Abstract: A method for electrostatic coating of medical devices such as stents and balloons is described. The method includes applying a composition to a polymeric component of a medical device which has little or no conductivity. The polymeric component could be a material from which the body or a strut of the stent is made or could be a polymeric coating pre-applied on the stent. The polymeric component could be the balloon wall. A charge can then be applied to the polymeric component or the polymeric component can be grounded. Charged particles of drugs, polymers, biobeneficial agents, or any combination of these can then be electrostatically deposited on the medical device or the coating on the medical device. One example of the composition is iodine, iodine, iodide, iodate, a complex or salt thereof which can also impart imaging capabilities to the medical device.

Abstract: A multi-plume pulsed laser deposition (MPPLD) system has been provided for fabrication of an array of diverse materials in predefined regions on a substrate. In one embodiment, the method comprises splitting a high power laser beam into multiple laser beams, split laser beams being focused onto target materials, multiple plumes being generated on the surfaces of target materials, deposition of ablated target materials non-uniformly on a substrate covered with a mask, and heating the substrate during deposition.

Abstract: The invention addresses the problem of providing a method for producing microparticles. Provided is a method for producing microparticles. For the first process, seed microparticles are separated in a thin film fluid that forms between at least two processing surfaces, which are disposed facing each other, which can approach or separate from each other and at least one of which rotates relative to the other, and the fluid comprising the separated seed microparticles is discharged as a discharge fluid. Subsequently, for the second process, the separated seed microparticles are grown in the discharged discharge fluid to obtain the intended microparticles. Uniform and homogeneous micropartcles are obtained as a result of the microparticle producing method comprising the two process.

Abstract: To provide an apparatus and process capable of continuously forming a fluorinated organosilicon compound thin film having high durability while a substrate is transported.

Abstract: Materials for making bromine- and antimony-free polyvinyl chloride (PVC) compounds and constructions that have low flame and smoke properties as well as low brittleness properties. The compositions are especially useful for making cable jackets, particularly riser and plenum cables. The compositions contain PVC resins, plasticizers, non-brominated flame retardants, fillers and stabilizers, and optionally smoke suppressants.

Abstract: The present invention provides a colored masking liquid composition, and a method of masking a paint spray booth, wherein the composition comprises one or more polymers dispersed or dissolved in water, a base in a sufficient amount to provide a pH greater than 7, and a pH indicator that is colored at the pH of the masking liquid composition. Applying the colored masking liquid composition to the interior surface of a spray booth and allowing to dry results in a colorless mask.

Abstract: Processes for recovering inorganic powder materials from polymer-based coating compositions used to deposit a polymer-based coating. The process includes combining a polymer precursor, first solvent, and inorganic powder material to form a suspension, and applying the suspension to a substrate to form a layer. At least a portion of the suspension that did not adhere to the substrate is then collected. Residual portions of the first solvent and polymer precursor are at least partially removed from this portion of the suspension to yield a crude inorganic powder material comprising a residual portion of the inorganic powder and optionally a partially-cured polymer precursor, the latter of which can be removed by treating the crude inorganic powder material with a second solvent.

Abstract: A particulate film laminating system includes: a nanoparticle generating chamber in which nanoparticles of a metal material are generated; a nanofiber generating chamber in which nanofibers of a resin material are generated; a laminating chamber in which the nanoparticles and the nanofibers are film-formed and laminated on a substrate; a nanoparticle film-forming region configured such that the nanoparticles are film-formed in the laminating chamber; a nanofiber film-forming region configured such that the nanofibers are film-formed in the laminating chamber; a moving unit which moves the substrate between the nanoparticle film-forming region and the nanofiber film-forming region; an exhaust unit which exhausts the laminating chamber; and a coolant-gas introduction unit which introduces coolant gas into each of the nanoparticle generating chamber and the nanofiber generating chamber.

Abstract: A technique and apparatus for cleaning the underside of a pedestal in a single- or multi-station semiconductor processing chamber or tool are provided. Also provided is an integrated vacuum foreline manifold having symmetric flow path lengths that may be used in multi-station semiconductor processing chamber or tool.

