Abstract: A manufactured door is disclosed having at least one mid panel having a plurality of openings formed therethrough. In an example, two mid panels are assembled back-to-back with one another. The example manufactured door also includes a front outer panel assembled over the at least one mid panel to form a front door side. A back outer panel is assembled over the at least one mid panel to form a back door side. A door skin is laminated on the front outer panel and the back outer panel for a finished appearance to the manufactured door.

Abstract: A cord is provided, including: a core material and an outer layer. The core material includes a plurality of first strands braided with one another, and the outer layer is disposed around the core material and includes a plurality of second strands knitted with one another.

Abstract: A method and process is provided for manufacturing a glassed reinforced polymer composite laminate panel. The method and process includes the steps of providing a mold including a flexible polymer film; depositing a layer of gel coat on the flexible polymer film; curing the layer of gel coat to provide a semi-rigid intermediate panel; applying a layer of resin material overtop of the cured gel coat layer; laying a sheet of woven or non-woven surface veil material over top of the cured gel coat layer; laying a sheet of glass reinforced matte overtop of the surface film sheet; applying a second layer of resin material overtop the sheet of glass reinforced matte to form the glassed reinforced polymer composite laminate panel; and curing the glassed reinforced polymer composite laminate panel. The method for manufacturing the composite laminate panel can be a continuous process making a panel of indeterminate length.

Abstract: A method for producing a composite resin particle dispersion includes: performing polymerization A by polymerizing a styrene compound and a vinyl monomer other than the styrene compound to form a styrene-based resin; performing polymerization B by polymerizing a (meth)acrylic acid ester compound in the presence of the styrene-based resin to form intermediate resin particles containing the styrene-based resin and a (meth)acrylic acid ester-based resin; and performing polymerization C by polymerizing a styrene compound and a vinyl monomer other than the styrene compound in the presence of the intermediate resin particles to form composite resin particles. The mass ratio of the styrene-based resin to the (meth)acrylic acid ester-based resin in the composite resin particles is from 80:20 to 20:80. A difference between the lowest glass transition temperature and the highest glass transition temperature in the composite resin particles is 30° C. or more.

Abstract: A positive electrode as an example of an embodiment includes a positive electrode current collector, a positive electrode mixture layer which is disposed on at least one surface side of the positive electrode current collector, and an intermediate layer which is interposed between the positive electrode current collector and the positive electrode mixture layer. The intermediate layer contains insulating inorganic particles having a thermal conductivity of less than 50 W/mK, highly thermal conductive particles having a thermal conductivity of 50 W/mK or more, a thermoplastic resin, and polyvinylidene fluoride. The content of the inorganic particles is 50% by mass or more relative to the mass of the intermediate layer.

Abstract: The invention relates to a construction element (10) having a total length (L), a total width (B) and a total height (H) and comprising the following components: a first cover plate (11) and a second cover plate (12), each having a length corresponding to the total length (L), and each having a width corresponding to the total width (B), a layer (13) arranged between the first and the second cover plate (11,12), comprising a plurality of tube segments (14) having a tube length (LR) extending in longitudinal extension direction, wherein the tube segments (14) are arranged in the direction of the total length (L) and/or in the direction of the total width (B) in relation to the tube length (LR), and wherein the tube segments (14) comprise a wood-based material, and wherein the tube segments (14) comprise a wall (140), which is delimited by at least two cut ends (141,142) in the circumferential direction of the respective tube segment (14), wherein the tube length (LR) corresponds to the total length (L) and/

Abstract: Described herein are hydrogels attached to a base with the strength and fatigue comparable to that of cartilage on bone and methods of forming them. The methods and apparatuses described herein may achieve an attachment strength between a hydrogel and a substrate equivalent to the osteochondral junction. In some examples the hydrogel may be a triple-network hydrogel (such as BC-PVA-PAMPS) that is attached to a porous substrate (e.g., a titanium base) with the shear strength and fatigue strength equivalent to that of the osteochondral junction.

Abstract: The present invention relates to a sandwich panel and a method of manufacturing the same. The sandwich panel according to the present invention has high density and improved physical properties such as flexural strength, flexural modulus, bending strength and lightening weighting ratio and is suitable for use in various consumer products or industrial materials.

