Abstract: A label assembly and method of using the same to label articles durably, yet removably. In one embodiment, the label assembly is used to label fabric articles, such as clothing, and comprises (a) an image forming laminate for forming an image on the fabric article, the image forming laminate comprising an ink layer, the ink layer being bondable to the fabric article; and (b) an image removing laminate for removing the image from the fabric article, the image removing laminate comprising a remover layer, the remover layer, upon being activated by heat and/or light, being bondable to the ink layer of the image forming laminate; (c) whereby, upon bonding of the image removing laminate to the ink layer, the bonding between the image removing laminate and the ink layer is stronger than the bonding between the ink layer and the fabric article.

Abstract: This invention provides printing paper which comprises an aliphatic polyester resin utilizing a plant resource-derived biomass material, is excellent, for example, in traveling stability on a printing machine, material strength, reproduction of dots, print sharpness, and waterfastness and is suitable for use in applications where sheet offset printing is carried out, for example, commercial printing applications such as outdoor posters and maps, catalogs, pamphlets, and menues, and a label using the same. The printing paper is a film formed of an aliphatic polyester resin composition comprising 40 to 90% by weight of an aliphatic polyester resin (a) comprising a binary or higher material of aliphatic diol units represented by formula (I) and aliphatic dicarboxylic acid units represented by formula (II) and 60 to 10% by weight of an inorganic fine powder (b).

Abstract: Embodiments provide a wiring substrate that allows a wire to be released from an insulating material after use, a method for manufacturing the wiring substrate, and a method for disassembling the wiring substrate. A wiring substrate includes a release layer formed between an insulating material and a wire. The release layer is configured to reduce an a strength of adhesion between the wire and the insulating layer when disassembling or recycling the wiring substrate.

Abstract: 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.

Abstract: Disclosed is a stretched resin film having a liquid absorption coefficient of at least 5 ml/(m2·ms1/2). The stretched resin film has good liquid absorbability with good seepage resistance. When stuck to objects with a water-base adhesive, it dries within a short period of time and attains good adhesiveness.

Abstract: The present invention provides a process for producing a transparent conductive substrate which is capable of readily producing the transparent conductive substrate having a low resistance, a high transmittance and an excellent anti-moire property without using a special apparatus and can be applied to production of various extensive substrates; a transparent conductive substrate having a sufficiently high optical transparency and electromagnetic shielding property which can be readily subjected to molding process as well as a process for producing the transparent conductive substrate; and a transparent conductive molded product.

Abstract: A plastic film includes a first plastic layer, a printed layer connected to an inside of the first plastic layer, and a second plastic layer is then connected to the inside of the first plastic layer to sandwich the printed layer between the first and second plastic layers, wherein a glue layer is applied between the first and second plastic layers and the first and second plastic layers are connected to each other by way of high frequency heating or ultrasonic heating. The printed layer is protected by the first and second layers and avoided from scrubbed. The plastic film can be used as stationery bag or cosmetic bag.

Abstract: A decorative laminate (10) includes a polymer or engineered film with fluorine (100), a decorative pattern (20) visible through the polymer film (100), and a substrate (200) supporting the polymer film (100) and decorative pattern (20). An embossing layer (70) may be included between the polymer film (100) and substrate (200). The embossing layer (70) or substrate (200) or both may contain one or more fire retardant materials such as halogens. The decorative laminate (10) has a resistance to sustained ignition rated as at least M1 according to French Epiradiateur Test NFP 92-501, and a smoke index value of 80 or less, a classification of F3 or better according to French standard NF F-16-101 based on French Tests NF X 70-100 and NF X 10-702, and a resistance to graffiti in a range of G0-G1 as measured by French Graffiti test NF F 31-112.

Abstract: There are provided a laminate, a preparatory support, a laminate production method and a device production method which make it possible to successfully produce a thin device on a flexible substrate which is likely to bend or break. A laminate 1A includes: a support 2A; a photothermal conversion layer 3A; a light blocking layer 4A; an adhesive layer 5A; a flexible substrate 6A; and a device element 7A, wherein the support 2A can be detached from the other layers by irradiating the photothermal conversion layer 3A with light, and wherein the adhesive layer 5A is formed such that it covers the side surface of the light blocking layer 4A.

