Class / Patent application number | Description | Number of patent applications / Date published |
428194000 | Comprising discontinuous or differential impregnation or bond | 23 |
20080311354 | Method for producing resin plated product and resin molded product to be plated used therefor - A method for producing a resin plated product includes: a molding step of forming a resin molded product as a resin molded product to be plated that includes integrally a main body part with a form of a molding and a sacrifice part arranged in the vicinity of an edge part not to come into contact with the edge part; an electro-less plating step of applying an electro-less plating process to the resin molded product, an electroplating step of immersing the resin molded product in an electroplating bath provided with an anode electrode, applying an anode voltage to the anode electrode and applying a cathode voltage to the resin molded product to carry out an electroplating process; and a removing step of removing the sacrifice part from the resin molded product. The sacrifice part is preferably extended from a non-designed surface of the main body part. | 12-18-2008 |
20090011198 | VITRIFIED BOND GRINDING WHEEL AND PROCESS FOR PRODUCING THE SAME - In a vitrified bonded grinding wheel having superabrasive grains | 01-08-2009 |
20090022960 | FIBROUS STRUCTURES AND METHODS FOR MAKING SAME - Fibrous structures and more particularly convolutedly wound rolls of fibrous structures having end edges including bond regions and methods for making such convolutedly wound rolls of fibrous structures are provided. | 01-22-2009 |
20090061166 | ELECTRO-OPTICAL DEVICE AND ELECTRONIC APPARATUS - An electro-optical device includes: a display panel module having electronic parts provided therein; and an insulating tape that is adhered to the display panel module so as to cover the electronic parts. The insulating tape includes an adhesive portion and a non-adhesive portion. The non-adhesive portion is disposed at a position that covers a region in which the electronic parts are provided, and the adhesive portion is adhered to the display panel module in regions other than the region in which the electronic parts are provided. | 03-05-2009 |
20090075032 | Multiple ply web supply roll for form, fill, seal packaging machinery - The present invention provides a roll of film material having: (1) a first web of film having a first planar surface and a first set of opposed lateral edges; (2) a second web of film having a second planar surface and a second set of opposed lateral edges, a portion of the second planar surface being in contact with the first planar surface but not being attached thereto, the second set of opposed lateral edges being in registration with the first set of opposed lateral edges; and (3) the first web of film and the second web of film being wound about an axis transversely disposed to the first set of opposed lateral edges to define a roll of film material. | 03-19-2009 |
20100015407 | Airbag and Process for its Assembly - A process for assembling an airbag for use in vehicle applications is disclosed. The airbag has a seam made from two or more different materials ( | 01-21-2010 |
20100086749 | HETEROGENEOUS, ESPECIALLY MULTICOLORED SHEET MATERIAL, MOLD AND METHOD - A heterogenous sheet material comprises first and second plastics materials joined together at edges by a strand element with a hollow profile. The material may be made by filling mold cavities with flowable plastics materials, with a sealing element placed in the mold between the cavities before cavities are filled. The plastic materials and sealing element form an integral part. The material may be multicolored, and may be used as a decorative skin for an inner lining part of a motor vehicle. | 04-08-2010 |
20100112303 | PATTERNING ON SURFACE WITH HIGH THERMAL CONDUCTIVITY MATERIALS - The present invention provides for high thermal conductivity paper that comprises a host matrix ( | 05-06-2010 |
20100221501 | GLASS SHEET WITH PROTECTED EDGE, EDGE PROTECTOR AND METHOD FOR MAKING GLASS SHEET USING SAME - A glass sheet assembly includes a glass sheet having an edge surface and a shaped fiber. The shaped fiber has a first surface bonded to the edge surface of the glass sheet and a convex second surface not bonded to the edge surface for receiving a load. | 09-02-2010 |
20120009394 | BONDING METHOD AND BONDING SUBSTRATE - A bonding method and a bonding substrate are provided. The bonding substrate is applied to a silicon wafer having the same shape. The bonding method includes the following steps. Firstly, the optical glass substrate is processed to form a first alignment mark. Then, an adhesive layer is coated on a surface of the optical glass substrate. The adhesive layer on the surface of the optical glass substrate is partially removed, thereby defining an adhesive structure. According to the first alignment mark of the optical glass substrate and a second first alignment mark of the silicon wafer, alignment between the optical glass substrate and the silicon wafer is performed. Afterwards, the optical glass substrate and the silicon wafer are bonded together through the adhesive structure. | 01-12-2012 |
