Entries |
Document | Title | Date |
20080248222 | Metallic Glass Laminates, Production Methods and Applications Thereof - A metallic glass laminate of the present invention is characterized in that a metallic glass layer of amorphous phase is formed on the substrate surface, and there is no continuous pore (pinhole) through the metallic glass layer. The metallic glass laminate is preferably obtained by solidification and lamination of at least part of the metallic glass powder in the molten state or in the supercooled liquid state on the substrate surface. Because of the dense metallic glass layer of homogenous amorphous phase, the functionalities of metallic glass such as corrosion resistance and wear resistance can be satisfactorily provided. A thick and a large-area metallic glass layer can be formed. The metallic glass layer can also be formed into various shapes within the supercooled liquid temperature range. In addition, a metallic glass bulk can be obtained by removing the substrate. The metallic glass laminate and the metallic glass bulk are utilized for a fuel cell separator, a hydrogen separation membrane, a hydrogen sensor, a solder-corrosion resisting member, etc. | 10-09-2008 |
20090098321 | Composite Heat Shield - A composite heat shield includes a ceramic composite heat shield body comprising a pair of generally spaced-apart heat shield side panels, a heat shield bottom panel extending between the heat shield side panels and having a heat exposure surface, a heat shield top panel extending between the heat shield side panels in spaced-apart relationship with respect to the heat shield bottom panel and having at least one heat shield surface and at least one heat shield cavity defined between the heat shield bottom panel and the heat shield top panel. | 04-16-2009 |
20090104387 | PROCESS AND APPARATUS FOR DRYING AND CURING A CONTAINER COATING AND CONTAINERS PRODUCED THEREFROM - The present invention generally relates to apparatus and methods of coating glass containers and the containers produced therefrom. In particular, embodiments of the invention provide a method of coating glass containers by at least partially drying and/or curing one or more organic coatings on a glass container using accelerated drying. | 04-23-2009 |
20090252907 | HYBRID CERAMIC STRUCTURE WITH INTERNAL COOLING ARRANGEMENTS - A structure for use in high temperature applications is provided. The structure may include an inner ceramic matrix composite (CMC) material ( | 10-08-2009 |
20090311452 | PROCESS OF DECORATING A TRANSPARENT OR TRANSLUCENT BOTTLE - A method for decorating a glass or plastic transparent or translucent bottle, for the cosmetic field, for containing a cosmetic product such as a perfume, or the like, the decoration of which is carried out inside the bottle, and which consists in making at least one coating onto the inner surface of the bottle, by spraying a liquid mist inside the bottle, characterised in that the liquid is chemically inert with a characteristic close to glass so that the inner coating forms a barrier protecting layer for protecting the cosmetic product from any possible migration detrimental to the fragrance and/or colour as wells as the preservation thereof. | 12-17-2009 |
20100009103 | MEDICAL MATERIAL - A medical material | 01-14-2010 |
20100075077 | CONTAINER HAVING IMPROVED EASE OF DISCHARGE PRODUCT RESIDUE, AND METHOD FOR THE PRODUCTION THEREOF - In order to improve the emptying of residual contents from containers, such as pharmaceutical packaging, the invention provides corresponding substrates with a hydrophobic coating. Provided for this purpose is a composite material which comprises a substrate and a coating deposited on it, which forms at least a part of the surface of the coated substrate, with the coating having a compound containing the elements C, O, and H, with further elements, apart from Si, C, H, having a content of less than 10 at %, preferably less than 5 at %, characterized in that this compound has a composition SiO | 03-25-2010 |
20100203271 | PROCESS FOR INCREASING THE ABRASION RESISTANCE OF A PRE-DETERMINABLE PART OF THE SURFACE OF A GLASS CONTAINER - The present invention relates to a process for increasing the abrasion resistance of a pre-determinable part of the surface of an annealed glass container comprising the following operative phases: a) applying a liquid composition comprising an organo-titanate compound on a pre-determinable part of the annealed glass container surface by spraying at room temperature;
