Abstract: A method of making a coated article (e.g., window unit), and corresponding coated article are provided. A layer of or including diamond-like carbon (DLC) is formed on a glass substrate. Then, a protective layer is formed on the substrate over the DLC inclusive layer. During heat treatment (HT), the protective layer prevents the DLC inclusive layer from significantly burning off. Thereafter, the resulting coated glass substrate may be used as desired, it having been HT and including the protective DLC inclusive layer.

Abstract: Catalysts and catalytic articles for treating exhaust gas streams are described. In one or more embodiments, a catalyst system includes a first zone to abate nitrogen oxides by selective catalytic reduction, a second zone to oxidize ammonia and a third zone to oxidize carbon monoxide and hydrocarbons. Methods for treating the exhaust gas stream are also provided. Methods of making and using such catalysts and catalytic articles are also described.

Abstract: A method of protecting a brake caliper is provided. The method includes the steps of cleaning an outer surface of a brake caliper and blending a liquid protective covering solution in an applicator mix the coating composition. The applicator is primed to start the flow of the solution. A first coat of the protective solution is applied to the brake caliper and allowed to dry. Additional coats can be applied as desired. The protective solution includes a water based or alcohol based solvent, a binder selected from the group consisting of an acrylic, a polyurethane, a polyester melamine and acrylate resins or blends thereof and an acrylic copolymer.

Abstract: A refrigeration circuit (3) for household appliances comprises a compressor (4) suitable for compressing a predetermined cooling fluid and for allowing circulation thereof within said circuit (3), a first heat exchanger (5) or condenser in fluid communication with the compressor (4) for allowing cooling and the consequent condensation of the cooling fluid going therethrough, and a second heat exchanger (7) or evaporator in fluid communication with the first exchanger (5) through a circuit with a special device (6) suitable for decreasing the pressure of the cooling fluid and acting at a space (2) to be cooled (normally inside the refrigerator). The second exchanger (7) allows the cooling fluid to evaporate, by heat absorption, thus cooling the space (2) and returning through the tubing (17) to the compressor (4). The cooling fluid circulates from the compressor (4) towards the first exchanger (5), from the latter towards the second exchanger (7), then returning to the compressor (4) for a subsequent cycle.

Abstract: The present disclosure relates to an oxidation resistant nanocrystalline coating and a method of forming an oxidation resistant nanocrystalline coating. An oxidation resistant coating comprising an MCrAl(Y) alloy may be deposited on a substrate, wherein M, includes iron, nickel, cobalt, or combinations thereof present greater than 50 wt % of the MCrAl(Y) alloy, chromium is present in the range of 15 wt % to 30 wt % of the MCrAl(Y) alloy, aluminum is present in the range of 6 wt % to 12 wt % of the MCrAl(Y) alloy and yttrium, is optionally present in the range of 0.1 wt % to 0.5 wt % of the MCrAl(Y) alloy. In addition, the coating may exhibit a grain size of 200 nm or less as deposited.

Abstract: A multilayer film structure for increasing transmittance includes a transparent substrate and a multifunctional film module. The multifunctional film module is formed on a front surface of the transparent substrate and composed of a plurality of dielectric layers and a plurality of metal layers. The dielectric layers and the metal layers are alternately stacked onto each other, and each metal layer is formed by mixing at least two metals. Each dielectric layer is a silicon carbide compound layer that is SiC, and each metal layer is formed by mixing Ag and Cu.

Abstract: Provided is a method of preparing a film including the steps of providing a polymer substrate, depositing a metal layer on the polymer substrate in a metallization chamber, removing the metallized film from the metallization chamber, and applying a topcoat to said metal layer within 1 week of depositing the metal layer on the polymer substrate. A film produced by such a method exhibits improved barrier properties, such as improved water-vapor transmission rates.

Abstract: A tool for machining is made from a hard-metal, cermet or ceramic base material and a single-layer or multi-layer hard material coating on the base material. An additional coating of one or more metals from the group of aluminum, copper, zinc, titanium, nickel, tin or base alloys of these metals is applied to the hard material coating.