20120321860 | Process for Printing Wax Release Layer - A wax printing process, apparatus, formulation, and label. The process includes contacting a wax formulation with a surface having at least one etched region thereon, and confronting a carrier with the surface such that at least a portion of the wax transfers from the etched surface to the carrier. The apparatus includes a tray and a manifold positioned in the tray. In another aspect, the apparatus includes a gravure sleeve and a heatable mandrel disposed inside the gravure sleeve. The wax formulation includes a paraffin wax, an ester wax, a hydrocarbon resin, a microcrystalline wax, and an ethylene-vinyl acetate copolymer resin. The label includes a carrier and a wax release layer confronting a surface of the carrier. The wax release layer confronts less that the entire surface of the carrier. | 12-20-2012 |
20130071629 | METHOD OF APPLYING A LUBRICANT TO A MICROMECHANICAL DEVICE - According to an embodiment of the present invention, a method of applying a lubricant to a micromechanical device is provided. The method includes: positioning a dispensing portion of a lubricant liquid dispenser over a surface portion of a micromechanical device; and controlling the dispenser such that a single lubricant liquid droplet of a predefined volume is forced out of the dispensing portion and impinges onto the surface portion. | 03-21-2013 |
20130101808 | ARCHITECTURAL CONSTRUCT HAVING A PLURALITY OF IMPLEMENTATIONS - An architectural construct is a synthetic material that includes a matrix characterization of different crystals. An architectural construct can be configured as a solid mass or as parallel layers that can be on a nano-, micro-, and macro-scale. Its configuration can determine its behavior and functionality under a variety of conditions. Implementations of an architectural construct can include its use as a substrate, sacrificial construct, carrier, filter, sensor, additive, and catalyst for other molecules, compounds, and substances, or may also include a means to store energy and generate power. | 04-25-2013 |
20130157019 | Foil Stamped Parts Having Asymmetrical Edges - A part that has an asymmetrical edge coated with a decorative or protective coating. The part is coated with an apparatus that includes a film dispenser, a film retriever, a mandrel; and a part holder. Preferably one or both of the mandrel and the part holder move in an angular relationship to one another, and the film dispenser and the film retriever move co-operatively in at least two dimensions with respect to the part holder. There is further provided a film having a first edge and a second edge, and the film can be a decorative coating, a protective coating or combinations of these. The film dispenser holds the first edge of the film, the film is positioned between the mandrel and the part holder and the film retriever holds the film second edge. | 06-20-2013 |
20130202856 | CROSS DIRECTIONAL ZONED BICOMPONENT FILMS, FILM LAMINATES, AND SYSTEMS AND METHODS FOR MANUFACTURE OF THE SAME - Coextruded films provide cross directional zoned multiple components side-by-side to one another. Systems and methods relate to coextruding such films. During coextrusion, a first polymer conjoins with a second polymer while a temperature differential is maintained between the first and second polymers. This temperature differential is selected to reduce a difference between the viscosities of the first and second polymers making the viscosity of the first polymer close enough to the viscosity of the second polymer to avoid separation upon coextrusion. Further, the films may form a layer in subsequent lamination to other material layers. | 08-08-2013 |
20130209753 | LAMINATED ROLLING PAPERS - A laminated rolling paper includes a raw tobacco leaf adhered to a cigarette paper to provides a natural blunt wrap that provides consumers with a more natural method to roll their own blunt cigarette or cigar. The natural blunt has a construction that enables the end user to roll a more natural smoking product, which will burn more smoothly and more slowly than conventional cigarette papers, and results in a taste that is far superior to conventional smoking products and methods. | 08-15-2013 |