| 08-12-2010 |
20100266790 | Structural Components for Oil, Gas, Exploration, Refining and Petrochemical Applications - A structural component for use in oil, gas, exploration, refining and petrochemical applications in the form of a pipe system is provided. The structural component comprises a plurality of layers, a structural layer comprising a composite material; a corrosion resistant layer for contacting the corrosive petroleum products, the corrosion resistant layer comprising a ceramic material; a fire resistive layer having a thermal conductivity of less than 0.4 W/m° C. In one embodiment, the structural component has a burn-through time of greater than 5 minutes. In another embodiment, the structural component meets level II fire endurance standard according to IMO A 18/Res.753 fire testing protocol. | 10-21-2010 |
20110033643 | METHODS OF MAKING AN UNSUPPORTED ARTICLE OF PURE OR DOPED SEMICONDUCTING MATERIAL - The invention relates to methods of making articles of semiconducting material and semiconducting material articles formed thereby, such as articles of semiconducting material that may be useful in making photovoltaic cells. | 02-10-2011 |
20110104412 | METHOD FOR DEPOSITING SILICON NANOCRYSTALS IN HOLLOW FIBERS - A method for depositing a layer of silicon nanocrystals upon the inside surface of hollow fibers is disclosed. In particular, the method includes inserting a hollow glass fiber into a solution of hydrogen silsesquioxane, removing the solvent and heating the hollow glass fiber to a temperature suitable to form silicon nanocrystals, and subsequently cooling the hollow glass fiber. | 05-05-2011 |
20110135857 | METHOD FOR SEALING A LIQUID WITHIN A GLASS PACKAGE AND THE RESULTING GLASS PACKAGE - A method for sealing a liquid within a glass package and the resulting sealed glass package are described herein where the sealed glass package can be, for example, a dye solar cell, an electro-wetting display or an organic emitting light diode (OLED) display. | 06-09-2011 |
20110143062 | ELECTRONIC DEVICE HOUSING - An electronic device housing includes a substrate and a metallic coating formed on the substrate. The substrate has a surface roughness of less than 60 nm. The metallic coating includes a plurality of first layers and a plurality of second layers. Each one of the first layers and each one of the second layers are alternately deposited on each other. The first layer and the second layer may be respectively tantalum pentoxide layer and silicon dioxide layer or may be respectively niobium pentoxide layer and zirconium dioxide layer. | 06-16-2011 |
20110143063 | SILICA CONTAINER AND METHOD FOR PRODUCING THE SAME - A method for producing a silica container that includes forming a powder mixture by adding an Al compound or a crystal nucleating agent into a first powdered raw material (silica particles), preliminarily molding to an intended shape by feeding the powder mixture to an inner wall of an outer frame while rotating the outer frame having aspiration holes, forming a silica substrate, wherein the preliminarily molded article is degassed by aspiration from a peripheral side and at the same time heated from inside the preliminarily molded article at high temperature thereby making a peripheral part of the preliminarily molded article to a sintered body while an inner part to a fused glass body, and forming a transparent silica glass layer on an inner surface of the silica substrate, wherein a second powdered raw material having a higher silica purity than the first powdered raw material is spread from inside the silica substrate and at the same time heated from the inside at high temperature. | 06-16-2011 |
20110151157 | COMPOSITE OBJECT AND METHOD FOR THE PRODUCTION THEREOF - A composite object comprises two components ( | 06-23-2011 |
20110159220 | THERMOSENSITIVE ADHESIVE LABEL AND LABELED CONTAINER WITH THE SAME - A thermosensitive adhesive label comprising a laminate film of a first film layer and a second film layer, and a thermosensitive adhesive layer on the surface of the second film layer side of the laminate, wherein the Bekk smoothness of the surface of the first film layer side of the laminate film is from 2000 to 20000 seconds, the Bekk smoothness of the surface of the second film layer side of the laminate film is from 800 to 20000 seconds, the contact angle with water of the surface of the second film layer side of the laminate film is from 20 to 80°, and the surface strength of the thermosensitive adhesive layer is from 0.6 to 1.8 kg-cm. | 06-30-2011 |