Abstract: The present invention relates to a sandwich panel and a method of manufacturing the same. The sandwich panel according to the present invention has high density and improved physical properties such as flexural strength, flexural modulus, bending strength and lightening weighting ratio and is suitable for use in various consumer products or industrial materials.

Abstract: A method of producing a laminated article comprising placing a first metal skin, a core, and a second metal skin freely onto each other as discreet layers to provide a layered component; and forming the layered component into a shaped article via a die prior to producing a laminated article by applying pressure and heat to the shaped article, wherein at least the first skin moves relative to the core and/or second skin during the forming.

Abstract: Provided is an entry sheet for drilling that, compared with a conventional entry sheet for drilling, has better hole position accuracy, can suppress drill bit breakage, and exhibits less processing chips wrapping around the drill bit. This entry sheet for drilling includes a metallic support foil and a layer comprising a resin composition that is formed on at least one surface of the metallic support foil, wherein the resin composition contains a cellulose derivative (A) and a water-soluble resin (B), the cellulose derivative (A) includes a hydroxyalkyl cellulose and/or a carboxyalkyl cellulose having a weight average molecular weight of 20,000 to 350,000, and based on 100 parts by mass of the resin composition, the content of the cellulose derivative (A) is 5 to 40 parts by mass and the content of the water-soluble resin (B) is 60 to 95 parts by mass.

Abstract: The present invention relates to an entry sheet for drilling use, which exhibits excellent hole position accuracy even when transported at ambient temperature for a long time and/or stored under a thermal environment having a higher temperature than in Japan, more specifically to an entry sheet for drilling use for a laminated board or a multi-layered board comprising a metallic support foil and a layer of water-soluble resin composition formed on at least one surface of the metallic support foil, wherein the water-soluble resin composition comprises a water-soluble resin, a water-soluble lubricant and a linear unsaturated fatty acid salt, the layer of water-soluble resin composition is formed by cooling from a cooling start temperature of 120° C. to 160° C. to a cooling end temperature of 25° C. to 40° C. within 60 seconds at a cooling rate of not less than 1.5° C./sec, the water-soluble resin composition has a degree of crystallinity of not less than 1.

Abstract: A method of thermally insulating an object that requires a Class A standard insulation material, said method comprising suitably locating a metallized polymeric reflective insulation material adjacent said object, wherein said polymeric material is selected from a closed cell foam, polyethylene foam, polypropylene foam, expanded polystyrene foam, multi-film layers assembly and a bubble-pack assembly. The object is preferably packaging, a vehicle or a residential, commercial or industrial building or establishment. The polymeric material may contain a fire-retardant and the bright surface of the metallized layer has a clear lacquer coating to provide anti-corrosion properties, and which meets commercial reflectance criteria.

Abstract: A coated substrate that is at least partially corrosion protected is described. The coated substrate includes (a) a substrate and (b) at least one metal layer provided on the substrate, the metal layer having (i) a first metal that is aluminum, lead, vanadium, manganese, magnesium, iron, cobalt, nickel, copper, titanium, or zinc; or (ii) a first metal alloy that is brass, bronze, stainless steel, magnesium alloy, titanium alloy, or aluminum alloy; and wherein at least one oxide, double oxide, oxide hydrate, or oxyhalogenide of a second metal selected from the group consisting of zirconium, titanium, and hafnium is embedded in the metal layer; and wherein the metal layer has a thickness in the range of 20 nm to 120 nm.

Abstract: The invention provides articles and methods for making such articles including a substrate coated on at least one region thereof with a layer of nanocomposites nano-cellulose materials and nanoparticles.

Abstract: Provided is a friction material composition comprising: a binder; a fibrous base material; an abrasive material; an inorganic filler; and an organic filler, wherein the friction material composition further comprises: at least one selected from the group consisting of zinc, a cellulose fiber as the fibrous base materials and a flame retardant fiber as the fibrous base materials; an iron-based fiber as the fibrous base material in an specified amount; and an inorganic abrasive material having a Mohs hardness of 8 or higher and a particle size of 1 ?m or larger as the abrasive material in an amount of 1 wt % or less.

Abstract: The present invention provides a structural laminate comprising a core layer disposed between and bonded to each of a first metal skin layer and a second metal skin layer, the core layer comprising: a low density composite layer including a mixture of thermoplastic resin, and natural fiber. The core layer may further include a first and a second adhesive layer interposed between each of the first and the second metal skin layers and the composite layer.