Abstract: In the method for producing a layer system on a dielectric substrate in which a metal layer is applied onto the substrate by a coating step (110) and a further layer with a predetermined layer thickness is subsequently applied by a further coating step (140), the metal layer having a sheet resistance >10 Mohm and an average reflectance >50%, the further layer would have a sheet resistance <1 Mohm if it had been applied onto the substrate with the same layer thickness by the further coating step (140), and the layer system consisting of the metal layer and the further layer has a sheet resistance >10 Mohm, where the invention furthermore relates to a layer system on a dielectric substrate in which a metal layer is applied onto the substrate by a coating step (110) and a further layer with a predetermined layer thickness is subsequently applied by a further coating step (140), the metal layer having a sheet resistance >10 Mohm and an average reflectance >50%, where the further layer, if it had

Abstract: Plastic cutlery and tableware made in at least two parts joinable to form a unitary utensil, serving piece, beverage container or non-food contacting tableware in which the two parts are made of different materials. The materials of the two parts differ in at least one of the following: color, type of plastic, grade of plastic, source of plastic, and additives such as the presence of an anti-microbial agent, transparency, or reflectivity. Food-grade resins, for example, can be used for the heads of cutlery and recycled resins are used for the handles. Heads can be separately metalized and then joined to non-metalized handles. Handles may be made to fit to different types of heads. The two parts of the cutlery may be joined by inserting a tang extending from one into a cavity formed in the other. The two parts of tableware may be joinable by a snap-fit configuration.

Abstract: A metal/fiber laminate has a plurality of adjacent layers. Each layer is porous and includes an arrangement of fibers. At least one of the layers has its fibers coated with a metal. A polymer matrix permeates each such arrangement.

Abstract: A process for the manufacture of a metallic seal comprising applying a first intermediate layer to a base metal, applying a second intermediate layer overlying the first intermediate layer, applying a first coating layer comprising silver overlying the second intermediate layer, applying a second coating layer comprising indium overlying the first coating layer, baking the base metal with applied intermediate and coating layers at a temperature to diffuse the coating layers to form a silver indium alloy coating layer. A seal comprising a substrate having a metal surface, a first intermediate layer overlying the base metal, a second intermediate layer overlying the first intermediate layer, an alloy coating layer overlying the second intermediate layer, wherein the alloy coating layer comprises a silver indium alloy.

Abstract: A process is described for depositing a metal film on a substrate surface having a diffusion barrier layer deposited thereupon. In one embodiment of the present invention, the process includes: providing a surface of the diffusion barrier layer that is substantially free of an elemental metal and forming the metal film on at least a portion of the surface via deposition by using a organometallic precursor. In certain embodiments, the diffusion barrier layer may be exposed to an adhesion promoting agent prior to or during at least a portion of the forming step. Suitable adhesion promoting agents include nitrogen, nitrogen-containing compounds, carbon-containing compounds, carbon and nitrogen containing compounds, silicon-containing compounds, silicon and carbon containing compounds, silicon, carbon, and nitrogen containing compounds, or mixtures thereof. The process of the present invention provides substrates having enhanced adhesion between the diffusion barrier layer and the metal film.

Abstract: A coated substrate is disclosed. The coated substrate includes a substrate and a coating composition over the substrate comprising at least one metal based layer selected from tungsten, chromium, tantalum, molybdenum, aluminum, niobium, and mixtures and alloys thereof; and mixtures and alloys of cobalt and chromium; and at least one dielectric layer including SixNy, where x/y ranges from 0.75 to 1.5, over the metal based layer. The ?Ecmc (1.5:1) (T), ?Ecmc (1.5:1) (R1) and ?Ecmc (1.5:1) (R2) of a non-heat treated, coated substrate as compared to a heat treated, coated substrate according to the present invention are no greater than 8 units.

Abstract: A process to reduce the bevel angle in a mold used to form a write head is disclosed. First, tantalum is used instead of alumina for the yoke area. Then both the tantalum and the alumina areas are simultaneously subjected to reactive ion etching, leading to sloping sidewalls in the alumina area (write pole) while providing near vertical sidewalls in the tantalum (yoke) area. Consequently, the neck height is the same at the cavity floor as it is at the cavity top.