20110183091 | HOUSING FOR ELECTRONIC DEVICE AND METHOD OF FABRICATING THE SAME - A housing for an electronic device includes a metal substrate and a ceramic coating directly formed on at least portions of the substrate, the coated portions of the substrate having a rough surface. A method for fabricating the housing comprises roughening predetermined portions of the substrate; thermally spraying a ceramic coating on the roughened portions of the substrate, fixing the substrate on a tool having cold water circularly running there within during the thermal spraying; and grinding and polishing the ceramic coating. | 07-28-2011 |
20110244154 | METHOD AND CYLINDRICAL SEMI-FINISHED PRODUCT FOR PRODUCING AN OPTICAL COMPONENT - In a known method for producing a dimensionally stable semi-finished product for use in producing fibers from synthetic quartz glass, an SiO | 10-06-2011 |
20110250369 | PACKAGE, METHOD OF MANUFACTURING PACKAGES, AND METHOD OF MANUFACTURING PIEZOELECTRIC VIBRATORS - This package is a package formed by bonding a plurality of substrates including a first substrate and a second substrate and forming a cavity between the plurality of substrates, including a corrosion-resistant bonding film arranged on opposed surfaces of the first substrate and the second substrate so as to surround the cavity, and a high-bonding-property bonding film arranged on the opposed surfaces of the first substrate and the second substrate inward of the corrosion-resistant bonding film and having a bonding force stronger than the corrosion-resistant bonding film. | 10-13-2011 |
20110256328 | THREE-DIMENSIONAL DECORATION KIT - A configurable three-dimensional decorative kit is provided having a serving platter and a three-dimensional ceramic decoration removably coupled to a surface of the serving platter. The three-dimensional ceramic decoration depicts a food item or items. | 10-20-2011 |
20110256329 | NEAR NET FUSED SILICA ARTICLES AND METHOD OF MAKING - A near-net or net shape fused silica glass article, such as a radome. The article is formed by depositing silica soot onto a mandrel having a shape that corresponds to the shape of the fused silica glass article. In some embodiments, the mandrel is inductively heated to a temperature that is sufficient to consolidate or sinter the silica soot upon deposition onto the mandrel to form fused silica glass. The fused silica glass article may have an outer layer that is under compression and/or multiple layers comprising various dopants that can alter or affect physical, mechanical, electrical, and/or optical properties. | 10-20-2011 |
20110256330 | POWDERED SILICA, SILICA CONTAINER, AND METHOD FOR PRODUCING THEM - A method is provided for producing a silica container arranged with a substrate, having a rotational symmetry, comprised of mainly a silica, and containing gaseous bubbles at least in its peripheral part, and an inner layer, formed on an inner surface of the substrate and comprised of a transparent silica glass; wherein a powdered silica, having particle diameter of 10 to 1000 μm, containing Ca, Sr, and Ba with the total concentration of 50 to 5000 ppm by weight, and releasing hydrogen molecules with the amount of 3×10 | 10-20-2011 |
20110268899 | AQUEOUS SILANE SYSTEMS BASED ON BIS(TRIALKOXYSILYLALKYL)AMINES - The invention relates to an aqueous composition of bis-amino-functional silicon compounds which is essentially free of organic solvents and releases essentially no further alcohol in the course of crosslinking, and to processes for preparing it and to the use thereof, for example for hydrophobization of metal or glass surfaces. | 11-03-2011 |
20120040116 | DEVICE HOUSING AND METHOD FOR MAKING THE SAME - A device housing is provided. The device housing includes a substrate, and a photochromic coating formed on the substrate. The photochromic coating includes at least one of a silver chloride-cuprous chloride mixture, a silver bromide-cuprous bromide mixture, and a silver chloride-cuprous chloride-silver bromide-cuprous bromide mixture. A method for making the device housing is also described therein. | 02-16-2012 |