20140030492 | METHOD OF MANUFACTURING TOUCH PANEL AND TOUCH PANEL - A method of manufacturing a touch panel, includes forming a print layer on a peripheral portion of a surface of a touch panel body portion; coating resin on the surface of the touch panel body portion on which the print layer is formed and, after coating, curing the resin to form a resin layer; and adhering an optical clear adhesive sheet on a surface of a cover film and further adhering the surface of the cover film, at which the optical clear adhesive sheet is adhered to, to the surface of the touch panel body portion at which the resin layer is adhered to. | 01-30-2014 |
20140050898 | CRACK-RESISTANT ENVIRONMENTAL BARRIER COATINGS - Methods suitable for reducing corner cracking of environmental barrier coating systems. The methods include forming at least one layer of a first portion of the environmental barrier coating system on at least a first region of the component, performing a first heat treatment, forming at least one layer of a second portion of the environmental barrier coating system on a second region of the component, and performing a second heat treatment to the component. Edges of the first portion and edges of the second portion form an angle of at most 60° with respect to a surface of the first region of the component. During the second heat treatment, the second portion of the EBC system expands and the expansion of the second portion of the EBC system is at least partially constrained by the first portion of the EBC system to reduce tensile interfacial stresses in the EBC system. | 02-20-2014 |
20140220310 | GLASS FILM HAVING A DEFINED EDGE CONFIGURATION - A glass film has a thickness of less than 1.2 mm, and a first and a second surface, both surfaces being defined by edges having an edge surface. The respective edge surfaces are provided with a microstructure surface, including micro-cracks and fissures which are laterally defined by flanks. At least two edges located opposite one another include a low viscosity adhesive having a viscosity of less than 600 mPas at 23° C., on their microstructure surfaces in such a way that the respective flanks of the micro-cracks and fissures are bonded together using an adhesive so that the probability of failure of the glass film having a length of 1000 m and a thickness in the range of 5 μm to 350 μm, and a diameter of a wound glass film roll in the range of 50 mm to 1000 mm is less than 1%. | 08-07-2014 |
20140220311 | RUBBERIZED ROOF UNDERLAYMENT - An underlayment product comprises a fibrous mat having an upper surface and a lower surface. A rubberized asphalt coating is applied to the lower surface of the fibrous mat and extends at least partially into the fibrous mat. In one heavyweight underlayment, an oxidized asphalt coating is applied to the upper and lower surfaces of the fibrous mat generally encapsulating the fibrous mat including the rubberized asphalt coating provided on the lower surface of the fibrous mat. The oxidized asphalt layers may be coated with a release layer such as talc, granules or a polymer. In a lightweight underlayment, a split release sheet or facer segmented to provide a releasable selvedge edge and incorporating a high traction polymer on its surface is applied to the rubberized asphalt. | 08-07-2014 |
20150111009 | PHOTOSENSITIVE RESIN COMPOSITION AND TOUCH PANEL OR DISPLAY DEVICE INCLUDING BEZEL PATTERN PREPARED BY USING SAME - The present specification relates to a photoresist resin composition, a touch panel including a bezel pattern manufactured by using the photoresist resin composition, and a display device including the bezel pattern manufactured by using the photoresist resin composition. | 04-23-2015 |
20150345141 | TILE EDGE SYSTEMS AND METHODS - Disclosed herein are tiles, systems, and methods related to manufacturing bullnose or other non-straight edge tiles. The tiles can comprise a non-straight edge with one or more printed layers. The printed layers can comprise radiation curable inks or other fast-drying coatings. Upon exposure to a curing station, the layers cure quickly. This provides a printed and cured surface that very closely matches the rest of the tile. The tiles, systems, and methods disclosed herein can be of higher quality and can involve more efficient manufacturing than existing tiles, systems, and methods. | 12-03-2015 |
20160018936 | TOUCH DISPLAY DEVICE - A touch display device includes a transparent substrate, a first ink layer, a shading layer, and a decorative layer. The transparent substrate has a visible region and an non-visible region. The non-visible region is located at the peripheral of the visible region. The first ink layer is disposed on the non-visible region of the transparent substrate. The shading layer is disposed on the first ink layer. The decorative layer is disposed on a portion of the first ink layer and located between the first ink layer and the shading layer. The optical density of the first ink layer is between 0.3 and 0.67. | 01-21-2016 |