Class / Patent application number | Description | Number of patent applications / Date published |
156248000 | With cutting of one lamina only while adhered | 34 |
20090065132 | METHOD OF FORMING OPTICAL WAVEGUIDE - Parallel-aligned core layers are formed by patterning a core sheet laminated on a base plate, and a clad/core bonded body is formed by laminating a cladding sheet. The base plate is peeled from one surface of the clad/core bonded body and a dicing tape is pasted on the other surface of the clad/core bonded body. An inclined surface is formed by bevel-cutting both end portions of the core layers. Clad/core bonded pieces are formed by straight-cutting the cladding sheet between core layers and on an outside of outermost core layers. A mask is disposed on the clad/core bonded pieces, and then a metal film is formed on the inclined surface. The clad/core bonded pieces are separated individually by peeling the pieces from the dicing tape after the mask is removed. The clad/core bonded piece is brought into contact with the liquid adhesive coated on a circuit substrate and aligned thereon. Then, the liquid adhesive is cured. | 03-12-2009 |
20090250159 | Carrierless Laminate - A lamination system comprises a lamina supply to supply a first web comprising lamina sheets or patches, a substrate supply to supply a second web having defined substrates to be laminated, and a separation station where lamina sheets or patches from the first web are laminated to the defined substrates. The substrate is preferably a card, such as an identification card, a credit card, or other CR80 size card. The sheets or patches are approximately the same size as the substrates, and the sheets or patches are subjected to heat and/or pressure to cause them to bond to the substrates. | 10-08-2009 |
20090294042 | CUTTING METHOD AND CUTTING APPARATUS - A cutting method and a cutting apparatus are provided which are capable of cutting a film without causing the cracking of a hard thin film or the deformation and/or property change of the layer beneath the hard thin film. The cutting apparatus includes: a conveying device that conveys a layered film including a base material and an inorganic film being a surface layer harder than the base material; a laminating section that attaches a laminate film to a predetermined cutting position of the inorganic film of the traveling layered film; a cutting section that cuts the layered film to which the laminate film is attached along the predetermined cutting position from the side opposite to the laminate film together with the laminate film; and a detaching section that detaches the laminate film after the cutting from the layered film. | 12-03-2009 |
20100051190 | METHOD FOR APPLYING AN ADHESIVE LAYER ON THIN CUT SEMICONDUCTOR CHIPS OF SEMICONDUCTOR WAFERS - The invention relates to a method for applying an adhesive layer to ground-thin or thinned semiconductor chips of a semiconductor wafer. In this case, the adhesive layer, with the aid of an adhesive film which is entirely composed of precurable adhesive, is introduced relatively early into a method for the thinning by grinding, separation and singulation of a semiconductor wafer to form thinned semiconductor chips, and is finally used further in the semiconductor device into which the thinned semiconductor chip is to be incorporated. | 03-04-2010 |
20100288432 | MANUFACTURING SYSTEM OF OPTICAL DISPLAY DEVICE AND MANUFACTURING METHOD OF OPTICAL DISPLAY DEVICE - A manufacturing system of an optical display device in which the following can be attained in the case of bonding optical members to optical display units, respectively: an optical member to be excluded, which is, for example, an optical member judged as a defective member, can be appropriately excluded so that the optical member is not bonded onto any optical display unit and a manufacturing method of an optical display device. The manufacturing system includes a cutting device | 11-18-2010 |
20100300611 | METHOD FOR MANUFACTURING OPTICAL DISPLAY UNIT, AND SHEET MATERIAL AND ROLL FOR USE THEREIN - An optical display unit manufacturing method includes subjecting a sheet material having curling properties to half cutting and bonding the cut piece of the sheet material to a substrate with an adhesive interposed therebetween, while peeling off the member left uncut and can solve the problem of peeling of the cut piece of the sheet material during feeding after the half cutting in such a process, so that the cut piece of the sheet material can be bonded to the substrate in a satisfactory manner. A method for manufacturing an optical display unit comprising a step for feeding a continuous sheet material from a roll of the continuous sheet material, wherein the continuous sheet material comprises the optical member and a release film provided on one side of the optical member with the adhesive interposed therebetween, and cutting the sheet material by cutting means, while leaving the release film uncut and bonding the sheet material to the substrate with the adhesive interposed therebetween, while removing the release film. When no external force is applied, the sheet material curls in the longitudinal direction in such a way that the release film is facing inward. | 12-02-2010 |