20120064266 | HOUSING AND METHOD FOR MANUFACTURING HOUSING - A housing includes a substrate; and a corrosion resistance layer deposited on the substrate. The corrosion resistance layer is a cerium oxide doped silicon nitride layer. | 03-15-2012 |
20120107536 | AMORPHOUS ALLOY HOUSING AND METHOD FOR MAKING SAME - An amorphous alloy housing includes an amorphous alloy substrate and a wear-resistant protective layer formed on the amorphous alloy substrate by vacuum deposition technology. A method for making the amorphous alloy housing is also provided. | 05-03-2012 |
20120121832 | DECORATION PANEL AND HOME APPLIANCE EQUIPPED THEREWITH - The present invention relates to a decoration panel for a home appliance and a home appliance equipped with the decoration panel. According to the present invention, it is possible to reduce the manufacturing cost by using green glass instead of white glass and achieve a clear white color at substantially the same level as using the white glass. | 05-17-2012 |
20120135168 | COOKING VESSEL PROCESSING METHOD AND COOKING VESSEL PROVIDED THEREBY - The present invention relates to a cooking vessel processing method and a cooking vessel provided thereby, and more specifically, to a cooking vessel processing method, which involves forming a base-coating layer over a base that is formed at the bottom of the cooking vessel; forming a printing layer over the base-coating layer by pad printing or screen printing; and forming a top-coating layer over the printing layer, and to a cooking vessel provided by the processing method. Conventional cooking vessels commonly use fluorine resin based materials as a non-stick coating material, but they have a weak surface strength (H 2˜3) and the coating comes off during use or can be plasticized at high temperature (400° C. or above), thereby deforming the base materials. However, a ceramic coating method using a sol-gel technique provides a high surface strength (H 8˜9) and a coating provided thereby does not come off even when cleaned with a scrubbing sponge or pad or scraped down by a metal spatula such that a cooking vessel having such a coating can be washed with water and used continuously in a hygienic manner. Further, the coating provided by the sol-gel technique gets plasticized at a low temperature (200° C. or below), thereby preventing the base materials from being deformed, and the coating is possible over a variety of materials. In the cooking vessel thus configured according to the present invention, the printing layer formed over the base-coating layer has various patterns, and the color of the printing layer changes depending on a heating temperature being transferred to the cooking vessel, which in turn helps a user determine the temperature being transferred to the cooking vessel with the naked eye. In addition, the top-coating layer formed over the base-coating layer contains a blend of magnetic elements such as iron, magnesium, cobalt and the like, and displays various patterns on the top of the cooking vessel depending on the angle of view and attracts the interest of users. | 05-31-2012 |
20120156407 | HOUSING AND METHOD FOR MANUFACTURING SAME - A housing includes a substrate; a color layer deposited on the substrate; and a pattern layer deposited on the color layer opposite to the substrate. | 06-21-2012 |
20120183708 | HOT WORKABILITY OF METAL ALLOYS VIA SURFACE COATING - A method of processing an alloy ingot or other alloy workpiece to reduce thermal cracking may generally comprise depositing a glass material onto at least a portion of a surface of a workpiece, and heating the glass material to form a surface coating on the workpiece that reduces heat loss from the workpiece. The present disclosure also is directed to an alloy workpieces processed according to methods described herein, and to articles of manufacture including or made from alloy workpieces made according to the methods. | 07-19-2012 |
20120189791 | OPTICAL MATERIALS, OPTICAL COMPONENTS, DEVICES, AND METHODS - An optical component including an optical material comprising quantum confined semiconductor nanoparticles, wherein the optical material has a solid state photoluminescent efficiency greater than or equal to 60%. Devices including optical materials and/or optical components and methods are also disclosed. | 07-26-2012 |
