| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 428630000 | Noncrystalline silica or noncrystalline plural-oxide component (e.g., glass, etc.) | 12 |
| 20090263677 | METAL CLADDING COMPOSITION, ADDITIVE, METHOD AND SYSTEM - The invented method of cladding a metal component includes creating a frit mixture in a defined ratio; wetting the mixture by adding a wetting agent in a defined volume; agitating the wetted mixture; applying the agitated mixture to a metal component by one or more processes; de-wetting the metal component having the applied mixture by gradually heating the same to a temperature from approximately 250 degrees Fahrenheit (° F.) up to a high of approximately 450° F.; and, fusing the de-wetted metal component at a temperature of no more than 125% of a defined withstand temperature for the clad metal component. Invented compositions can include one or more of liquid and/or colloidal sodium, potassium and/or lithium silicate, clay and/or clays, a compound of hollow micro-spheres (e.g. naturally occurring and nearly ubiquitous perlite and/or a synthetic hollow micro-sphere equivalent) and/or alumina or one or more flexible or malleable or resiliently deformable, impact-resistant materials such as plastomers, elastomers and/or other plastic, rubber, plastic-like or rubber-like materials; a wetting agent consisting of one or more of water or water and ethanol for fast drying under proper safety and venting conditions; and one or more surfactants and/or dispersants. A system and method for using the compositions and additives are also disclosed. An optional powder clad application method is included in the embodiment of the invention which method eliminates the de-wetting station(s) but makes it possible to add impact-resistant clad material for lower-temperature, higher-impact applications. | 10-22-2009 |
| 20120114969 | Anticorrosion Mirror, Method for Producing Same, and Uses Thereof in Solor Energy - The present invention relates to a corrosion-resistant “all-metal” mirror, including: a glass substrate; a silver coating with a thickness e | 05-10-2012 |
| 20120219821 | Coated article including low-emissivity coating, insulating glass unit including coated article, and/or methods of making the same - Certain example embodiments relate to a coated article including at least one infrared (IR) reflecting layer of a material such as silver or the like in a low-E coating, and methods of making the same. In certain cases, at least one layer of the coating is of or includes nickel and/or titanium (e.g., Ni | 08-30-2012 |
| 20120225317 | Barrier layers comprising Ni-inclusive ternary alloys, coated articles including barrier layers, and methods of making the same - Certain example embodiments relate to Ni-inclusive ternary alloy being provided as a barrier layer for protecting an IR reflecting layer comprising silver or the like. The provision of a barrier layer comprising nickel, chromium, and/or molybdenum and/or oxides thereof may improve corrosion resistance, as well as chemical and mechanical durability. In certain examples, more than one barrier layer may be used on at least one side of the layer comprising silver. In still further examples, a Ni | 09-06-2012 |
| 20120225318 | REINFORCEMENT STRUCTURE FOR RUBBER ARTICLES AND METHODS OF PREPARATION - A reinforcement means for moulded and extruded articles such as tires has a metal structure with a layer of silica gel bonded thereto. The silica gel bonds the reinforcement means to the rubber compound during the moulding/vulcanisation of the rubber compound without the need for a slow curing stage. The silica gel may be applied to the metal structure by a sol-gel process with the gel formed by drying the sol at a temperature up to 150° C. The reinforcement means is preferably a cable formed from steel wires coated with the silica gel. To further improve bonding of the silica gel to the rubber compound, an organosilane bonding agent may be included in the rubber compound or the reinforcing means provided with a second layer comprising an organosilane as a bonding agent. The reinforcement means are particularly useful for strengthening and providing geometric stability to tires. | 09-06-2012 |
| 20120251838 | COATED ARTICLE AND METHOD FOR MANUFACTURING SAME - A coated article is described. The coated article includes a substrate, a titanium bonding layer, a titanium-chromium alloy transition layer, and a titanium-chromium-nitrogen hard layer formed thereon, and in that order. The titanium bonding layer is a titanium layer. The titanium-chromium alloy transition layer is a titanium-chromium alloy layer. The titanium-chromium-nitrogen hard layer is a titanium-chromium-nitrogen layer. The titanium bonding layer, titanium-chromium alloy transition layer, and the titanium-chromium-nitrogen hard layer are formed by ion beam assisted sputtering. | 10-04-2012 |
| 20130216861 | COATED ARTICLE WITH LOW-E COATING HAVING MULTILAYER OVERCOAT AND METHOD OF MAKING SAME - A coated article is provided so as to include a low-E (low emissivity) coating having an infrared (IR) reflecting layer sandwiched between at least a pair of dielectric layers. The IR reflecting layer may be of or include a material such as silver (Ag), and is provided between a pair of contact layers. The low-E coating includes an overcoat having a substantially metallic layer (e.g., NbZr or Zr) which has been found to improve the durability of the coating without significantly sacrificing desired optical characteristics. Such coated articles may be used in the context of windows. | 08-22-2013 |
| 20140113158 | METHOD FOR ELECTROLESS PLATING - The present invention discloses a method for electroless plating of a metal or metal alloy onto a metal or a metal alloy structure comprising a metal such as molybdenum or titanium and alloys containing such metals. The method comprises the steps of activation, treatment in an aqueous solution comprising at least one nitrogen-containing compound or a hydroxy carboxylic acid and electroless plating of a metal or metal alloy. | 04-24-2014 |
| 20150332903 | MOLYBDENUM CONTAINING TARGETS - The invention is directed at sputter targets including 50 atomic % or more molybdenum, a second metal element of titanium, and a third metal element of chromium or tantalum, and deposited films prepared by the sputter targets. In a preferred aspect of the invention, the sputter target includes a phase that is rich in molybdenum, a phase that is rich in titanium, and a phase that is rich in the third metal element. | 11-19-2015 |
| 20160168034 | Method of Coating and Protecting Coal Tip Burner With Colloidal Silica Based High Temperature and Abrasion Resistant Putty | 06-16-2016 |
| 428631000 | Film (e.g., glaze, etc.) | 2 |
| 20090155619 | Light Transmittance Optimizing Coated Glass Article for Solar Cell and Method for Making - A multi-layer thin film stack, particularly suitable as a component of a solar cell, is deposited on a transparent dielectric substrate. The multi-layer film stack comprises a transparent electrically conductive metal oxide layer deposited over the dielectric substrate, the conductive metal oxide layer having a refractive index less than 2.0, a light transmittance optimizing interlayer having a refractive index between 2.3 and 3.5, deposited over the electrically conductive metal oxide layer, and a silicon layer having a refractive index of at least 4.5 deposited over the light transmittance optimizing interlayer. The film stack can be deposited by any suitable method, but deposition of each of these layers by atmospheric chemical vapor deposition is preferred. | 06-18-2009 |
| 20130244054 | COMPOSITE MATERIAL AND METHOD FOR IMPROVING FATIGUE PROPERTIES OF TITANIUM ALLOY BY COATING METALLIC GLASS LAYER - The invention provides a composite material, which includes a titanium alloy substrate and a metallic glass layer. The metallic glass layer is disposed on the titanium alloy substrate. The thickness of the metallic glass layer is 50 nm-200 nm, in which in comparison with the titanium alloy substrate, the fatigue life of the composite material of the invention is increased by 5-17 times. | 09-19-2013 |