Abstract: The invention relates to a device for manufacturing coated materials, the device comprising: a furnace comprising an enclosure (2) that is designed to be caused to rotate, that has an inside wall (2A) and that is provided with a main inlet (3) designed to receive non-coated new granular materials (25) or recycled granular materials (25) or a mixture of both of these types of granular materials, and an outlet for the bituminous coated materials that are manufactured inside the enclosure (2); heater means defining a combustion zone (4) inside the enclosure (2) and generating a drying flow suitable for drying the granular materials (25); and protective means for protecting the inside wall (2A), which means are situated in the combustion zone (4); said device being characterized in that the protective means are formed by a plurality of plates (13) that extend at some distance away from or else against the inside well (2A), and that are mutually overlapping in part so as to protect the inside wall (2A) ther

Abstract: The present invention has an object to provide a flaky particulate material giving skin an excellent smoothness, which is free from whitening problem upon use thereof owing to its high transparency. The present invention also has another object to provide a cosmetic composition containing the flaky particulate material. The present invention relates to flaky particulate material, which has an average coefficient of friction is not more than 0.50, and a total light transmittance is not less than 85%. A particle in the flaky particulate material comprises a substrate particle made of one material selected from the group consisting of mica, a synthetic mica, sericite, talc, barium sulfate and aluminum oxide. The present invention provides a flaky particulate material that gives skin excellent smoothness, a natural tone, and a matt appearance. The flaky particulate material of the present invention gives a cosmetic composition which provides great comfort of use, and an excellent appearance.

Abstract: This disclosure includes a process that unexpectedly can produce very inexpensive graphene, functionalized graphenes, and a new compound called graphenol in particulate or dispersions in solvents. The process can also produce graphene layers on metallic and nonmetallic substrates. Further, the graphenol, functionalized graphenes, and graphene can be utilized to form nanocomposites that yield property improvements exceeding anything reported previously.

Abstract: A coating composition for a food or beverage can that includes an emulsion polymerized latex polymer formed by combining an ethylenically unsaturated monomer component with an aqueous dispersion of a water-dispersible polymer.

Abstract: Electronic device processing systems including cobalt deposition are described. One system includes a mainframe having a transfer chamber and at least two facets, and one or more process chambers adapted to carry out a metal reduction or metal oxide reduction process and possibly an annealing processes on substrates, and one or more deposition process chambers adapted to carry out a cobalt deposition process. Other systems includes a transfer chamber, one or more load lock process chambers coupled to the transfer chamber that are adapted to carry out a metal reduction or metal oxide reduction process. Additional methods and systems for cobalt deposition processing of substrates are described, as are numerous other aspects.

Abstract: A chemical vapor deposition raw material for producing a platinum thin film or a platinum compound thin film by a chemical vapor deposition method, wherein the chemical vapor deposition raw material includes an organoplatinum compound having cyclooctadiene and alkyl anions coordinated to divalent platinum, and the organoplatinum compound is represented by the following formula. Here, one in which R1 and R2 are any combination of propyl and methyl, propyl and ethyl, or ethyl and methyl is particularly preferred. wherein R1 and R2 are alkyl groups, and R1 and R2 are different; and a number of carbon atoms of R1 and R2 is 3 to 5 in total.

Abstract: An undercoat agent used for phase separating a layer containing a block copolymer having a block of a structural unit derived from an (?-substituted) acrylate ester on a substrate, and which contains a resin component including a structural unit represented by formula (ba0-1), and/or a structural unit represented by formula (ba0-2), and a structural unit (ba0-3) having a substrate interacting group, wherein R represents a hydrogen atom, an alkyl group of 1 to 5 carbon atoms or a halogenated alkyl group of 1 to 5 carbon atoms, R1 and R2 represent a halogen atom or an organic group of 1 to 20 carbon atoms which may contain an oxygen atom, a halogen atom, or a silicon atom, and n is 1 to 5.