Abstract: A method is disclosed for enhancing the corrosion resistance of a surface of a copper or copper alloy substrate. The method comprises depositing a metallic surface layer comprising a precious metal on a surface of the copper or copper alloy substrate by immersion displacement plating and exposing the electronic device to an aqueous composition comprising a first organic molecule comprising at least one functional group that interacts with and protects precious metal surfaces and a second organic molecule comprising at least one functional group that interacts with and protects copper surfaces.

Abstract: An article includes a polymeric film having a major surface, a discontinuous layer of a catalytic material on the major surface, and a metal pattern on the catalytic material. The discontinuous layer of catalytic material has an average thickness of less than 200 angstroms. Methods of forming these articles are also disclosed.

Abstract: The present invention is directed to a composite particle that is microscopically two-dimensional with a third nanoscopic dimension, and to methods of making same. The particle may include a support and a metal layer. The metal layer may be catalytically active such that the particle is adapted to act as a catalyst.

Abstract: A surface treating method for making a housing having a main body includes forming a plating layer on the main body, coating an adhesive on the plating layer to form an adhesive layer, and coating a lacquer on the adhesive layer to form an outer layer. The adhesive comprises polyolefin chloride.

Abstract: The invention relates to a method for producing a laser-inscribable film with metallic surface luster, wherein at least one laser-inscribable layer, i.e. an engraving layer, is applied to a support, in particular directly onto the support. According to the invention, a gloss layer is applied to the engraving layer, said gloss layer containing metal gloss pigments.

Abstract: The present invention provides a biosensor, wherein non-specific adsorption on a surface that does not retain a physiologically active substance (reference unit) is suppressed. The biosensor of the invention includes a substrate having at least two types of surfaces on a single plane, wherein at least one of the surfaces does not retain a physiologically active substance, and wherein at least two types of hydrophilic compounds with different molecular weights are bound to the surface that does not retain a physiologically active substance.

Abstract: A fluid ejection apparatus includes a substrate having a plurality of fluid passages for fluid flow and a plurality of nozzles fluidically connected to the fluid passages, a plurality of actuators positioned on top of the substrate to cause fluid in the plurality of fluid passages to be ejected from the plurality of nozzles, and a protective layer formed over at least a portion of the plurality of actuators, the protective layer having an intrinsic permeability to moisture less than 2.5×10?3 g/m·day.

Abstract: A solar receiver device includes a metal conduit and a glass container disposed around the metal conduit such that there is a space between the glass container and the conduit. A coating is disposed on the metal conduit and has a composition that includes at least one element from silicon, titanium, aluminum, barium, and samarium.

Abstract: A method of manufacturing such gas separation membrane system that includes applying to a surface of a porous substrate a layer of a nanopowder of a gas-selective metal and, thereafter, heat-treating the resultant surface treated porous substrate to yield a heat-treated and surface-treated porous substrate suitable for use as a gas separation membrane system.

Abstract: A tool or wear part has a coating formed over a substrate. The coating includes at least one sequence of a ductile nano-layer located between two hard layers, though the coating may have several such sequences created by alternating ductile nano-layers with hard layers, with adjacent sequences sharing a hard layer. The various hard layers may differ in composition from one another, as can the ductile nano-layers. An optional adhesion layer may be provided between the substrate and the sequence, and an optional top layer may be provided over the outermost hard layer. The various layers may be deposited by physical vapor deposition in a single chamber.

Abstract: An exemplary embodiment provides coated polymeric substrates that have a polymeric substrate body with a coated surface. The surface coating includes more than one pair of coating layers. Each pair of coating layers includes a first applied coating layer and a second applied coating layer. In addition, an indicator, applied on top of or between coating layers, provides an indication of wear of the coating. The first and second applied coating layers have a thickness between about 3 to about 10 nanometers. The coating exhibits a Hall-Petch effect.