Abstract: A moisture-curable polyurethane hot-melt adhesive containing a urethane prepolymer obtained by reacting a polyol (A) which comprises a polyester polyol (a-1) obtained by reacting a polyol prepared by the addition of bisphenol A with an alkylene oxide with both an aliphatic polycarboxylic acid and an aromatic polycarboxylic acid, a crystalline polyester polyol (a-2), and a polyoxyethylene glycol (a-3) having a number-average molecular weight of 2000 to 25000 with a polyisocyanate (B); and a moisture-permeable film, which are suitable for the production of sport wear, raincoats, shoes, fireman uniforms, military uniforms, and so on.

Abstract: A laminating sheet includes a translucent ply and an adhesive coating applied to the translucent ply. The adhesive coating is activatable by at least one of pressure and heat and is provided on the translucent ply in a configuration providing at least one form of indicia that is visible prior to the adhesive being activated. A method of manufacturing a laminating sheet is also disclosed, whereby an adhesive coating activatable by at least one of pressure and heat is applied to a translucent ply and is configured to provide at least one form of visible indicia.

Abstract: A label assembly and method of using the same to label articles durably, yet removably. In one embodiment, the label assembly is used to label fabric articles, such as clothing, and comprises (a) an image forming laminate for forming an image on the fabric article, the image forming laminate comprising an ink layer, the ink layer being bondable to the fabric article; and (b) an image removing laminate for removing the image from the fabric article, the image removing laminate comprising a remover layer, the remover layer, upon being activated by heat and/or light, being bondable to the ink layer of the image forming laminate; (c) whereby, upon bonding of the image removing laminate to the ink layer, the bonding between the image removing laminate and the ink layer is stronger than the bonding between the ink layer and the fabric article.

Abstract: The heat-shrinkable cylindrical label of the invention comprises a laminated substrate made of two or more layers which have an outer layer sheet and an inner layer sheet. In one side end section of this label substrate, an outer layer sheet exposure section having no inner layer sheet is formed. This outer layer sheet exposure section is overlapped with the other end section of the front face of the label substrate to form a center seal section. In such a heat-shrinkable cylindrical label, the center seal section can be formed without interposing the inner layer sheet. Accordingly, the center seal section does not become thick. Thus, a heat-shrinkable cylindrical label having a beautiful external appearance can be provided.

Abstract: The present invention relates to a donor laminate for transfer of a conductive layer comprising at least one electronically conductive polymer on to a receiver, wherein the receiver is a component of a device. The present invention also relates to methods pertinent to such transfers.

Abstract: A thermal transfer printing medium that contains a thermal transfer layer which contains a first taggant and colorant, wherein: the first taggant comprises a fluorescent compound with an excitation wavelength selected from the group consisting of wavelengths of less than 400 nanometers, wavelengths of greater than 700 nanometers. When the thermal transfer layer is printed onto a white polyester substrate with a gloss of at least about 84, a surface smoothness Rz value of 1.2, and a reflective color represented by a chromaticity (a) of 1.91 and (b) of ?6.79 and a lightness (L) of 95.63, when expressed by the CIE Lab color coordinate system, and when such printing utilizes a printing speed of 2.5 centimeters per second and a printing energy of 3.2 joules per square centimeter, a printed substrate with certain properties is produced.

Abstract: Provided is an intermediate transfer member, a method of producing the same, and an image forming method and an image forming apparatus thereof having excellent effects such that neither crack nor rupture is generated upon repetitive use, no transferring ratio drops during secondary transfer, and neither white patch of an text image nor white patch of a solid image is generated. Also disclosed is an intermediate transfer member used for an image forming apparatus, wherein a surface of the intermediate transfer member has a hardness of 1.5-3.0 GPa, measured by a nano indentation method, and a hardness of 0.15-0.45 GPa, specified by a universal hardness method.

Abstract: A process for fabricating a high barrier lamination suitable for the construction of lighter than air materials including providing a thin, two layer thermoplastic film consisting of an amorphous copolyester skin and a high crystalline polyester core; plasma treating the high crystalline polyester core layer to a surface energy of about 50 to about 68 dyne; depositing a metal barrier layer to an optical density of about 2.2 to about 3.2; and extrusion coating a linear low density polyethylene sealant layer on the amorphous copolyester skin layer.