Abstract: A plating method can improve adhesivity with an underlying layer. The plating method of performing a plating process on a substrate includes forming a first plating layer 23a serving as a barrier film on a substrate 2; baking the first plating layer 23a; forming a second plating layer 23b serving as a barrier film; and baking the second plating layer 23b. A plating layer stacked body 23 serving as a barrier film is formed of the first plating layer 23a and the second plating layer 23b.

Abstract: The present invention is directed towards methods comprising providing a frozen liquid, coating the frozen liquid with an aqueous calcium solution; and exposing the frozen liquid coated in calcium to an alginate solution to create a liquid container.

Abstract: Described is a method for producing a multicoat color and/or effect paint system by (1) applying to a substrate a pigmented aqueous basecoat material, (2) forming a polymer film from the coating material applied in stage (1), (3) applying a clearcoat material to the resultant polymer film, and then (4) curing the polymer film together with the clearcoat film. The pigmented aqueous basecoat material comprises at least one alcohol having a structure: wherein R is a C1 to C4 alkyl radical, with the proviso that R is not an n-butyl radical. The at least one alcohol is used in an amount of 0.1% to 5% by weight, based on the total weight of the aqueous basecoat material. Additionally, described are the corresponding coating materials and also the use of the alcohols in pigmented aqueous coating materials.

Abstract: A mixture includes a pulped solid material, water, a viscosity modifier, and a dye. The solid material, water, viscosity modifier, and dye are mixed to form a slurry that will adhere in a layer onto a freshly finished concrete structure for purposed of aiding in curing the concrete.

Abstract: To provide a process for producing a glass substrate provided with an inorganic fine particle-containing silicon oxide film, wherein inorganic fine particles having a desired particle size may be used depending on intended optical properties, and the range of selection of the inorganic fine particles is wide.

Abstract: Highly durable hydrophobic, oleophobic, and anti-icing coatings and methods of their preparation and use are described herein.

Abstract: A method of forming a material structure from structural units contained within a liquid solution in a spray head is described. The liquid solution includes a solvent and a solute, the solute comprising a plurality of the structural units, the structural units including monomer units, oligomer units, or combinations thereof. The method comprises forming droplets of the liquid solution including the structural units, and spraying the droplets on a substrate, thereby substantially increasing the reactivity of the structural units within the droplets relative to the structural units within the liquid solution in the spray head. The increase in reactivity can result from the droplets containing an excess of a particular ion, the ion excess resulting from a voltage applied to conductive walls of the device which dispenses the droplets. The material structure is then formed on the substrate from the more highly reactive structural units within the droplets.

Abstract: The present invention relates to a spark discharge generator. The spark discharge system of the present invention includes a plurality of columnar electrodes and a ground plate having a plurality of outlet holes at positions corresponding to the columnar electrodes. The use of the spark discharge generator enables the production of a three-dimensionally shaped nanostructure array on a large area in a uniform and rapid manner.

Abstract: A composition comprising dihydropyrazinyl anions that can be coordinated as 6 electron ligands to a broad range of different metals to yield volatile metal complexes for ALD and CVD depositions are described herein. Also described herein are undeprotonated dihydropyrazines that can coordinate to metals as stabilizing neutral ligands. In one embodiment, the composition is used for the direct liquid injection delivery of the metal dihydropyrazinyl complex precursor to the chamber of an ALD or CVD chamber for the deposition of metal-containing thin films such as, for example, ruthenium or cobalt metal films.

Abstract: A method for producing a transparent conductive pattern having an improved conductivity by pulse light irradiation. A transparent conductive pattern is produced by coating and drying a dispersion liquid having metal nanowires dispersed therein on a substrate, to deposit the metal nanowires, and irradiating pulsed light having a pulse width of 20 microseconds to 50 milliseconds to the metal nanowires deposited on the substrate, to thereby join intersections of the metal nanowires.