Abstract: The invention pertains to high-molecular compound-based composite materials using carbon and can be used for anodes of electrolytic capacitors made on the elastic dielectric film base with current-carrying coating. Polyester-base film material chiefly of polyethylene terephthalate has nanodimensional metal coating. New is that a diamond-like layer 5-50 nm thick is placed between the modified surface of the polyester base and metal coating and a sponge metal layer 0.5-20 ?m thick is made on the metal coating surface, said sponge metal layer has a surface development factor within the range of 80-400 and the diamond-like nanolayer is sp3-hybridization of amorphous carbon atoms gas-phase deposited in vacuum by means of a ion-plasmous source. The proposed film material with a wide range of electrophysical properties is intended to be used in microelectronics and radio engineering as versatile constructional material.

Abstract: A coated substrate and a method of forming a diffusion barrier coating system between a substrate and a MCrAl coating, including a diffusion barrier coating deposited onto at least a portion of a substrate surface, wherein the diffusion barrier coating comprises a nitride, oxide or carbide of one or more transition metals and/or metalloids and a MCrAl coating, wherein M includes a transition metal or a metalloid, deposited on at least a portion of the diffusion barrier coating, wherein the diffusion barrier coating restricts the inward diffusion of aluminum of the MCrAl coating into the substrate.

Abstract: A sputtering target includes a copper indium gallium sputtering target material on a backing structure. The sputtering target material has a density of at least 100% or more as defined by the rule of mixtures applied to densities of component elements of the sputtering target material. The sputtering target material has an overall uniform composition.

Abstract: The present invention provides methods for producing a crack-free abradable coating with enhanced adhesion. The methods include the steps of providing a substrate and applying an abradable material to the substrate, either directly or indirectly via one or more additional layers. A critical coating temperature of the abradable material is determined that ensures that the thermal stress level in the abradable material is lower than the tensile strength of the abradable material. The temperature of the abradable material is held at a constant temperature below the critical coating temperature throughout the step of applying the abradable material to the substrate.

Abstract: The present invention relates to a double-sided photosensitive color photographic paper and a method for manufacturing the same. The photographic paper comprises a paper base, and a first photosensitive layer and a second photosensitive layer provided on two opposite sides of the paper base, respectively, wherein a silver shading layer is coated between the paper base and the first photosensitive layer and/or between the paper base and the second photosensitive layer. The function of the silver shading layer is to block majority of light so that light exposed to one side of the photographic paper will not expose to the photosensitive layer on the other side of the photographic paper. Therefore, undesired images on the other photosensitive layer and degradation of the original imaging quality can be avoided. Sliver in the silver shading layer can be removed during the development of the photographic paper, and the final viewing quality of the photographic paper will not be impacted.

Abstract: Methods of attaching a ligand to a surface are described that include contacting a surface with a substrate containing an amphiphilic comb polymer. The substrate is configured to provide a pattern of the amphiphilic comb polymer on a selected region of the surface. The substrate can be separated from the surface leaving the amphiphilic comb polymer on the selected region of the surface, thus providing a selected region of the surface having amphiphilic comb polymer on it. A ligand can then be deposited on the surface such that the selected region of the surface having the amphiphilic comb polymer is substantially free of the ligand.

Abstract: A metal/fiber laminate has a plurality of adjacent layers. Each layer is porous and includes an arrangement of fibers. At least one of the layers has its fibers coated with a metal. A polymer matrix permeates each such arrangement.

Abstract: A coating method including coating a liquid material including an oxidizable metal on a substrate a plurality of times to laminate a plurality of liquid material layers on the substrate; and adjusting at least one of oxygen concentration and humidity inside a chamber having a coating space in which the coating part applies the liquid material on the substrate and a transport space into which the liquid material is transported.

Abstract: Comparative effectiveness of various oral care products such as dentifrices on preventing dental erosion may be demonstrated using simulated enamel. A substrate is prepared. A mineral layer to simulate dental enamel is nucleated by solution growth on the substrate surface. Alternatively, the mineral layer may be nucleated on a template comprising a self-assembled monolayer formed on a gold layer deposited on the substrate surface. The mineral layer may comprise a homogeneous layer of hydroxyapatite or a thin veneer of hydroxyapatite on a layer of amorphous calcium phosphate. The simulated enamel is then optionally treated with an oral care product and subjected to an acid challenge. The amount of mineral layer remaining after the acid challenge illustrates the effectiveness or non-effectiveness of the oral care product at preventing dental erosion.