Abstract: The present invention relates to a donor laminate for transfer of a conductive layer comprising at least one electronically conductive polymer on to a receiver, wherein the receiver is a component of a device. The present invention also relates to methods pertinent to such transfers.

Abstract: This invention provides an improved and novel thin and pliable holographic fabric label that possesses durability, high intensity of holographic diffraction, laundering resistance, minimal alteration and degradation to the fabric and the label through extended use, and the ability to be cost-effectively mass produced is described. High bond is formed at multiple inter polymer interfaces and reflective diffractive layer is protected within the construction, superior durability to repetitious laundering, dry clean cycle and mechanical wear with long lasting diffracting effect and visual authentication property is realized.

Abstract: A seal for a container for comestibles, especially portable liquids, and in particular for use for sealing polyester containers such as bottles, which is suitable for passage through a PET recycling process, comprises a metal foil layer, a foam layer and a plastics film layer as well as a heat sealable layer below the foil. The foam is selected for its density and thickness so is to confer upon the seal a high buoyancy. The adhesion a between the foam and the foil is increased compared to currently available products, in order to prevent de-lamination between the foil and the foam during the recycling process.

Abstract: A label assembly and method of using the same to label articles durably, yet removably. In one embodiment, the label assembly is used to label fabric articles, such as clothing, and comprises (a) an image forming laminate for forming an image on the fabric article, the image forming laminate comprising an ink layer, the ink layer being bondable to the fabric article; and (b) an image removing laminate for removing the image from the fabric article, the image removing laminate comprising a remover layer, the remover layer, upon being activated by heat and/or light, being bondable to the ink layer of the image forming laminate; (c) whereby, upon bonding of the image removing laminate to the ink layer, the bonding between the image removing laminate and the ink layer is stronger than the bonding between the ink layer and the fabric article.

Abstract: A method of preparing documents for the transmission of secure information comprises the steps of preparing a first laminar element (13; 37) with a peripheral region (15) separable from a central region (14), printing the secure information on the central region (14) of the first laminar element (13; 37), or on a central region (19) of a second laminar element (12; 36), positioning the two laminar elements (13; 37, 12; 36) in face-to-face relation, with the face of the element bearing the information facing the said other element, and securing the element together around the peripheral regions.

Abstract: A heat transfer label assembly comprises a carrier, a release layer overlying a first side of the carrier, and a primer overlying the release layer such that the release layer is disposed between the carrier and the primer. The primer may comprise at least one polyacrylic acid polymer.

Abstract: Disclosed herein is a heat bonding film, which includes a hot-melt adhesive film and a protective layer disposed on the hot-melt adhesive film. The hot-melt adhesive film exhibits an adhesive property after being heated. While an outer surface of the protective layer is heated, the heat bonding film may be attached onto an object through the adhesive property provided by the hot-melt adhesive film.

Abstract: An abrasion-resistant transfer printing structure to transfer patterns and texts to a targeted object surface by press printing includes a hardened protecting layer and a release base layer. The hardened protection layer includes a first surface and a second surface. The first surface allows a transfer printing glue to be bonded to the targeted object to cover at least an area corresponding to the patterns and texts. The release base layer is located on the second surface of the hardened protection layer by a releasable manner and can be separated from the hardened protection layer by applying a release force after the press printing process is finished. Thus the hardened protection layer is exposed to isolate the patterns and texts from in contact with the exterior. The surface of the targeted object also is abrasion resistant.

Abstract: To provide a cleaning sheet that can remove foreign matter adhering on a probe needle without wearing the probe needle and that does not allow the foreign matter to re-adhere on the probe needle, the cleaning sheet has a cleaning layer on at least one surface thereof, the cleaning layer containing a urethane polymer and a vinyl monomer.

Abstract: A laminating film and methods of use with xerographic prints. The laminating film comprises an adhesion promoter comprising a hydrolytic silane compound that imparts improved adhesion and which can be used in laminating applications conducted at high and as well as low temperature ranges.