Abstract: In a conductive film forming method using photo sintering, a conductive film having low electric resistance is easily formed. The conductive film forming method is a method in which a conductive film is formed using photo sintering. This method includes the steps of forming a layer made of a sintering promoter on a substrate, forming a liquid film made of a copper particulate dispersion on the layer of the sintering promoter, drying the liquid film to form a copper particulate layer, and subjecting the copper particulate layer to photo sintering. The sintering promoter is a compound which removes copper oxide from metallic copper. Thereby, the sintering promoter removes a surface oxide film of copper particulates in photo sintering.

Abstract: A high-temperature insulation assembly for use in high-temperature electrical machines and a method for forming a high-temperature insulation assembly for insulating conducting material in a high-temperature electrical machine. The assembly includes a polymeric film and at least one ceramic coating disposed on the polymeric film. The polymeric film is disposed over conductive wiring or used as a conductor winding insulator for phase separation and slot liner.

Abstract: A microwave plasma reactor for manufacturing synthetic diamond material via chemical vapour deposition, the microwave plasma reactor comprising: a plasma chamber; a substrate holder disposed in the plasma chamber for supporting a substrate on which the synthetic diamond material is to be deposited in use; a microwave coupling configuration for feeding microwaves from a microwave generator into the plasma chamber; and a gas flow system for feeding process gases into the plasma chamber and removing them therefrom; wherein the gas flow system comprises a gas inlet nozzle array comprising a plurality of gas inlet nozzles disposed opposite the substrate holder for directing process gases towards the substrate holder, the gas inlet nozzle array comprising: at least six gas inlet nozzles disposed in a substantially parallel or divergent orientation relative to a central axis of the plasma chamber; a gas inlet nozzle number density equal to or greater than 0.

Abstract: The present invention relates to a laser depositioning device with a machine bed, onto the surface of which can be deposited a powder material, using at least one first laser for layer by layer melting of the powder material, characterized in that at least one second laser is provided to melt on the powder material layer by layer, with the second laser having a higher power than the first laser, as well as to a method for producing a component provided with a supporting structure.

Abstract: A substrate suitable for use with digital imaging systems such as large-scale digital flatbed printers is provided. This substrate includes a first layer that further includes a durable material suitable for receiving a printed image; a second layer that is attached to the first layer, wherein the second layer further includes a material that is different than the material of the first layer, and wherein the second layer is operative to provide structural support to the first layer. The first layer may include a variety of papers, canvas or canvas-like material, or unbleached, uncoated, high-strength paperboard. The second layer may include a substantially rigid polystyrene core or other rigid or semi-rigid material. A third layer may be attached to the second layer and may include some or all of the components of the first layer. This printing substrate may include an integrated frame for providing structural support to the substrate.

Abstract: A vacuum insulating glazing includes first and second glass substrates that are stacked with a gap set at a pressure less than an atmospheric pressure, and the gap is sealed peripherally by a sealing. The sealing includes a metal component and a glass layer that bonds the metal component and the glass substrates. A material for the metal component is selected from materials whose tensile strength X (N/mm2) and breaking elongation Y (%) satisfy a relationship Y?0.10X by a room temperature tensile test (tensile speed: 1 mm/min) that is performed after the materials are kept at 490° C. for 40 minutes in an atmosphere.

Abstract: Hanging structure includes a structure frame, the structure frame having a substantially convex polyhedron shape, the structure frame comprising at least one facet, at least one level and a ratio; a plurality of compressive members being disposed to align along a substantially horizontal alignment on the structure frame and configured to absorb a compressive force, the plurality of compressive members further being disposed to delineate each of the at least one level; and a plurality of tensile members carrying the plurality of compressive members, the plurality of tensile members being disposed to align along a substantially vertical or diagonal alignment on the structure frame; and a plurality of moment resisting nodes defining attachment points between the plurality of compressive members and the plurality of tensile members.

Abstract: The present invention provides a light-weight fiber-reinforced composite material that has excellent flame retardance and mechanical properties and never emits a halogen gas. The present invention also provides a prepreg and en epoxy resin composition suited to obtain the above described fiber-reinforced composite material. The present invention also provides an integrated molding which is produced using the above described fiber-reinforced composite material, thereby suitable for use in electric/electronic casings. The epoxy resin composition is such that it contains the following components [A], [B] and [C]: [A] epoxy resin, [B] amine curing agent, and [C] phosphorus compound, wherein the concentration of the component [C] is 0.2 to 15% by weight in terms of phosphorus atom concentration.