Abstract: A barrier packaging material containing a composite which comprises i) a cellulosic layer; ii) at least one metal layer which will dissolve under alkaline conditions; and iii) at least one polymer layer, in which the polymer is hydrolysable under alkaline conditions. The invention also relates to articles comprising the barrier packaging material. Further, the invention concerns the use of a polymer, which is hydrolysable under alkaline conditions, as a protective layer in barrier packaging products. In addition the present application is also concerned with a method for recycling the aforementioned barrier packaging products. Specifically the barrier packaging products are initially taken in an aqueous wastepaper suspension which is either pulped in an alkaline medium and/or treated in an alkaline medium in a deinking process and in which the metal and polymer are then separated from the cellulosic fibres contained in the cellulosic layer.

Abstract: A thermo-insulating packaging material including a paper-based substrate layer, a paper-based top layer and a thermal-insulating composition positioned between the paper-based substrate layer and the paper-based top layer, the thermal-insulating composition including a filler, an organic binder and a plasticizer.

Abstract: The invention provides a novel flexible, substantially gas impermeable laminate material comprising starch/polymer blends, which can be used to make dispensing tubes, e.g., for toothpaste, which material is light, resilient, and inexpensive, which can be made almost entirely from renewable materials, and which can be recycled.

Abstract: A magnetic sheet system providing flexible magnetic sheets that are digitally printable on both sides and that serve as magnetic postcard stocks for production of customized magnetic postcards.

Abstract: A current collector for an electrochemical element including an aluminum foil showing a peak in the range between 945 cm?1 and 962 cm?1 in measurement of a surface layer of the aluminum foil by Fourier transform infrared spectroscopy. The current collector can be obtained by a manufacturing method which includes the steps of: preparing an aluminum foil material; washing a surface of the aluminum foil material with a chemical solution capable of dissolving aluminum such as hydrochloric acid, aqueous nitric acid, aqueous sulfuric acid, aqueous solutions of alkali metal hydroxides and aqueous solutions of alkaline earth metal hydroxides; and optionally heat treating the aluminum foil at 70 to 200° C. and/or forming a coated layer including an electrically conducive material, on one or both surfaces of the aluminum foil.

Abstract: A paper includes a paper body containing pulp fibers, a low electric-resistance region provided in a layer inside the paper body and being lower than the paper body in electric resistivity, and magnetic bodies arranged inside the low electric-resistance region and having a large Barkhausen effect.

Abstract: An aqueous liquid composition contains a water-based medium containing water, chitosan and/or a chitosan derivative, and a polymeric acid, and has a pH of not higher than 4.5. The aqueous liquid composition contains low-cost materials having low environmental load, can retain adequate viscosity even when stored over a long term, and can form a functional coating film having excellent adhesiveness to a base material and superb durability, solvent resistance and waterproofness and capable of exhibiting various functions led by electrical conductivity and hydrophilicity.

Abstract: A laminating water-based surface treatment agent according to the present invention includes a chitosan derivative, a carboxyl compound having at least one carboxyl group in a molecule, and water. The content mass ratio of the chitosan derivative/the carboxyl compound falls within a range of 1.0/0.5 to 1.0/3.0. The laminating water-based surface treatment agent of the present invention can form an undercoating excellent in HF-resistance, electrolyte resistance, and solvent resistance, and also can sufficiently secure laminating adherence for a long term under more extreme environments required for a packaging material for a battery case or a tab lead for, e.g., a lithium ion secondary battery for automobiles.

Abstract: Compositions such as filled and coated papers may include microfibrillated cellulose and inorganic particulate material.

Abstract: A nanocomposite is disclosed comprising reduced graphene oxide (RGO) and at least one of a metal and an oxide of the metal. Also disclosed is an adsorbent comprising the nanocomposite and an adsorbent comprising the nanocomposite bound to silica by using chitosan. A filtering device comprising the nanocomposite and/or the adsorbent is also disclosed. Also disclosed are methods for producing the nanocomposites, adsorbents, and filtering devices described herein.