20120251745 | FUSED SILICA BODY WITH VITREOUS SILICA INNER LAYER, AND METHOD FOR MAKING SAME - A fused silica body comprising a layer of vitreous silica adjacent at least a portion of an inner surface is described in embodiments herein. In other embodiments, a method of making a fused silica body with a layer of vitreous silica adjacent at least a portion of an inner surface is described herein, comprising heating at least a portion of the inner surface to the point of vitrification. In certain embodiments, the method involves passing a linear local heat source over the inner surface in a particular manner, such as a helical fashion transverse to the linear shape, and may involve creating on the inner surface of the body overlapping swaths of temporarily melted silica material. | 10-04-2012 |
20120251746 | DEVICE HOUSING AND METHOD FOR MAKING THE SAME - A device housing is described. The device housing includes an aluminum alloy substrate and a compound corrosion resistant layer formed on the substrate. The compound corrosion resistant layer includes two crystalline films and a non-crystalline film formed between the crystalline films. One of the crystalline films is formed on the substrate. The crystalline film is a chromium-oxygen-nitrogen film or an aluminum-oxygen-nitrogen film. The non-crystalline film is an aluminum oxide film or a silicon dioxide film. A method for making the device housing is also described. | 10-04-2012 |
20120251747 | HOUSING AND METHOD FOR MANUFACTURING THE SAME - A housing includes a substrate and a metallic coating. The metallic coating is deposited on the substrate. The metallic coating comprises an equal number of alternating first metallic layers and second metallic layers. The first metallic layers have a refractivity that is different from the refractivity of the second metallic layers. | 10-04-2012 |
20130101765 | DEVICE HOUSING AND METHOD FOR MAKING THE SAME - A device housing includes a substrate and a decorative article formed in the substrate. The substrate defines a cutout therein and the decorative article is received in the cutout and bonded with the substrate. The decorative article is a glass article which is formed in the cutout by molding softened glass material into the cutout. A method for making the device housing is also provided. | 04-25-2013 |
20130101766 | GLASS COMPOSITIONS WITH IMPROVED CHEMICAL AND MECHANICAL DURABILITY - The embodiments described herein relate to chemically and mechanically durable glass compositions and glass articles formed from the same. In another embodiment, a glass composition may include from about 70 mol. % to about 80 mol. % SiO | 04-25-2013 |
20130108812 | HOUSING AND METHOD FOR MAKING THE SAME | 05-02-2013 |
20130108813 | HOUSING FOR ELECTRONIC DEVICE AND METHOD OF FABRICATION | 05-02-2013 |
20130136878 | High Speed Low Temperature Method For Manufacturing And Repairing Semiconductor Processing Equipment And Equipment Produced Using Same - A method for the joining of ceramic pieces into an assembly adapted to be used in semiconductor processing. The joined pieces are adapted to withstand the environments within a process chamber during substrate processing, chamber cleaning processes, and the oxygenated atmosphere which may be seen within the shaft of a heater or electrostatic chuck. The ceramic pieces may be aluminum nitride and the pieces may be brazed with aluminum. The joint material is adapted to withstand both the environments within a process chamber during substrate processing, and the oxygenated atmosphere which may be seen within the shaft of a heater or electrostatic chuck. The joint is adapted to provide a hermetic seal across the joint. The joined pieces are adapted to be separated at a later time should rework or replacement of one of the pieces be desired. | 05-30-2013 |
20130189460 | Articles with Applied Recycled Souvenir Particulate and Method of Manufacture - Articles created using particulate from recycled souvenirs and a method of decorating articles such as garments with patterns made from ground particulate obtained from noteworthy spectator sport objects such as race car tires, for example, wherein the pattern resembles the nature or characteristic of the recycled item. | 07-25-2013 |
