Patent application number | Description | Published |
20090252988 | COATED COMPONENTS FOR USE IN HIGH TEMPERATURE ENVIRONMENTS AND METHODS OF FORMING A COATING ON THE COMPONENT - Coated components and methods of forming a coating on a component are provided. In an embodiment, by way of example only, a coated component includes a substrate and a coating overlying the substrate, where the coating comprises a plurality of agglomerates, each agglomerate including one or more particles of a first constituent and one or more particles of a second constituent that is different from the first constituent assembled into a structure. The structures of a majority of the plurality of agglomerates of the coating are identical to each other, | 10-08-2009 |
20100028718 | COATING PRECURSOR MATERIALS, TURBOMACHINERY COMPONENTS, AND METHODS OF FORMING THE TURBOMACHINERY COMPONENTS - Coating precursor materials, turbomachinery components, and methods of manufacturing the components are provided. In an embodiment, by way of example only, a coating precursor material includes a solid film lubricant component and a bonding component comprising at least one eutectic mixture, said at least one eutectic mixture selected from a group consisting of barium fluoride/nickel fluoride, barium fluoride/cobalt fluoride, and barium fluoride/barium fluoride-boron oxide. | 02-04-2010 |
20100029517 | COMPONENTS, TURBOCHARGERS, AND METHODS OF FORMING THE COMPONENTS - Components, turbochargers, and methods of forming components are provided. In an embodiment, by way of example only, a method of forming a component is provided. The method includes applying a plurality of coated particles to a substrate, wherein each coated particle comprises a solid film lubricant particle and a layer surrounding an entire surface of the solid film lubricant particle, each solid film lubricant particle comprises at least one compound, and the layer comprises a coating material having a greater resistance to oxidation than the compound when subjected to a predetermined processing temperature and heating the substrate to the predetermined processing temperature to form a portion of a coating over the substrate. | 02-04-2010 |
20100213002 | FIBROUS MATERIALS, NOISE SUPPRESSION MATERIALS, AND METHODS OF MANUFACTURING NOISE SUPPRESSION MATERIALS - Noise suppression materials and methods of manufacturing noise suppression materials are provided. In an embodiment, by way of example only, a fibrous material includes a network of a plurality of fibers selected from a group consisting of glass fibers and ceramic fibers, the plurality of fibers including a first fiber and a second fiber, the first fiber having a first low melt component and a first high melt component, the first low melt component of the first fiber having a first melting point, the first high melt component of the first fiber having a second melting point that is higher than the first melting point, wherein the first low melt component of the first fiber extends alongside and is adjacent to at least a segment of the first high melt component of the first fiber and is bonded to the second fiber at a contact point. | 08-26-2010 |
20110169182 | METHODS OF FORMING BULK ABSORBERS - The inventive subject matter provides methods of manufacturing bulk absorbers and noise suppression panels. In one embodiment, and by way of example only, a method of manufacturing bulk absorbers includes mixing a first type of fibers and a binder together to form a material mixture, the first type of fibers comprising ceramic microfibers, and the binder comprising a glass material, hydrating the material mixture with water vapor to form a hydrated mixture, and heat treating the hydrated mixture to form the bulk absorber | 07-14-2011 |
20120023870 | METHODS OF FORMING INSULATED WIRES AND HERMETICALLY-SEALED PACKAGES FOR USE IN ELECTROMAGNETIC DEVICES - A method includes coating a conductive wire with a paste comprising a first inorganic dielectric material, an organic binder, and a solvent to form a coated wire, drying the coated wire at a first drying temperature to remove at least a portion of the solvent and form a green wire, winding the green wire around a core to form a green assembly, heat treating the green assembly at a decomposing temperature above the first temperature and below a melting point of the first inorganic dielectric material to decompose the organic binder to form an intermediate assembly, and exposing the intermediate assembly to a densifying temperature that is above the decomposing temperature and substantially equal to or above the melting point of the first inorganic dielectric material to densify the dielectric material on the conductive wire. | 02-02-2012 |
20120141290 | COMPONENTS, TURBOCHARGERS, AND METHODS OF FORMING THE COMPONENTS - Components, turbochargers, and methods of forming components are provided. In an embodiment, by way of example only, a method of forming a component is provided. The method includes applying a plurality of coated particles to a substrate, wherein each coated particle comprises a solid film lubricant particle and a layer surrounding an entire surface of the solid film lubricant particle, each solid film lubricant particle comprises at least one compound, and the layer comprises a coating material having a greater resistance to oxidation than the compound when subjected to a predetermined processing temperature and heating the substrate to the predetermined processing temperature to form a portion of a coating over the substrate. | 06-07-2012 |
20120174750 | ARMOR MATERIALS, BODY ARMOR ARTICLES AND METHODS OF MANUFACTURE - An armor material, body armor articles, and methods of manufacturing the armor material are provided. In an embodiment, by way of example only, the armor material includes a first plate, a second plate, and a powder material. The first plate includes a layer comprising a metallic material. The second plate is spaced apart from the first plate and includes a layer comprising a ceramic material. The powder material is disposed between the first and the second plates, and comprises loose powder including at least one of a plurality of ceramic particles and a plurality of metallic particles. | 07-12-2012 |
20120225784 | HIGH TEMPERATURE ELECTROMAGNETIC COIL ASSEMBLIES AND METHODS FOR THE PRODUCTION THEREOF - Embodiments of a high temperature electromagnetic coil assembly are provided, as are embodiments of a method for fabricating such a high temperature electromagnetic coil assembly. In one embodiment, the method includes the steps of applying a high thermal expansion ceramic coating over an anodized aluminum wire, coiling the coated anodized aluminum wire around a support structure, and curing the high thermal expansion ceramic coating after coiling to produce an electrically insulative, high thermal expansion ceramic body in which the coiled anodized aluminum wire is embedded. | 09-06-2012 |