Abstract: A polylactic acid formed body including a polylactic acid base material (1) and a hydrocarbon film (3) vapor-deposited on the surface of the base material by a plasma CVD method. The polylactic acid base material (1) exhibits a sharp X-ray diffraction peak in which a half-width of peak appearing in the 10°-25° wide angle X-ray measurement is not more than 1.22°, and the hydrocarbon film (3) is vapor-deposited on the surface of the polylactic acid base material (1), and includes two layers of a high CH2 layer (3a) having a ratio of CH2 per the total of CH, CH2 and CH3 of not less than 40% and a low CH2 layer (3b) formed on the high CH2 layer (3a) and having a ratio of CH2 per the total of CH, CH2 and CH3 of not more than 35%.

Abstract: The present invention provides a polyester-based resin composition containing: a resin component which contains 80 to 98 mass % of polyester resin (A) including aromatic dicarboxylic acid units and diol units, and 20 to 2 mass % of polyamide resin (B) including diamine units and dicarboxylic acid units, the diamine units containing 70 mol % or more m-xylylenediamine units and the dicarboxylic acid units containing 70 mol % or more ?,?-aliphatic dicarboxylic acid units; and 0.005 to 0.1 parts by mass of a specific epoxy-functional polymer (C) with respect to 100 parts by mass of the resin component.

Abstract: An adhesive tape includes a base tape layer, an adhesive layer, and a release liner. The adhesive layer is applied to the base tape layer and includes a tacky surface. The release liner is arranged on the tacky surface, and is also configured for removal from the base tape layer to thereby uncover the tacky surface. The release liner is constructed from a film that is characterized by a microstructure having polymer chains with a multi-axial orientation such that the release liner has substantially equivalent strength in multiple non-parallel directions. A method of affixing a component to a panel via the adhesive tape is also disclosed.

Abstract: A pressure-sensitive adhesive tape includes: a pressure-sensitive adhesive layer that contains at least a fine particle and/or a bubble and both the surfaces of which are pressure-sensitive adhesive surfaces; and a release liner having both a first release layer that is provided on one surface of the pressure-sensitive adhesive layer so as to contact the one surface and a second release layer located opposite to the first release layer. The thickness of the pressure-sensitive adhesive layer is 0.2 to 2.0 mm. The second release layer of the release liner is structured such that a holding time measured by a predetermined method is 2500 minutes or longer.

Abstract: Described herein are release layers formed via solventless extrusion. The release layers include a polyolefin and an alkyl dimethicone. The release layers exhibit tailorable release properties from pressure-sensitive adhesives. The release layers are simple to make and require no post-treatment in order to impart the observed release properties. The release layers are adaptable to multilayer extrusion, blown film formation, and cast film formation techniques.

Abstract: Provided is an adhesive tape including: a substrate; and an adhesive layer laminated on one surface or both surfaces of the substrate, wherein one or both of the substrate and the adhesive layer are produced in a nano-web form in which fiber strands are captured by a spinning method. Thus, the adhesive tape can be made thin, and an adhesive strength can be improved. In addition, the adhesive tape can be precisely attached on a corrugated surface. When the adhesive tape attached between components is separated from the components, the adhesive layers can be prevented from remaining on the surfaces of the components.

Abstract: A composite structural element is provided herein, which comprises a basal member having voids of a predefined shape that are open to a surface thereof; and filling elements designed to fit into the voids. The predefined shape of the voids and/or an interface between the filling elements and the voids are arranged to maintain the filling elements within the voids.