20100314037 | METHOD FOR FABRICATING PACKAGING SUBSTRATE - A method for fabricating a packaging substrate includes: providing a base having a release film with two opposite surfaces, two first auxiliary dielectric layers enclosing the release film, and two metal layers disposed on the two first auxiliary dielectric layers, therewith an effective area defined on the two metal layers; forming an inner wiring layer from the two metal layers; forming on each of the two first auxiliary dielectric layers and the inner wiring layers a built-up structure having first conductive pads so as for two initial substrates to be formed on the opposite surfaces of the release film; removing whatever is otherwise lying outside the effective area; removing the release film; and forming dielectric layer openings in the two first auxiliary dielectric layers so as for two substrate bodies to be formed from the initial substrates, wherein a portion of the inner wiring layers are exposed to thereby function as second conductive pads. | 12-16-2010 |
20110146900 | Manufacture And Assembly Of Absorbent Articles With Multiple Printed Components - A method is provided for manufacturing a disposable absorbent article having multiple printed components, the method including providing a web of side panel having a longitudinal direction, separating a strip from the web of side panel material, wherein the strip has a long dimension, and printing the strip or the web of side panel material with a front leg band stripe, a back leg band stripe, and a waistband stripe prior to attaching the strip to the web of chassis material, wherein the strip has a front leg band stripe portion, a back leg band stripe portion, and a waistband stripe portion. The method also includes attaching the strip to a web of chassis material to form an article assembly web, the web of chassis material having a machine direction (MD), and cutting the article assembly web to produce an individual article. | 06-23-2011 |
20110155312 | METHOD FOR MAKING CARBON NANOTUBE FILM - A method for making a carbon nanotube film includes fabricating a carbon nanotube array grown on a substrate. A drawing tool and a supporting member, having a surface carrying static charges, are provided. The static charges of the surface of the supporting member are neutralized. A plurality of carbon nanotubes in the carbon nanotube array is contacted and chosen by the drawing tool. The drawing tool is then moved along a direction away from the carbon nanotube array, thereby pulling out a carbon nanotube film. The carbon nanotube film is adhered the surface of the supporting member. | 06-30-2011 |
20110162791 | METHOD OF MAKING A BUILDING MATERIAL HAVING A SELVAGE EDGE - A method of forming a building material with a pre-applied adhesive, the method comprising the steps of manipulating a first membrane and a second membrane to be spaced from one another along parallel adjacent edges to form a gap; securing a single strip of adhesive tape to a top surface of both said first and second membranes adjacent to said adjacent edges so that said adhesive tape extends over said gap; and cutting along the length of said adhesive tape to form a first adhesive tape and a second adhesive tape, said first adhesive tape being secured to the top surface of said first membrane and extending over a portion of said gap, and said second adhesive tape being secured to the top surface of said second membrane and extending over a portion of said gap. | 07-07-2011 |
20110180206 | Method of providing conductive structures in a multi-foil system and multifoil system comprising same - According to one aspect, the invention provides a method of providing conductive structures between two foils in a multi-foil system. The system comprises at least two foils, from which at least one foil comprises a terminal. The method comprises the steps of (in any order) providing at least one solid state adhesive layer, patterning adhesive layer with through-holes; filling the through-holes with conductive material, so as to form the conductive structure, connected to the terminal; and bonding the at least two foils. | 07-28-2011 |