Abstract: A web-like, decorative coating film which is designed to be applied to a support, in particular a floor, door or furniture outer surface, and is in a state which is or can be rolled up, includes a decoratively printed support layer (10) made of paper and/or plastic and a dried base layer (12) which contains a radiation-curing resin but preferably no thermocuring resin in the uncrosslinked state and also an abrasive, preferably inorganic filler, said base layer being formed on the support layer from an aqueous application.

Abstract: An embodiment of the invention is a transistor formed in part by a ferromagnetic semiconductor with a sufficiently high ferromagnetic transition temperature to coherently amplify spin polarization of a current. For example, an injected non-polarized control current creates ferromagnetic conditions within the transistor base, enabling a small spin-polarized signal current to generate spontaneous magnetization of a larger output current.

Abstract: The feather-filled product structure without stitches for leak of feathers prevention, includes a first cloth and a second cloth, with a hot melt adhesive being provided on a corresponding surface between the first cloth and the second cloth The first cloth and the second cloth can be joined when the hot melt adhesive has been molten.

Abstract: Provided is a sheet for decoration which is excellent in an impact resistance in molding a surface form having a three-dimensional curved surface having a high deep-drawing degree and which has a good followability toward a molding surface of a metal die and is suited to decorated moldings. The above sheet for decoration comprises a peel layer, a picture layer and a heat adhesive resin layer which are laminated in order on the surface of a base film comprising a polyester film, wherein a dynamic elastic modulus of the above base film is 1.0×106 Pa or more at any temperature falling in a range of 190 to 240° C.

Abstract: The heat activated appliqué for providing in particular decorative elements providing contrast in texture or color including graphical images, logos, numbers and letters for apparel and other textile products, specifically but not limited to those made out of stretch fabrics (typically knit or woven fabrics) comprised of synthetic or natural fiber yarns constructed with spandex fibers and yarns. The appliqué includes an upper stretchable fabric layer bonded to a substrate by a thermoplastic adhesive. Preferably, the stretchable fabric layer is a knit or woven fabric comprised of at least 3% and preferably between 3% to 33% spandex and polyester or nylon threads and the thermoplastic adhesive is a urethane-based thermoplastic adhesive with suitable stretch and recovery characteristics. The appliqué can be layered to provide three-dimensional characteristics. The stretchable fabric layer can be embossed to provide surface characteristics to the heat activated appliqué, either prior to or during application.

Abstract: A hot-film embossing method for printing a surface and a corresponding embossing film, in particular for printing a plastic surface. The embossing film has at least one patterned layer or ink layer and one melt layer. The embossing film is pressed against the surface by means of an embossing ram, whereby a heat input into the melt layer is achieved by means of high-frequency radiation.

Abstract: A label for removable application to an article such as a beverage bottle includes a backing layer (2) comprising a laminate of a bi-axially oriented polyester such as PET (12) and a bi-axially oriented polypropylene (14). The polyester film (12) has a lower coefficient of thermal expansion than the polypropylene film (14). Consequently, when the label is heated, it will tend to curl and this effect can be used to assist in the removal of the label from the article in a hot washing bath during recycling of the article.

Abstract: A surrounding label wherein the back side of an ending part can be superposed on and bonded with a water-based adhesive to the front side of a beginning part, the back side of the surrounding label has a water absorption of from 1 to 30 ml/m2, the surrounding label has an Elmendorf tear strength, as measured in either of the winding direction of the label or the direction perpendicular to that direction, of from 8 to 50 gF, and the label contains a thermoplastic resin.

Abstract: A thermal-formed high-blocked composite packaging material of co-extruded PVDC-polyolefin is made up of the up film as the exploded view and the down film as the forming -film. The up film is BOPP/PE-TIE-PVDC-TIE-PP-PE which is co-extruded by the multi-layer flow or inflation film and formed by the dry of the solvent-free; the down film is the PP-TIE-PVDC-TIE-PE which is co-extruded by the multi-layer flow or inflation film. PVDC is homopolymerization of the polyvinylidene chloride or the copolymer of the methyl acrylate or the vinyl chloride, the PE is the polyethylene or the modified polyethylene, the PP is the polypropylene or themodified polypropylene. It can solve the problem of effective composite of the PVDC-polyolefin material in the condition of the co-extruding. The product has the high oxygen and water resistance, can be used for various packages of gasing, vacuumizing and thermal forming.