Abstract: A display apparatus includes a first substrate including a display region and a peripheral region, where the peripheral region surrounds the display region, a second substrate disposed opposite to the first substrate, a resin layer disposed between the first substrate and the second substrate, where the resin layer covers a surface of the second substrate, a first member disposed at a bottom surface of the second substrate corresponding to the peripheral region of the first substrate, where the first member covers a portion of the resin layer, and a second member which surrounds the first substrate, the second substrate, the first member and the resin layer, where the second member is disposed at opposing side portions of the second substrate, the second member is spaced apart from the first substrate, and the second member surrounds opposing side portions of the resin layer.

Abstract: A vacuum heat insulating material having an improved structure to prevent the heat bridge phenomenon while improving the durability thereof, and a refrigerator having the same, the vacuum heat insulating material including a core material in a vacuum state, a sealing layer surrounding the core material, an inner layer covering the sealing layer, and having a first side and a second side connected to the first side, a protective layer located at an outside of the inner layer, a first blocking layer having at least one portion located between the first side of the inner layer and the protective layer, and a second blocking layer having at least one portion located between the second side of the inner layer and the protective layer.

Abstract: A vacuum heat insulating panel comprises outer wrapping material and core material. A getter is provided in the core material. The outer wrapping material is made by compounding wrapped material without aluminum foil on one side or both sides. The core material is made of an aggregate of glass fiber with uniform laminated structure, and the diameter of the glass fiber is 1-3 ?m. A method for manufacturing the vacuum heat insulating panel is also disclosed. Due to very high vacuum degree in the vacuum heat insulating panel, the heat transferring speed is reduced. And, because of the outer wrapping material without aluminum foil layer, the edge thermal bridge effect is eliminated and the heat insulation effect is very good.

Abstract: The disclosure provides an infrared absorption material, a method for fabricating the same, and a thermal isolation structure employing the same. The infrared absorption material includes a tungsten bronze complex having a formula of M1xM2yWOz, wherein 0.6?x?0.8, 0.2?y?0.33, 0.8?x+y<1, and 2<z?3; M1 is Li, or Na; and, M2 is K, Rb, or Cs. In particular, the tungsten bronze complex consists of a cubic tungsten bronze (CTB) and a hexagonal tungsten bronze (HTB).

Abstract: A composite laminate has a pattern of holes therein. The holes are formed by laying down plies of unidirectional pre-preg material having varying fiber orientations. The tows are spaced apart and located to form holes through the laminate.

Abstract: A sheetlike composite material including at least one layer A of a nonwoven thermoplastic fibre web or a thermoplastic film, and at least two unidirectional oriented-fibre layers B and B?, the layers B and B? having a bidirectional fibre orientation. The layers are not only needled but also stitched to one another.

Abstract: Various embodiments provide a bi-angle pliable tape for use in forming a composite laminate structure. The bi-angle pliable tape comprises: a longitudinal axis extending in a unidirectional machine direction; a first ply comprising fibers extending in a first orientation, the first orientation being offset relative to the longitudinal axis at a first angle of less than 30°; and a second ply comprising fibers extending in a second orientation, the second orientation being opposite the first orientation relative to the unidirectional machine direction. The first ply and the second ply are further secured substantially adjacently relative to one another by one or more yarns so as to provide a non-crimped configuration such that the bi-angle tape defines a pliable structure. Corresponding composite laminate structures and methods for making the same are provided.

Abstract: A sandwich type load bearing panel (1) with a transversely shear stiff core (3) and a plurality of individual unidirectional plies respectively for a first and a second composite layer (2, 4), bonded each to one of the main surfaces of the core (3). The first composite layer (2) is a continuous and monolithic assembly and the second layer (4) is an open net of intercrossing strips (4a, 4b, 4c) running along at least three directions and being laid up of said plurality of individual unidirectional plies.

Abstract: The present invention belongs to the technical field of architecture decoration wooden door structure, which includes of a type of crack-resistant composite wooden door and its manufacturing method. It includes the core body, panel plate and core plate. The core body includes core frame and the hollow section which enclosed by the core frame. The core plate is installed in the inside of the hollow section. There is hollowed-out section in the panel plate. The shape of the panel plate matches that of the core body, and the shape of the hollow-out section matches that of the hollow section. A manufacturing method of the crack-resistant composite wooden door is provided accordingly.