20130295304 | CERAMIC PREFORM AND METHOD - The present application discloses a ceramic preform, a method of making a ceramic preform and a metal matrix composite comprising a ceramic preform. In one exemplary embodiment, the ceramic preform comprises a ceramic compound compressed into the shape of a cylinder by rotational compression molding. The cylinder has an inner surface and an outer surface. A first liner may be attached to the inner surface of the cylinder and a second liner may attached to the outer surface of the cylinder. The metal matrix composite of the present application may be formed as a brake drum or a brake disc. | 11-07-2013 |
20140017425 | SANITARY WARE - Disclosed is a sanitary ware including a photocatalyst layer that has a high level of water resistance and abrasion resistance while maintaining a good photocatalytic activity. The sanitary ware includes a glaze layer and a photocatalyst layer provided on the glaze layer. The photocatalyst layer is an oxide film that is a co-fired product of a precursor of titanium oxide and a precursor of zirconium oxide and contains 65 to 90% by mass of titanium oxide and 10 to 35% by mass of zirconium oxide. | 01-16-2014 |
20140106095 | ANODIC BONDING FOR A MEMS DEVICE - The invention relates to a device comprising a wafer comprising a silicon area and a wafer comprising a glass area fastened to each other, the fastening zone thus formed between the wafers defining a multilayer structure comprising a first layer protecting the silicon from physical changes caused by attack of the surface, which layer covers the silicon area, and a second layer protecting the glass from physical changes caused by attack of the surface, which layer covers the glass area; said multilayer structure furthermore comprising at least one additional layer enabling anodic bonding between the two protective layers; said device containing at least one fluid channel protected by said protective layers and able to contain a solution temporarily. | 04-17-2014 |
20140113089 | ELECTRONIC DEVICE HOUSING AND METHOD FOR MANUFACTURING SAME - A electronic device housing includes a substrate, and the electronic device housing further includes a first color layer, a metallic coating, a second color layer, and a second metallic coating formed directly on the substrate in that order. The first color layer is disposed on the substrate and covering portions of the internal surface. The first metallic coating is formed on the first color layer and completely covers the first color layer. The second color layer is formed on the first metallic coating and directly covers the portions of the internal surface which is uncovered by the first color layer. The second color layer and the first color layer have different colors. The second color layer and the first color layer are transparent or translucent. A method for manufacturing the electronic device housing is also provided. | 04-24-2014 |
20140120279 | GLASS PACKAGING ENSURING CONTAINER INTEGRITY - A strengthened glass container or vessel such as, but not limited to, vials for holding pharmaceutical products or vaccines in a hermetic and/or sterile state. The strengthened glass container undergoes a strengthening process that produces compression at the surface and tension within the container wall. The strengthening process is designed such that the tension within the wall is great enough to ensure catastrophic failure of the container, thus rendering the product unusable, should sterility be compromised by a through-wall crack. The tension is greater than a threshold central tension, above which catastrophic failure of the container is guaranteed, thus eliminating any potential for violation of pharmaceutical integrity. | 05-01-2014 |
20140154441 | Reactive Silicon Oxide Precursor Facilitated Anti-Corrosion Treatment - The present invention solves numerous problems in state-of-the-art industrial anti-corrosion protection by using a reactive silicon oxide precursor solution. Among the problems solved are those of decreased heat transfer over a protected surface, limited protection against high-temperature corrosive fluids and difficulties in protecting complex 3D geometries and surfaces with a high surface roughness. The present invention furthermore provides an easy way of making chemical surface functionalization using e.g. silane chemistry. The invention solves these problems by coating the surface of a ceramic or metallic part with a thin layer of a liquid solution of a reactive silicon oxide precursor (rSiO-p) such as Hydrogen Silsesquioxane (HSQ) in Methyl Isobytul Ketone (MIBK) or volatile methyl siloxane (VMS), heating the part to a curing temperature of the rSiO-p, and after a curing time the reactive silicon oxide precursor is transformed into a thin layer of essentially pin-hole free silicon oxide. | 06-05-2014 |