Abstract: The present invention relates to a heat-sealable label comprising a carrier layer, a print, and a heat-sealable adhesive layer, wherein the heat-sealable adhesive layer is a dried dispersion comprising polymeric particles having a coalescence temperature at or above 50° C. and at least 10% (w/w) of the total mass of said polymeric particles are constituted by particles having an average particle diameter of at least about 0.5 ?m. This particular adhesive layer results in absence of a tendency of the labels to block when winded up in a roll. Thus, a release layer may be omitted, which allows for a label with more versatile surface properties.

Abstract: The present invention provides flexible packaging webs comprising a non-oriented metallized sealant film characterized by a secant modulus of less than 120,000 psi and an elongation at break of greater than 150%, wherein the non-oriented metallized sealant film comprises (1) a thermoplastic base layer of a material selected from the group consisting of ethylene/vinyl alcohol copolymer, ethylene/acrylic acid copolymer, ethylene/norbornene copolymer, polyamide and blends thereof; (2) a metal coating deposited on the base layer and having an optical density of 1.0 to 3.0; and (3) a heat sealing layer. The packaging webs of the present invention each exhibit an oxygen gas transmission rate of between 0 to 10.0 cm3/100 in2/24 hours at 73° F. (0 to 155 cm3/m2/24 hours at 23° C.) and 0% relative humidity and a water vapor transmission rate of between 0 to 0.1 g/100 in2/24 hours at 100° F. (0 to 1.55 g/m2/24 hours at 38° C.) and 90% relative humidity. The sealant films are formed by a blown coextrusion method.

Abstract: A box is collapsible in such a manner that it can form a flat stack of panels, each of which corresponds to one side of the box. When the box is configured as a flat stack of panels, it is relatively compact and, therefore, easy to store. When the collapsible box is configured as a box, it is sturdy and strong. The collapsible box has latching elements that can temporarily connect adjacent sides of the box to one another. Typically, a person can latch and unlatch the latching elements with his or her hand. The box is typically transparent and, therefore, well suited for displaying ornamental items, such as ornate hats.

Abstract: Disclosed is a label 1 for battery packaging, which includes a heat shrinkable film 2, and a printed layer 3 and an adhesive layer 4 each arranged on or above the heat shrinkable film 2. The adhesive layer 4 includes an emulsive heat-sensitive adhesive containing an ethylene polymer and 10 to 30 percent by weight of a tackifier based on the total solid content. The ethylene copolymer has an ethylene content of 66 to 84 percent by weight and a melting point of 60° C. to 90° C. The heat shrinkable film 2 is preferably a film having a percentage of heat shrinkage in a main stretching direction of 10% or more after being immersed in a glycerol bath at 100° C. for five seconds. The label 1 for battery packaging excels in low-temperature tack and blocking resistance and is less likely to deteriorate with time.

Abstract: A method of manufacturing a multilayered circuit board includes the steps of: manufacturing a laminated body by laminating a prepreg of a predetermined thickness on at least one surface of a double-sided circuit board having a grounding link and a signal wiring patterned on both surfaces thereof; and applying heat and pressure to the laminated body and completing a layered structure in which the signal wiring is laid inside the prepreg at a boundary between the double-sided circuit board and the prepreg, wherein prepreg sheets of a predetermined thickness are used in a completed layered structure so that a thickness of a prepreg of the double-sided circuit board is smaller than a distance between a surface of the prepreg on a side not opposed to the double-sided circuit board and the signal wiring laid inside the prepreg.

Abstract: A printing line is provided for producing a retro-reflective material which comprises at least one first screen printing stage. The or each first stage comprises a screen with a shaped stencil, for applying a layer of adhesive to a substrate in a pattern defined by the stencil or stencils. The printing line also comprises a second screen printing stage which comprises a screen with a shaped stencil having a shape within the boundaries of, or the same as, the adhesive pattern generated by the or each first stage, for applying a layer of retro-reflective elements, for example micro-beads, to the layer of adhesive.