Abstract: A multi-layer film structure for use in forming blister packaging. The multi-layer structure includes a first polymeric layer having a first surface and a second surface, the first polymeric layer comprising a metalized polyethylene teraphthalate, a second polymeric layer having a first surface and a second surface, the first surface of the second polymeric layer disposed adjacent the second surface of the first polymeric layer, the second polymeric layer comprising a cyclic olefin or a homopolymer of chlorotrifluoroethylene, and a third polymeric layer having a first surface and a second surface, the first surface of the third polymeric layer disposed adjacent the second surface of the second polymeric layer, the third polymeric layer comprising polypropylene or polyvinyl chloride. A method of making a multi-layer film structure and a packaging structure are also provided.

Abstract: A high-strength quenched formed body containing a layer on the surface of an after-quenching formed-body steel material in which layer Zn is a major component and which layer contains 30% by mass or less of Fe, and which layer is present in an amount of 30 g/m2 or more. A quenched formed body is produced by quenching a zinc-plated steel material which includes a zinc-plated layer containing each of Al and Si having alloying-retarding function and readily-oxidizing function independently or compositely, in an amount of 0.15% by mass or more, after heating it to 800° C. or more and 950° C. or less in an oxidizing atmosphere containing 0.1% by volume or more of oxygen.

Abstract: A titanium-copper-nickel based alloy is used for the formation of at least one resistive thin film on a polymer substrate. The alloy comprises 50 to 80% by weight of titanium, 10 to 25% by weight of copper and 10 to 25% by weight of nickel. The thin film has a thickness between about 100 and 160 nanometres.

Abstract: Disclosed is a method for making a non-metallic, fiber-reinforced barrel tube having particular application for use in a barrel system to be attached to a paintball marker in order to direct paintballs propelled by the marker towards a target. A mandrel is first dipped in a releasing agent. The mandrel is then coated with a thin layer of metal (e.g., nickel or chrome) by means of a nano vapor deposition process. Next, a fiber-reinforced resinous sheet is wrapped over the thin metal layer to establish a tube therearound. A heat-sensitive plastic tape is wound around the tubular resinous sheet. The mandrel is heated in an oven to cause the thin metal layer to bond to the tubular resinous sheet. At the same time, the heat-sensitive tape shrinks to squeeze any air bubbles from the resinous sheet.

Abstract: Improved surface-enhanced Raman scattering (SERS) substrates comprising chemically-derivatized magnetic microparticles complexed with metal colloidal particles or substrates. The SERS substrates permit collection, detection, measurement, and/or analysis of analytes present at concentrations ranging parts per trillion to parts per billion. Further, compositions, methods, and devices that provide for rapid and/or sensitive detection of chemical compounds of interest present in small concentrations. The subject matter has use in the areas of homeland security and force protection, for example, in the detection of trace samples including, for example, BTEX (benzene, toluene, ethylbenzene, and xylenes), chlorinated solvents, TNT, nerve agents, blister agents, metal ions, anions, antigens, peptides, nucleic acids, spores, fungi, viruses, and bacteria.

Abstract: Provided are methods and initial structures for fabricating corrosion resistant steels that incorporate an aluminum rich corrosion resistant surface layer. The initial structures utilize layering and/or patterning for reducing the effective diffusion length Deff to a value well below the total thickness of the aluminum alloy protective layer X1 by providing vertical and/or lateral laminated structures that provide ready sources of Fe atoms during subsequent heat treatment processes.

Abstract: A coated forming tool including a tool component and a wear resistant coating on at least a portion of the tool component. The wear resistant coating includes a bottom coating layer and a top coating layer. The top coating layer has a thickness from about 1 ?m to about 12 ?m and the coating has a thickness ratio of the bottom coating layer thickness to the top coating layer thickness from about 0.5 to about 5.

