on the fastening system with an auto-adhesive layer on the item.

Abstract: An adhesive sheet for processing semiconductor substrates comprises a UV rays- and/or radiation-transmittable base film and an adhesive layer that undergoes a polymerization curing reaction by means of UV rays and/or radiation, wherein the adhesive layer is formed using a multifunctional acrylate oligomer and/or monomer having a double bond, and is blended so as to result in 1 double bond per total average molecular weight of 225 to 8000 as determined on the basis of the weight average molecular weight of the multifunctional acrylate oligomer and/or monomer.

Abstract: A method for labeling fabrics, such as fabric garments, and a heat-transfer label (311) well-suited for use in said method. In one embodiment, the heat-transfer label (311) comprises (i) a support portion (313), the support portion (313) comprising a carrier (315) and a release layer (317); (ii) a wax layer (319), the wax layer overcoating the release layer (317); and (iii) a transfer portion (321), the transfer portion (321) comprising an adhesive layer (323) printed directly onto the wax layer (319) and an ink design layer (325) printed directly onto the adhesive layer (323). Each of the adhesive layer (323) and the ink design layer includes a non-cross-linked PVC resin. The ink design layer may be screen printed onto the adhesive layer (323) or may be printed onto the adhesive layer (323) using thermal transfer printing, ink jet printing or laser printing.

Abstract: Multi-layer, edge ingress, tamper- and solvent-indicating labels comprise a top film layer coated over a solvent, e.g., water, hydrocarbon, etc., and dye absorbing layer. The solvent and dye absorbing layer can be on top of a porous layer comprising a binder, pigment and particles of a solvent-soluble dye. The porous layer can be on top of an edge-wicking layer which itself is on top of a pressure-sensitive adhesive (PSA) layer. The edge-wicking layer both absorbs and transports solvent thus serving as a means for transporting solvent to the solvent-soluble dye.

Abstract: A structure for encapsulating a liquid crystal display device is disclosed. Openings are formed in a second material layer on a first substrate, exposing an underlying first material layer. The openings are substantially distributed over the perimeter of the first substrate. A sealant is placed in the openings, forming a sealant region for attachment of a second substrate to the first substrate. The sealant region is substantially perpendicular to a direction of length of the openings. In addition, the sealant contacts the first material layer and the second material layer through the openings.