Abstract: A conducting substrate made of a nickel coating on paper that can be used in a dye-sensitized solar cell (DSSC or DSC). Zinc oxide is the preferred wide-band semiconductor deposited as a nanoparticle layer on the nickel-coated paper to form a photoanode once a dye is deposited on the nanoparticles. A method of constructing the nickel-coated paper substrate is also contemplated.

Abstract: A process for producing powder green compacts includes centrifugally compacting a slip containing a material powder, a binder resin and a dispersion medium in a mold, into a compact containing the material powder and the binder resin. A process for producing sintered compacts includes sintering the green compact. A powder green compact contains a material powder and a binder resin, the binder resin being present between particles of the material powder and binding the material particles. A sintered compact is obtained by sintering the green compact.

Abstract: Provided are a method for preparing a transparent conductive layer and a transparent conductive layer prepared by the method. The method for preparing a transparent conductive layer includes: 1) forming a cellulose derivative film by coating a transparent substrate with a cellulose derivative coating liquid; 2) hydrolyzing the cellulose derivatives by treating the cellulose derivative film using an alkaline agent; 3) forming a metal film by coating the hydrolyzed cellulose derivative film with an organic metal ink and reducing metals on the cellulose derivative; and 4) forming a conductive metal layer by heat-treating the cellulose derivative film with the metal film formed, and a transparent conductive layer prepared by the method. According to the present invention, a process can be simplified, and also a transparent conductive layer having excellent conductivity, transmittance, bending resistance, and low haze can be prepared.

Abstract: 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.

Abstract: An improved acoustical damping wall (ceiling or floor) or door material comprises a laminar structure having as an integral part thereof one or more layers of viscoelastic material which also functions as a glue and one or more constraining layers, such as metal, ceramics, composites, cellulose, wood, or petroleum-based products such as plastic, vinyl, plastic or rubber.

Abstract: Biologic coatings on a surface of a prosthesis or implantable device.

Abstract: A household appliance including at least one fascia panel, wherein the at least one fascia panel includes a film having a metallic material that provides a metallic appearance to the at least one fascia panel. In an exemplary embodiment of the invention, the metallic material may include one of a stainless steel material and a brushed nickel material. Further, the fascia panel may be formed from at least one of plastic, wood, and metal.

Abstract: Provided is a flame-retardant member having flexibility and a high degree of flame retardancy. A flame-retardant polymer member of the present invention is a flame-retardant polymer member having a polymer layer (B) and a flame-retardant layer (A) on at least one surface of the polymer layer (B), in which the flame-retardant layer (A) is a layer containing a layered inorganic compound (f) in a polymer (X).

Abstract: A resin film including a resin and an organic acid represented by the following formula (1), wherein the ratio of the organic acid to the resin is from 0.1 to 20% by mass: X-L-(R1)n??Formula (1).

Abstract: The invention relates to conductive inks obtained by combining AQCs and metal nanoparticles. Atomic quantum clusters (AQCs), which melt at temperatures of less than 150° C., are used as low-temperature “flux” for the formulation of conductive inks. The combination of AQCs with bimodal and trimodal mixtures of nanoparticles of various sizes guarantees the elimination of free volumes in the final sintering of the nanoparticles in order to achieve electronic structures with very low resistivity (close to that of the bulk material) with low-temperature thermal treatments (<150° C.

Abstract: A process to increase the resistance of paper board to hot penetrants using a sizing agent containing fatty acid anhydride, and an insolubilizing agent is disclosed. Additionally a composition useful to impart hot penetrant resistance is disclosed.

Abstract: A treatment for a microelectronic device comprises a dicing tape (110) and a polymer composite film (120) having a pigment or other colorant added thereto and, in some embodiments, a pre-cure glass transition temperature greater than 50° Celsius. The film can comprise multiple layers, with one layer being tacky and the other layer non-tacky at a given temperature.

Abstract: The present invention relates to a medical device or implant made at least in part of a high-strength, low-modulus metal alloy comprising niobium, tantalum, and at least one element selected from the group consisting of zirconium, tungsten, and molybdenum. The medical devices according to the present invention provide superior characteristics with regard to biocompatibility, radio-opacity and MRI compatibility.