Abstract: A method of forming a structure useful in all forms of deposited metals, elemental metals, metal alloys, metal compounds, metal systems, including refractory metals such as tungsten and tantalum is provided. The structure generally comprises a substrate, a first layer formed atop the substrate, and a second layer formed atop the first layer. The first layer comprises a metal, which can be chromium, gold, platinum, aluminum, nickel, or copper. The second layer comprises a metal, elemental metal, metal alloy, metal compound, or metal system comprising a refractory metal such as tungsten or tantalum. The substrate can be a silicon, quartz or glass, metal, metal oxide or nitride.

Abstract: The present invention relates to an adhesive film with which a flexible metal-clad laminate is obtained with suppressed dimensional changes occurred when produced by a laminating method; and a flexible metal-clad laminate comprising the adhesive film and a metal foil bonded thereto. The adhesive film comprises a polyimide film and, formed on at least one side thereof, an adhesive layer comprising a thermoplastic polyimide and has coefficients of linear expansion satisfying the relationship 1.0>(coefficient of linear expansion in the MD direction)/(coefficient of linear expansion in the TD direction)>0.1. This adhesive film may be one produced continuously and further satisfying the relationship 1.70>(elastic modulus in the MD direction)/(elastic modulus in the TD direction)>1.05 when the adhesive film has an MD modulus of 5 GPa or higher throughout the whole width thereof. That adhesive film may be one produced continuously and further satisfying the relationship 2.

Abstract: A glass product of the present invention (1) comprises a glass substrate (2), a reflective metal layer (3) deposited on the glass substrate, and a passivation layer (4) deposited on the reflective metal layer. According to the present invention, the passivation layer (4) is deposited using an Atomic Layer Deposition (ALD) process.

Abstract: A multilayer coating has a first coating layer deposited on a substrate; a second coating layer deposited on the first coating layer; and a third coating layer deposited on the second coating layer. The first coating layer is substantially a metal, the second coating layer is a mixture of the metal and a polymeric material, and the third coating layer is substantially the polymeric material. The substrate is at least one of iron, iron pipe, steel, copper, nickel, concrete, wood, wood products, fiberglass, ceramic, plastic, and any other metal or non-metal material that can be used as a substrate, and the metal is at least one of zinc, aluminum, magnesium, indium, gallium, tellurium, and alloys thereof, whereby the metal used is anodic to the substrate. The polymeric material is at least one of polyethylene, polypropylene, nylon, polytetrafluorethylene (PTFE), ethylene methacrylate acid copolymer (EMAA), a thermoplastic material and a thermoset material.

Abstract: The present invention provides a method for making a polymer dielectric composition incorporating diamondoids or diamond-like hydrocarbon units. The method includes forming a polymer solution from the cardo-diol 9,9-bis(4-hydroxyphenyl)fluorene and a diacid chloride, casting a freestanding thin polyester film from the polymer solution, and metallizing the polyester film with an evaporated Al layer to form the dielectric composition. The diacid chloride may be derived from trans-1,4-cyclohexanedicarboxylic acid; 1,3-adamantanedicarboxylic acid; or 4,9-diamantanedicarboxylic acid.

Abstract: A method of forming a layer of alpha-tantalum on a substrate including the steps of depositing a layer of titanium nitride on a substrate; and depositing a layer of alpha-tantalum on the layer of titanium nitride, wherein the deposition of the alpha-tantalum is carried out at temperatures below about 300° C.

Abstract: An extreme low resistivity light attenuation anti-reflection coating structure in order to increase transmittance of blue light, includes a substrate and a coating module. The coating module is formed on a front surface of the substrate and composed of a plurality of silicon carbide compound coating layers, a plurality of Al-based oxide coating layers and a plurality of metal coating layers that are alternately stacked onto each other.

Abstract: A composition and method are disclosed. The composition both conditions and activates a dielectric material for metal deposition. The metal may be deposited on the dielectric by electroless methods. The metallized dielectric may be used in electronic devices.