Abstract: The laser-transmissive welding label of the present invention is a resin label which comprises at least a resin layer and is affixable to a resin shaped article by a laser welding, wherein the resin layer has a light-scattering property, and the transmittance of the resin layer relative to a laser beam having an oscillation wavelength within the range of 740 to 1100 nm is not less than 20%, and the total light transmittance of the resin layer relative to a visible light (in accordance with ASTM D1003) is not more than 50%. The resin layer may comprise a thermoplastic resin which may have a compatibility with a resin for the resin shaped article. The label may be able to mask the resin shaped article, or may be colored with a coloring agent. A shaped composite article (e.g., a toner cartridge) may be formed by bonding the label to the resin shaped article with use of the laser welding.

Abstract: An insulating label stock or sleeve formed from such label stock includes a thermal insulating layer, which may a fiberfill batt. The batt is laminated to at least one layer of heat shrinkable material, such as a film. The insulated packaging material may be coated with a coating material to enhance printing capabilities. The insulating label stock or sleeve is installed around a container, and after being activated by heating, conforms to the contours of the container. The insulating label stock retains its hot and cold insulative properties after being heat-shrunk.

Abstract: An in-mold label film comprises a core layer and a heat seal layer wherein the heat seal layer comprises a very low density polyethylene and a high density polyethylene. The inventive film is useful in providing a method of in-mold labeling an article, a labeled article and a method to improve handleability of an in-mold label film.

Abstract: The gas barrier film of the present invention is a gas barrier film comprising a base material, and an inorganic thin film composed of a silicon oxide film formed on one or both surfaces of the base material, wherein radical density of the Pb center of the silicon oxide film observed by an electron spin resonance method (ESR method) is from 1×1016 to 1×1019 spins/cm3, or a gas barrier film comprising a base material, an inorganic thin film containing silicon oxide and the other metal component formed on one or both surfaces of the base material, wherein radical density of the Pb center of the silicon oxide in the inorganic thin film observed by an ESR method is from 13×1014 to 3×1017 spins/mol, and a laminate wherein at least one paper and/or plastic film is laminated on the gas barrier film.

Abstract: A decorative laminate (10) includes a polymer or engineered film with fluorine (100), a decorative pattern (20) visible through the polymer film (100), and a substrate (200) supporting the polymer film (100) and decorative pattern (20). An embossing layer (70) may be included between the polymer film (100) and substrate (200). The embossing layer (70) or substrate (200) or both may contain one or more fire retardant materials such as halogens. The decorative laminate (10) has a resistance to sustained ignition rated as at least M1 according to French Epiradiateur Test NFP 92-501, and a smoke index value of 80 or less, a classification of F3 or better according to French standard NF F-16-101 based on French Tests NF X 70-100 and NF X 10-702, and a resistance to graffiti in a range of G0-G1 as measured by French Graffiti test NF F 31-112.

Abstract: Provided herein are multilayer film structures that may be used in packaging applications, for example. The multilayer film structures include a first metallized thermoplastic film and a second thermoplastic film. These first and second films are joined directly to each other over at least a portion of their surface area to form a laminate having the structure “first thermoplastic film/metallic layer/second thermoplastic film”. The thermoplastic layers of the films may be the same or different and comprise one or more ethylene acid copolymers or ionomers thereof. The first metallized thermoplastic film has an optical density of 3 or less. When the first metallized thermoplastic film and the second thermoplastic film are joined by heat sealing to form the structure “thermoplastic film/metallic layer/thermoplastic film”, its internal seal strength is at least about 4 N/15 mm.

Abstract: A laminate film including a first polyolefin heat sealable matte resin layer including a blend of 15-30 wt % metallocene-catalyzed butene-propylene elastomer and 85-70 wt % of a matte resin including ethylene homopolymer and propylene homopolymer or copolymer is disclosed. The laminate film could further have additional layers such as a second polyolefin resin-containing layer, a metal layer, or combinations thereof.

Abstract: A radio-frequency (RF) responsive tag comprising a heat-sealing substrate comprising a polyester layer, and an antenna comprising a patter of conductive material wherein said conductive material is in direct contact with a heat-sealing surface of the substrate, and wherein the shrinkage of the heat-sealing substrate is less than 5% at 190° C. over 30 minutes; a method of manufacture of said RF-response tag.