20110297309 | ELECTRO-OPTIC DISPLAYS, AND MATERIALS AND METHODS FOR PRODUCTION THEREOF - An electro-optic display is produced using a sub-assembly comprising a front sheet, an electro-optic medium; and an adhesive layer. An aperture is formed through the adhesive layer where the adhesive layer is not covered by the electro-optic medium, and the sub-assembly is adhered to a backplane having a co-operating member with the aperture engaged with a co-operating member, thus locating the sub-assembly relative to the backplane. In another form of electro-optic display, a chip extends through an aperture in the electro-optic medium and adhesive layer. In a third form, the aforementioned sub-assembly is secured to a backplane and then a cut is made through both backplane and sub-assembly to provide an aligned edge. | 12-08-2011 |
20120000599 | ADHESIVE AND ADHESIVE SHEET - Provided is a adhesive and an adhesive sheet which exhibit excellent chip-holding properties during dicing and from which chips can be easily stripped during pick up, even when considering changes over time. It is a adhesive composition which contains both (A) a (meth)acrylic acid ester copolymer component that has functional-group containing monomer units and a weight average molecular weight of less than 350,000 and (B) a (meth)acrylic ester copolymer component that has functional-group containing monomer units and a weight average molecular weight of 350,000 to 2,000,000 at a weight ratio of 10:90 to 90:10, and further contains 0.5 to 20 parts by mass of a crosslinking agent per 100 parts by mass of components (A) and (B) in total, the crosslinking agent being a crosslinking agent that reacts with both the functional groups of the component (A) and the functional groups of the component (B). | 01-05-2012 |
20120006478 | FABRICATING METHOD OF CIRCUIT BOARD - A fabricating method of a circuit board including the following steps. First, a liquid material is adhered between a first substrate and a second substrate by using an atmospheric pressure difference. Then, a plurality of conductive columns are formed in the first substrate and the second substrate. Next, a patterning process is performed, so as to form two circuit layers. Next, two lamination structures are formed respectively on the circuit layers. Then, the first substrate and the second substrate are separated. Finally, another patterning process is performed, so as to finish the fabrication of the circuit board. | 01-12-2012 |
20120085488 | DOUBLE-FACED ADHESIVE TAPE JOINING METHOD AND DOUBLE-FACED ADHESIVE TAPE JOINING APPARATUS - An original master tape having a long carrier tape and a long double-faced adhesive tape joined thereto is guided to a knife edge to be folded back. The double-faced adhesive tape is half-cut on the carrier tape in front of the knife edge with a Thomson blade having a corresponding shape to a substrate. The original master tape is folded back at the knife edge. Accordingly, a piece of the double-faced adhesive tape cut into the substrate shape is separated from the carrier tape to be joined to the substrate traveling relatively at a speed synchronized to a separation speed. | 04-12-2012 |
20120125530 | METHOD FOR MAKING AND JOINING COMPOSITE SANDWICH SHELL EDGE JOINT - A method for joining fittings to a composite sandwich shell edge includes laying up an inner facesheet and positioning a wrapped flute mandrel on top; applying a layer of adhesive on the inner facesheet and positioning spacer-supported fittings on top; applying adhesive over the co-bonded fittings and laying up an outer facesheet forming an assembly; curing the assembly under heat and pressure; removing the fittings by first collapsing the spacers and removing the flute mandrel; placing an adhesive layer on the fittings with collapsible spacers inserted therein; reinserting the fittings between the inner and outer facesheets and effecting bonding and curing; and removing the spacers from the fittings by collapsing the spacers. | 05-24-2012 |
20120247656 | Method of Manufacturing Flexible Shell Inlay Strips - A method of fabricating shell purfling strips having sufficient flexibility to be placed within a curved configuration. The shell purfling strips may be placed, as a single unit, in curved channels which require the strip to bend. The flexibility results from a laminated structure comprising a layer of binding material overlain by an organic shell layer, with a bonding agent attaching the layers together. The organic shell layer comprises a plurality of precisely placed breaks along its length. The binding material retains the individual fragments of the shell layer in the strip, but because the binding material comprises a flexible material, such as rubber, the layer of binding material is sufficiently flexible to allow the purfling strip to flex longitudinally and transversely. The shell purfling strips may be attached in parallel relationship to other perfling components allowing installation as a unit. | 10-04-2012 |
