Patent application number | Description | Published |
20100072072 | METHOD FOR THE RESTORATION OF A METALLIC COATING - A method for restoration of a metallic coating ( | 03-25-2010 |
20120251777 | COMPONENT FOR A TURBOMACHINE AND METHOD FOR MANUFACTURING SUCH A COMPONENT - A component for use in an engine in which the component is subjected to at least one of a high temperature, a corrosive atmosphere, an oxidizing atmosphere, a high mechanical load, a cyclic thermal load and transient conditions such that the component is prone to crack formation and propagation. At least one base material includes a self healing system in a form of an added active phase, the self healing system including at least one of a melting point depressant and a substance having a softening or a melting point below or within a range of an operating temperature of the component. | 10-04-2012 |
20130020377 | BRAZE ALLOY FOR HIGH-TEMPERATURE BRAZING AND METHODS FOR REPAIRING OR PRODUCING COMPONENTS USING A BRAZE ALLOY - In a Ni-based, Co-based, or Ni—Co-based braze alloy ( | 01-24-2013 |
20140366995 | METHOD FOR POST-WELD HEAT TREATMENT OF WELDED COMPONENTS MADE OF GAMMA PRIME STRENGTHENED SUPERALLOYS - The invention relates to a method of post-weld heat treatment of a without a filler material electron beam or laser welded high strength component made of a gamma prime (γ′) strengthened superalloy based on Ni or Co or Fe or combinations thereof. The method consists of the following steps | 12-18-2014 |
20150028021 | METHOD FOR PROCESSING A MODULAR HYBRID COMPONENT - The invention relates to a method for processing a modular hybrid component having a first part made of a first material and a second part made of a second material, which is different from the first material with regard to its electromagnetic and/or thermal properties. The method including exposing the modular hybrid component to an alternating electromagnetic field, whereby both parts are heated up differently, and that a brazing or soldering joint or field sensitive mineral cement between the first part and the second part is affected by the heating action. | 01-29-2015 |
20150041434 | METHOD FOR SEPARATING A METAL PART FROM A CERAMIC PART - The invention relates to a method for separating a metal part from a ceramic part, which are joined at a connecting face within a modular hybrid component, especially of a gas turbine. The method includes said component being subjected to a reducing atmosphere in a gaseous process at elevated temperatures to dissolve the connection between said metal part and said ceramic part, especially by dissolving the ceramic part itself. | 02-12-2015 |
Patent application number | Description | Published |
20090011315 | Thin-Film Composite and a Glass Ceramic Substrate Used in a Miniaturized Electrochemical Device - A composite element comprising a thin film that consists of at least two layers of an oxide-ceramic and metallic material, or a metallic material and an essentially flat substrate that supports the thin film. Said substrate is composed of a ceramicizable glass, a glass ceramic, a hybrid form or an intermediate product. To produce the substrate, selected regions are dissolved out of the photostructurable glass substrate. The composite element can be successfully used in a miniaturised electrochemical device, in particular in a solid oxide fuel cell SOFC, a sensor or as a gas separation membrane. | 01-08-2009 |
20090029195 | THIN FILM AND COMPOSITE ELEMENT PRODUCED FROM THE SAME - A thin film consisting of at least two layers of a ceramic material, a ceramic and metallic material, or in the case of several layers a metallic material. All layers of the thin film have a maximum average particle size of approximately 500 nm and at least two layers consist of different material. In at least one of said layers, an essentially stable average particle size remains after a relaxation time, even in an increased temperature range. The mechanical stability is preferably reinforced by a supporting, essentially flat substrate. In the composite element, the thickness of the substrate is at least five times and in particular between ten and a hundred times the thickness of the thin film. The composite element can be successfully used in a miniaturised electrochemical device, in particular in a solid oxide fuel cell SOFC, a sensor or as a gas separation membrane. | 01-29-2009 |
20090291224 | Porous Ceramic Thin Film - A sheet-like substrate ( | 11-26-2009 |
Patent application number | Description | Published |
20090273878 | GAS BEARING ELECTROSTATIC CHUCK - An electrostatic clamp is provided having a clamping plate, wherein the clamping plate has a central region and an annulus region. A plurality of gas supply orifices are defined in the central region of the clamping plate, wherein the plurality of gas supply orifices are in fluid communication with a pressurized gas supply, and wherein the pressurized gas supply is configured to provide a cushion of gas between the clamping surface and the workpiece in the central region of the clamping plate via the plurality of gas supply orifices. One or more gas return orifices defined in one or more of the central region and annulus region of the clamping plate, wherein the one or more gas return orifices are in fluid communication with a vacuum source, therein generally defining an exhaust path for the cushion of gas. A seal is disposed in the annulus region of the clamping plate, wherein the seal is configured to generally prevent a leakage of the cushion of gas from the central region to an environment external to the annulus region. One or more electrodes are further electrically connected to a first voltage potential to provide a first clamping force. | 11-05-2009 |
20100181470 | ION BEAM ANGLE CALIBRATION AND EMITTANCE MEASUREMENT SYSTEM FOR RIBBON BEAMS - An ion beam angle calibration and emittance measurement system, comprising a plate comprising an elongated slit therein, wherein the elongated slit positioned at a rotation center of the plate and configured to allow a first beam portion to pass therethrough. A beam current detector located downstream of the plate, wherein the beam current detector comprises a slit therein configured to permit a second beam portion of the first beam portion to pass therethrough, wherein the beam current detector is configured to measure a first beam current associated with the first beam portion. A beam angle detector is located downstream of the beam current detector and configured to detect a second beam current associated with the second beam portion. The plate, the current beam detector and the beam angle detector are configured to collectively rotate about the rotation center of the plate. | 07-22-2010 |