Patent application number | Description | Published |
20090242397 | SYSTEMS FOR CONTROLLING CATHODIC ARC DISCHARGE - A system for controlling cathodic arc discharge is provided. The system includes a vacuum chamber forming an anode. The system also includes a power supply connected to the vacuum chamber, wherein the power supply is configured to generate an electric field within the vacuum chamber. The system further includes a cathode disposed within the vacuum chamber. The system also includes at least one permanent magnet configured to actuate in a translational direction inwards and outwards of the cathode, wherein the magnet is further configured to apply a magnetic field in a direction perpendicular to a face of the cathode and to the electric field to bum the cathode at a predetermined radius on the face of the cathode. | 10-01-2009 |
20110073471 | METHOD AND APPARATUS FOR CATHODIC ARC ION PLASMA DEPOSITION - A method and apparatus for depositing a coating material on a surface of a substrate by an ion plasma deposition process using a hollow cathode is disclosed. The cathode may be a substantially cylindrical hollow cathode. A plasma arc is formed on the outer circumference of the cathode to remove coating material from the cathode, which is then deposited on a surface of a substrate. An internal arc drive magnet is contained within the hollow bore of the cathode and cooling is provided to the magnet during operation. | 03-31-2011 |
20120164510 | CERAMIC-METAL SEALING STRUCTURE, AND ASSOCIATED METHOD - A method of sealing a ceramic component to a metal component for a metal halide battery is provided. The method involves the steps of coating a portion of the ceramic component with a metallic coating, and then bonding the coated ceramic component to the metal component. The metallic coating includes a reactive metal. A sealing structure formed by using such a method is also presented. | 06-28-2012 |
20120276308 | COMPONENT AND METHODS OF FABRICATING A COATED COMPONENT USING MULTIPLE TYPES OF FILLERS - Methods of fabricating coated components using multiple types of fillers are provided. One method comprises forming one or more grooves in an outer surface of a substrate. Each groove has a base and extends at least partially along the outer surface of the substrate. The method further includes disposing a sacrificial filler within the groove(s), disposing a permanent filler over the sacrificial filler, disposing a coating over at least a portion of the substrate and over the permanent filler, and removing the first sacrificial filler from the groove(s), to define one or more channels for cooling the component. A component with a permanent filler is also provided. | 11-01-2012 |
20130078418 | COMPONENTS WITH COOLING CHANNELS AND METHODS OF MANUFACTURE - A manufacturing method is provided. The manufacturing method includes forming one or more grooves in a component that comprises a substrate with an outer surface. The substrate has at least one interior space. Each groove extends at least partially along the substrate and has a base and a top. The manufacturing method further includes processing an intermediate surface of the component to plastically deform the surface adjacent at least one edge of a respective groove, such that the distance across the top of the groove is reduced. Another manufacturing method is provided and includes processing an intermediate surface of the component to facet the intermediate surface in the vicinity of the groove. | 03-28-2013 |
20130078428 | COMPONENTS WITH CCOLING CHANNELS AND METHODS OF MANUFACTURE - A manufacturing method includes forming one or more grooves in a component that comprises a substrate with an outer surface. The substrate has at least one interior space. Each groove extends at least partially along the substrate and has a base and a top. The manufacturing method further includes applying a structural coating on at least a portion of the substrate and processing at least a portion of the surface of the structural coating so as to plastically deform the structural coating at least in the vicinity of the top of a respective groove, such that a gap across the top of the groove is reduced. A component is also disclosed and includes a structural coating disposed on at least a portion of a substrate, where the surface of the structural coating is faceted in the vicinity of the respective groove. | 03-28-2013 |
20140004310 | WIRELESS COMPONENT AND METHODS OF FABRICATING A COATED COMPONENT USING MULTIPLE TYPES OF FILLERS | 01-02-2014 |
20140116660 | COMPONENTS WITH ASYMMETRIC COOLING CHANNELS AND METHODS OF MANUFACTURE - A method of fabricating a component is provided. The component includes a substrate having an outer surface and an inner surface, where the inner surface defines at least one interior space. The fabrication method includes forming at least one groove in the outer substrate surface. Each groove extends at least partially along the outer substrate surface and has an asymmetric cross-section. The method further includes forming at least one access hole in the substrate. Each access hole connects the respective groove in fluid communication with the respective interior space. A coating is disposed over at least a portion of the substrate surface, such that the groove(s) and the coating together define one or more channels for cooling the component. A component is also disclose and has at least one groove with an asymmetric cross-section. | 05-01-2014 |
20140120274 | COMPONENTS WITH MICRO COOLED COATING LAYER AND METHODS OF MANUFACTURE - A manufacturing method includes providing a substrate with an outer surface and at least one interior space, applying a coating on a portion of the substrate and forming one or more grooves in the coating, wherein each groove extends at least partially along the coating. The method further includes processing at least a portion of the surface of the coating to plastically deform the coating in the vicinity of the top of a respective groove. An additional coating is applied over at least a portion of the surface of the coating. A component is disclosed and includes a substrate, a coating disposed on at least a portion of the substrate, and defining one or more grooves therein, and an additional coating disposed over at least a portion of the coating. The substrate, the coating and the additional coating together define one or more channels for cooling the component. | 05-01-2014 |
20140169943 | COMPONENTS WITH POROUS METAL COOLING AND METHODS OF MANUFACTURE - A manufacturing method includes providing a substrate with an outer surface and at least one interior space and machining the substrate to selectively remove a portion of the substrate and define one or more cooling supply holes therein. Each of the one or more cooling supply holes is in fluid communication with the at least one interior space. The method further includes disposing an open cell porous metallic layer on at least a portion of the substrate. The open cell porous metallic layer is in fluid communication with the one or more cooling supply holes. A coating layer is disposed on the open cell porous metallic layer. The coating layer having formed therein one or more cooling exit holes in fluid communication with the open cell porous metallic layer. The substrate, the one or more cooling supply holes, the open cell porous metallic layer and the cooling exit holes providing a cooling network for a component. | 06-19-2014 |