20130048209 | METHOD FOR PRODUCING LIGHT EMITTING DIODE DEVICE - A method for producing a light emitting diode device includes the steps of preparing a laminate including, in order, a supporting layer, a constraining layer and an encapsulating resin layer, each formed in a thickness direction; cutting the encapsulating resin layer and the constraining layer in the laminate into a pattern corresponding to the light emitting diode element; removing a portion which does not correspond to the light emitting diode element in the encapsulating resin layer and the constraining layer that are cut into the pattern; allowing the encapsulating resin layer corresponding to the light emitting diode element to be opposed to the light emitting diode element to be pressed in the direction where they come close to each other so as to encapsulate the light emitting diode element by the encapsulating resin layer; and removing the supporting layer and the constraining layer from the laminate. | 02-28-2013 |
20130126080 | OPTICAL FUNCTIONAL FILM, AND METHOD FOR MANUFACTURING LIQUID CRYSTAL DISPLAY DEVICE USING SAME - 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 | 05-23-2013 |
20130153140 | COMPACTION PROCESS OF A PIECE OF COMPOSITE MATERIALS - It comprises applying a mould release agent on a compaction tool ( | 06-20-2013 |
20130233479 | METHOD FOR PROCESSING TRANSLUSCENT RIGID SUBSTRATE LAMINATE AND METHOD FOR MANUFACTURING PLATE SHAPED PRODUCT - There is provided a method by which it is possible to precisely process a translucent rigid substrate laminate. The method for processing a translucent rigid substrate laminate includes the steps of: preparing a translucent rigid substrate laminate by adhering two or more translucent rigid substrates with photocurable adhering agent; fixing the laminate to a cradle with predetermined adhesive; performing processing A for cutting the laminate, which is fixed to the cradle, in a thickness direction and forming a desired number of divided translucent rigid substrate laminates, or performing desired outline processing B on the laminate which is fixed to the cradle; and peeling the processed translucent rigid substrate laminate from the cradle by applying external force without heating the translucent rigid substrate laminate at 40° C. or more. | 09-12-2013 |
20140034226 | PROCESS OF DRILLING ORGANIC GLASSES USING A THERMOPLASTIC FILM PROTECTING AGAINST CRACKING AND CRAZING - The present invention is drawn to a process of drilling organic glasses, comprising the steps of:
| 02-06-2014 |
20140102632 | PRE-CUT STRIPS OF KINESIOLOGY TAPE - One example embodiment includes a pre-cut strip of kinesiology tape. The pre-cut strip of kinesiology tape includes a fabric. The fabric includes a weave of fibers, where the fibers include an elastic fiber covered by a covering material. The fabric also includes a first end and a second end, where the second end is opposite the first end. The fabric further includes one or more rounded corners. The pre-cut strip of kinesiology tape also includes a longitudinal cut in the fabric. The longitudinal cut passes through at least a portion of the fabric and extends from the first end to a pre-determined distance from the second end. The pre-cut strip of kinesiology tape also includes adhesive on a first surface of the fabric, where the adhesive is configured to adhere the fabric to a human body. | 04-17-2014 |
20140124132 | METAL SHEET FOR ENCAPSULATING ORGANIC LIGHT-EMITTING DISPLAY DEVICE AND ENCAPSULATING METHOD OF ENCAPSULATION USING THE SAME - A metal sheet for encapsulating an organic light-emitting display device, the metal sheet including a main body, first and second adhesive layers respectively formed on both surfaces of the main body, and first and second releasing films that respectively protect the first and second adhesive layers by covering them. A portion of an outer line of the first adhesive layer passes an inner region of the second adhesive layer. | 05-08-2014 |
20140174646 | Wrapping an Object with a Film Using a Tape for Cutting the Film - A pressure sensitive adhesive film attached to a surface is cut by pulling a filament from an adhesive tape applied on to the surface through that part of the film over the tape so as to cut the film and to form a cut edge of the film. The filament is a polyester multi-fiber filament of the order of 16 tex which provides a strength to break of the order of 2 pounds force and an extension of the order of 15% under a load of 1.0 pounds force. The tape comprises a polyethylene substrate of 0.125 inch in width. The filament is extendible so that, when the tape is stretched the filament stretches with the tape and does not pull out or separate. The filament can be broken by hand and has an ability to bend to a radius of curvature of less than 0.5 inches without any stiffness in the filament. | 06-26-2014 |
