Patent application number | Description | Published |
20100068457 | BIOCIDAL/HYDROPHOBIC INNER COATING OF CONDENSER PIPES (OF INDUSTRIAL TURBINES AND SUBSIDIARY COOLING CYCLES) - A coating for containers and pipes of, for example, metal, glass, plastic, or ceramic, particularly for condenser pipes, for reducing or avoiding the formation of a biofilm is provided. Further, a method for producing the coating is provided. | 03-18-2010 |
20100115950 | Hydrophobic coating of condensers in the fitted state - A method for producing a condenser for a thermal power plant is provided. First, the production method includes fitting a condenser tube in a carrier for a condenser tube bundle of the condenser. Then, the fitted condenser tube is coated with a hydrophobic coating. Coating the fitted condenser tube includes positioning a spray mechanism on the carrier, spraying on the hydrophobic coating using a spray mechanism, and moving the spray mechanism during spraying at a uniform rate. In another aspect, a device is provided. Also, a condenser is provided in an aspect. | 05-13-2010 |
20100129631 | PROTECTIVE COATING AND USE THEREOF FOR OVERHHEAD TROLLEY WIRE INSULATORS - One embodiment of the present invention discloses a coating for overhead trolley wire insulators, particularly in the area of rail electrification and energy transmission, which can be produced easily and inexpensively. For this purpose, particles and micro powders, hydrophobic particles in particular, are incorporated into the protective laquer. | 05-27-2010 |
20100137128 | TITANIUM DIOXIDE LAYER WITH IMPROVED SURFACE PROPERTIES - A thermocatalytically active titanium dioxide coating has a high BET surface area. With this coating, a catalytic effect can be achieved with only moderately increased temperatures (>200 DEG C.). | 06-03-2010 |
20100204037 | SELF-CLEANING SURFACE COATING (PHOTOCATALYSIS) - A self-cleaning surface coating is easy and inexpensive to produce because it has only a simple titanium dioxide layer. | 08-12-2010 |
20100249306 | HYDROPHOBIC SURFACE COATING FOR ELECTRONIC AND ELECTRO-TECHNICAL COMPONENTS AND USES THEREOF - A hydrophobic surface coating, in particular for electronic and electrotechnical components, can be produced easily and inexpensively. For this purpose, particles and micro powders, hydrophobic particles in particular, are incorporated into the protective lacquer. | 09-30-2010 |
20110045238 | Printing Template of an SMT Process and Method of Coating It - The printing template ( | 02-24-2011 |
20110250380 | SUBSTRATE WITH CARBON NANOTUBES, AND METHOD TO TRANSFER CARBON NANOTUBES - A substrate for field emitters uses carbon nanotubes (CNTs) on a conductive substrate, the CNTs being erected essentially perpendicular to the substrate and aligned. In a method to transfer a CNT forest from a first substrate to a second substrate, the second substrate is coated with adhesive and the peaks (tips) of the CNTs on the first substrate are embedded in the uncurred adhesive on the second substrate. After the adhesive cures, the CNTs are removed from the first substrate with the peaks anchored in the cured adhesive on the second substrate. | 10-13-2011 |
20110252799 | CONDENSER TUBE HAVING INCREASED HYDROPHOBICITY, PRODUCTION METHOD AND USE THEREOF - A condenser tube has a superhydrophobic surface. The superhydrophobic surface is produced on steam condenser tubes to achieve an improved runoff of condensation drops. These condenser tubes may be used in steam power generation. The surface of the condenser tube is textured so that the drops of condensation formed can run off well. | 10-20-2011 |
20110254432 | SUBSTRATE FOR A FIELD EMITTER, AND METHOD TO PRODUCE THE SUBSTRATE - A substrate for a field emitter suitable for use in computed tomography has a coating with carbon hybrid structures based on the allotropes graphite, graphene and nanotubes. The field emitters are based on graphite layer structures. A substrate for field emitters is achieved for the first time that uses “graphite combs” protruding and aligned essentially perpendicular to the substrate as well as hybrid materials from these combs with CNTs supported between them on a conductive substrate. | 10-20-2011 |
20110299994 | Turbine Blade, Especially Rotor Blade for a Steam Engine, and Corresponding Method of Manufacture - A section of a turbine blade includes a fiber composite material having a matrix and fibers embedded therein. The matrix includes nanoparticles that are distributed in or on the matrix. The turbine blade can for example be used as a rotor blade in the final stage of a condensing steam turbine. | 12-08-2011 |
20130008100 | Photocatalytic Panel and System for Recovering Output Products Thereof - A system and method is provided for using sunlight to convert an atmospheric gas to an output product and capture that output product. A photocatalytic element is encapsulated within a chamber in which the chamber is light transmissive, and is substantially permeable to the atmospheric gas and substantially impermeable to the output product. The photocatalytic element may be composed of a photocatalytic composition, comprising a first constituent capable of capturing or binding an atmospheric gas, a second constituent capable of reducing the atmospheric gas using energy from the sunlight, and a third constituent adapted to absorb sunlight, all combined into a single polymer. A fourth constituent may be added that is hydrophobic or hydrophilic depending upon the nature of the other three combined constituents. | 01-10-2013 |
20130008775 | Photocatalytic Panel and System for Recovering Output Products Thereof - A system and method is provided for using sunlight to convert an atmospheric gas to an output product and capture that output product. A photocatalytic element is encapsulated within a chamber of a photocatalytic panel in which the chamber is light transmissive, and is substantially permeable to the atmospheric gas and substantially impermeable to the output product. Water may be provided to the photocatalytic element to react with the atmospheric gas. A system is provided for withdrawing the output product for storage. | 01-10-2013 |
20130118682 | SUBSTRATE WITH CARBON NANOTUBES, AND METHOD TO TRANSFER CARBON NANOTUBES - A substrate for field emitters uses carbon nanotubes (CNTs) on a conductive substrate, the CNTs being erected essentially perpendicular to the substrate and aligned. In a method to transfer a CNT forest from a first substrate to a second substrate, the second substrate is coated with adhesive and the peaks (tips) of the CNTs on the first substrate are embedded in the uncurred adhesive on the second substrate. After the adhesive cures, the CNTs are removed from the first substrate with the peaks anchored in the cured adhesive on the second substrate. | 05-16-2013 |
20140128501 | FIBER REINFORCED PLASTICS MATERIAL AND METHOD FOR PRODUCTION THEREOF - In a fibrous planar structure in which fibers are embedded in a matrix, an increase in mechanical resistance is achieved by improving the adhesion between the fiber and the matrix. | 05-08-2014 |
20140248443 | SCREEN STENCIL AND METHOD FOR COATING SCREEN STENCILS - A stencil body of a screen stencil body has a surface coating made up of hydrocarbon-based, organic precursor molecules. A plasma-coating method is used to coat the screen stencil, wherein a layer of hydrocarbon-based, organic precursor molecules is deposited on the surface of the stencil body of the screen stencil. | 09-04-2014 |