Abstract: A primer-less coating composition for facestock comprises: a binder being a water-dispersible polymer; an ethylenically unsaturated compound which is aqueous-dispersible and miscible with or bonded to said water-dispersible polymer, wherein said ethylenically unsaturated compound is able to form a covalent bond with an ink; and a crosslinker, wherein said crosslinker is suitable for binding the coating to the facestock. The coating composition may be applied to a substrate to form a printable film. A printed film in accordance with the invention may be used in a label, for example for use on a container such as a bottle.

Abstract: This invention is based on sizes and shapes of wooden building panels that creates a standard of measurement for wooden stick built panels to increase efficiency in design, manufacturing, cost control and assembly. The corner panels have a 20 gauge galvanized metal plate that is sandwiched between the studs, top and bottom plates to complete structural soundness and maintain shape during storage, transport and assembly. Panels are joined with 20 gauge galvanized metal plates at first top plate to complete structural soundness and wooden cleats at vertical edge studs that allows for easier assembly and an even surface for interior wall covering installation.

Abstract: A non-foil packaging laminate for liquid food packaging comprises a first layer of paper situated towards the inner side of the packaging laminate and a second layer of paper situated towards the outer side of the packaging laminate, with the first and second paper layers laminated to each other by a first intermediate bonding layer in a sandwich structure. The packaging laminate further comprises a gas barrier coating layer, coated onto the inner side of the first paper layer by liquid film coating of a liquid gas barrier composition onto the first paper layer and subsequent drying, the liquid composition containing a polymer binder dispersed or dissolved in an aqueous or solvent medium, and a further barrier layer towards water vapour laminated and bonded to the barrier-coated inside of the first paper layer. Also disclosed is a method for manufacturing the laminate, and a packaging container made from the laminate.

Abstract: Provided is an aluminum foil according to the present invention including: a primer coated layer (13) which is formed by depositing a primer coating liquid on a non-glossy surface of the aluminum foil (11), and drying the primer coating liquid deposited on the non-glossy surface of the aluminum foil at temperature of 20 to 110° C. to then cool the same at temperature of 0 to 20° C.; a mid-coat layer (15) which is formed by depositing the mid-coating liquid on the upper portion of the primer coated layer (13); and a two-coat layer (17) which is formed by depositing the coating liquid on the upper portion of the mid-coat layer (15), and plasticizing the coating liquid deposited on the upper portion of the mid-coat layer for three to five minutes at temperature of 60 to 430° C.

Abstract: A substrate for a flexible display and a manufacturing method thereof are disclosed. The substrate is thin and has a low oxygen and moisture transmittance. The substrate includes a plastic substrate and a barrier layer formed on the plastic substrate and having a density gradient in which a content of a metal increases toward the plastic substrate and a content of oxygen increases away from the plastic substrate.

Abstract: A composite member provides support to a structure. A wooden core of the composite member has a perimeter and a length. The wooden core provides support to the structure. A metal jacket is attached to the perimeter of the wooden core of the composite member and spans the entire length. The metal jacket provides also support to the structure. Furthermore, the interaction between the wooden core and the metal jacket provide a combination of strength that surpasses the sum of individual strengths.

Abstract: The invention relates to a multilayer printable sheet, including a bottom support layer, an intermediate metal layer and a top layer made of transparent or translucent plastic material, a top surface of said layer of plastic material being covered with a coating layer made of a transparent or translucent matte varnish with a soft or silky touch.

Abstract: A molded article includes a first layer, a third layer, a second layer and a sealing layer, the first layer and the third layer are made of soft materials, the second layer and the sealing layer are made of plastic materials. The first layer and the third layer are combined to opposite sides of the second layer by the first injection molding step, the sealing layer encloses the edge of the molded article by the second injection molding step.

Abstract: A molded article includes a first layer made of soft material, a second layer made of plastic material; and a third layer made of hard material. The first layer and the third layer are respectively joined to the opposite sides of the second layer by injection molding. A method for making the molded article is also disclosed.

Abstract: A structure of combined metal casing and plastic member comprises a metal casing, a plastic member and an adhesive tape bonded between the metal casing and the plastic member. The adhesive tape is prepared by applying an adhesive bonding agent to a narrow elongated absorptive substrate by means of coating, spray-painting or printing. By means of using the adhesive tape to bond the plastic member to the metal casing, the plastic member is firmly secured to the metal casing, simplifying rapid fabrication and reducing the product manufacturing cost.