20150020962 | LABEL PRODUCTION METHOD - Provided is a label production method capable of significantly reducing production costs by producing many single labels using one member. A label substrate that an adhesive and a release agent are applied to is passed through a laminating device twice, first label substrate passed for the first time and second label substrate passed for the second time are pseudo-adhered by joining the release agent of the first label substrate passed for the first time to the adhesive of the second label substrate passed for the second time, and single labels are punched out from the second label substrate by a cutting tooth of a punching device at a position on the downstream side after the label substrate is passed through the laminating device for the second time. The first label substrate passed for the first time is used as a seat for the cutting tooth of the punching device. | 01-22-2015 |
20150083312 | METHOD OF BONDING AND DEBONDING SUBSTRATE - A substrate bonding and debonding method includes the steps of: providing a substrate; forming a first silicone glue layer on a peel-off region of the substrate and a second silicone glue layer on a peripheral region of the substrate, in which the first and second silicone glue layers contain the same silicone main agent and silicone curing agent in a different ratio; adhering an opposite substrate to the first and second silicone glue layers; curing the first and second silicone glue layers to bond the substrate to the opposite substrate; and separating a portion of the substrate from the opposite substrate. | 03-26-2015 |
20150090398 | Economical Nasal Dilator and Method of Manufacture - 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. Embodiments further include a user-adjustable truss length, a truss which features a resilient member with divergent extensions and/or enlarged terminal ends, and a plurality of resilient members joined together at their end portions. | 04-02-2015 |
20150107763 | Applying an Adhesive Film to a Surface using a Tape for Cutting the Film - An adhesive film or films are applied to a surface of an object by providing a tape with an adhesive on the rear surface and a release characteristic on the front surface. The tape has two or three parallel spaced filaments in the adhesive which are used to tear through the film or film to form butting edges of the films and to form a strip of one of the films which is attached to the object as a visible stripe thereon either as a stand-alone stripe or as a protective cover for the butting edges. | 04-23-2015 |
20150107764 | PROCESS FOR PRODUCING ADHESIVE SHEET HAVING SINGULATED ADHESIVE LAYER, PROCESS FOR PRODUCING WIRING SUBSTRATE USING THE ADHESIVE SHEET, METHOD OF MANUFACTURING SEMICONDUCTOR EQUIPMENT, AND EQUIPMENT FOR PRODUCING ADHESIVE SHEET - 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:
| 04-23-2015 |
20150136312 | WORKPIECE PROCESSING METHOD - A method for processing a workpiece including: a supporting plate preparing step of preparing a supporting plate having, on a top surface side of the supporting plate, a recessed portion configured to house a projecting portion provided in a device region of the workpiece; a positioning step of mounting the workpiece on the supporting plate such that the recessed portion of the supporting plate and the device region of the workpiece correspond to each other; a bonding step of forming a welded region in which the workpiece is welded to the supporting plate by irradiating a peripheral surplus region of the workpiece mounted on the supporting plate with a laser beam, whereby the workpiece is fixed on the supporting plate; and a processing step of processing the workpiece after performing the bonding step. | 05-21-2015 |
20160036209 | CUTTING METHOD OF FLAT WIRE, AND CUTTING TOOL - A cutting method of the invention cuts a flat wire covered with a film, using a pair of first blades, and a second blade that is arranged between the pair of first blades. This cutting method includes a step of forming tapered cuts in an upper surface of the flat wire, by the pair of first blades cutting part way into the flat wire in a thickness direction, from the upper surface of the flat wire, and a step of cutting the flat wire by the second blade, between the two cuts, so as to form a chamfer on both side surfaces next to the upper surface of the flat wire. | 02-04-2016 |
20160176179 | SYSTEMS AND METHODS FOR FORMING LAMINATES | 06-23-2016 |
20170232438 | MICROFLUIDIC STRUCTURES FABRICATING METHOD | 08-17-2017 |