20140178613 | SEALED CONTAINER, METHOD OF MANUFACTURING THE SAME, AND VACUUM HEAT INSULATING BODY - A sealed container ( | 06-26-2014 |
20140242307 | Fire Insulation Material - A fire insulation precursor material formed of cement, in an amount of between 10-30% w/w; and an aluminium or magnesium hydroxide, huntite or hydromagnesite in an amount of between 60-90% w/w. A fire insulation material is provided including the previously mentioned precursor material. Further described are methods of forming a fire insulation material and applications for such material in sheaths, duct coatings, cable trays and other elongate components. | 08-28-2014 |
20140272217 | METHODS AND STRUCTURES FOR THERMAL MANAGEMENT IN AN ELECTRONIC DEVICE - The described embodiments relate generally to a structure and methods of forming a structure for improving thermal management in an electronic device. The structure including a casing; a cover glass; a multilayer film on an exterior surface of the casing and of the cover glass, adapted to reflect radiation in a first spectral region and to transmit radiation in a second spectral region. In embodiments consistent with the present disclosure a casing for a portable electronic device may include a reflective portion in an interior surface including a hot spot in the electronic device; and an emissive portion in the interior surface including an area non-overlapping a hot spot. | 09-18-2014 |
20140295115 | HOUSING AND ELECTRONIC DEVICE USING THE SAME - A housing includes a substrate and a decorative layer deposited on the substrate. The decorative layer includes chromium, iron, aluminum, chromium oxide, ferric oxide, and aluminum oxide. The chromium oxide, ferric oxide, and aluminum oxide distribute evenly among the chromium, iron, and aluminum respectively, such that the chromium, iron, and aluminum atoms are separated from each other. The decorative layer is electrically non-conductive and electromagnetically transmissive and gives the housing a mirror-like black and metallic appearance. An electronic device using the housing is also described. | 10-02-2014 |
20140342108 | STRUCTURAL BODY AND METHOD FOR PRODUCING THE SAME - A structural body includes a tubular insulating body having a hollow portion and a conducting body inserted into the hollow portion in the insulating body, and the insulating body and the conducting body are directly integrated with each other by firing. In a tensile test in which the insulating body is fixed, and a portion of the conducting body that protrudes from the insulating body is pulled in the axial direction, the displacement of the conducting body with respect to the insulating body is 5% or less of the axial direction length of the contact portion between the hollow portion and the conducting body under a tensile load per unit contact area between the insulating body and the conducting body of 0.05 kgf/mm | 11-20-2014 |
20140356560 | Castings and Manufacture Methods - A method comprises casting a metallic material ( | 12-04-2014 |
20150024155 | ION ASSISTED DEPOSITION FOR RARE-EARTH OXIDE BASED THIN FILM COATINGS ON PROCESS RINGS - A method of manufacturing an article comprises providing a ring for an etch reactor. Ion assisted deposition (IAD) is then performed to deposit a protective layer on at least one surface of the ring, wherein the protective layer is a plasma resistant rare earth oxide film having a thickness of less than 300 μm and an average surface roughness of less than 6 micro-inches. | 01-22-2015 |
20150079319 | NATURAL COLD SURFACE TREATMENT FOR HOLLOW GLASS ITEMS - The invention relates to:
| 03-19-2015 |
20150099076 | PROCESS FOR MANUFACTURING A COMPOSITE MATERIAL - A process for manufacturing a composite material comprising a functionalization of the substrate, which comprises treatment of said substrate with at least one first alcoholic solvent, functionalization of a first powder and formation of a first colloidal sol of said functionalized first powder in a second solvent, at least one application of a layer of said first colloidal sol of said first powder to the substrate, drying of said layer of said first colloidal sol and formation of a layer of first coating formed by said first colloidal sol, adherent to said substrate, by heating at a temperature above 50° C. and below 500° C. | 04-09-2015 |
20150315390 | Highly Abrasion-Resistant Anti-Limescale Layers with High Chemical Resistance - The invention relates to the use of a coating of a layer including an inorganic, glass-like matrix of an alkali silicate and/or alkaline earth silicate or a layer including an inorganic-organic hybrid matrix or of a double layer of a base layer including an inorganic, glass-like matrix of an alkali silicate and/or alkaline earth silicate or a base layer including an inorganic-organic hybrid matrix and an alkali silicate-free and alkaline earth silicate-free top layer including a matrix of an oxidated silicon compound as the anti-limescale coating on at least one metal surface or inorganic surface of an object or material. The anti-limescale coating can be used for storage or transport devices for water or media containing water. The anti-limescale coating is suitable for pipelines, sand control systems or safety valves in the conveyance of oil or gas or the storage of oil or gas. | 11-05-2015 |
20160005548 | METHOD FOR SEALING A LIQUID WITHIN A GLASS PACKAGE AND THE RESULTING GLASS PACKAGE - A method for sealing a liquid within a glass package and the resulting sealed glass package are described herein where the sealed glass package can be, for example, a dye solar cell, an electro-wetting display or an organic emitting light diode (OLED) display. | 01-07-2016 |
20160023951 | THERMOSET CERAMIC COMPOSITIONS, INORGANIC POLYMER COATINGS, INORGANIC POLYMER MOLD TOOLING, INORGANIC POLYMER HYDRAULIC FRACKING PROPPANTS, METHODS OF PREPARATION AND APPLICATIONS THEREFORE - Thermoset ceramic compositions and a method of preparation of such compositions. The compositions are advanced organic/inorganic hybrid composite polymer ceramic alloys. The material combine strength, hardness and high temperature performance of technical ceramics with the strength, ductility, thermal shock resistance, density, and easy processing of the polymer. Consisting of a branched backbone of silicon, alumina, and carbon, the material undergoes sintering at 7 to 300 centigrade for 2 to 94 hours from water at a pH between 0 to 14, humidity of 0 to 100%, with or without vaporous solvents. | 01-28-2016 |
20160101561 | DUAL-WALLED CERAMIC MATRIX COMPOSITE (CMC) COMPONENT WITH INTEGRAL COOLING AND METHOD OF MAKING A CMC COMPONENT WITH INTEGRAL COOLING - A dual-walled ceramic matrix composite (CMC) component comprises: a CMC core having a hollow shape enclosing at least one interior channel; and a CMC outer layer overlying and spaced apart from the CMC core by a ceramic slurry-cast architecture positioned therebetween. Each of the CMC core and the CMC outer layer comprises ceramic fibers in a ceramic matrix. The CMC core further includes a plurality of through-thickness inner cooling holes in fluid communication with the at least one interior channel. The ceramic slurry-cast architecture defines a cooling fluid path over an outer surface of the CMC core that connects the interior channel(s) to an external environment of the dual-walled CMC component. The CMC outer layer may also include a plurality of through-thickness outer cooling holes in fluid communication with the cooling fluid path, thereby extending the cooling fluid path through the CMC outer layer. | 04-14-2016 |
20160101898 | COATING APPARATUS WITH HALF OPEN LOOP - The present invention relates to a coating apparatus also called coating tunnel or coating hood for applying a protective coating to hollow glass containers. In particular it relates to a coating apparatus also called coating tunnel or coating hood with the re-use of the coating material containing exhaust from the end of the coating tunnel for applying the protective coatings to glass containers. More particularly the present invention relates to a coating apparatus also called coating tunnel or coating hood with an additional half-loop that re-uses the coating material containing exhaust from the end of the coating tunnel at the entrance of the tunnel while replacing fresh air. | 04-14-2016 |