Patents by Inventor Anton Albrecht
Anton Albrecht has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 8212479Abstract: A high-pressure discharge lamp having a discharge vessel with a central part that bulges out and which defines a lamp axis with a sealing part being attached to each end of the discharge vessel. The shaft of in each case one electrode, comprising a head and a shaft, is sealed in the sealing part, and a capillary tube closely surrounding the shaft of the electrode is between the central part of the discharge vessel and the sealing part. A tubular neck is integrally formed as a component of the discharge vessel between the central part and the capillary tube, and is separated from the shaft.Type: GrantFiled: July 4, 2007Date of Patent: July 3, 2012Assignee: Osram AGInventors: Anton Albrecht, Swen-Uwe Baacke, Stephan Berndanner, Michael Simson, Martin Spreitzer
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Publication number: 20100263694Abstract: A decoating device for axially symmetric components, particularly from aircraft engines is provided, the decoating process being carried out through the use of a decoating fluid-which is brought on a localized basis into contact with the component to be decoated, a receptacle for holding the decoating fluid being provided that rotates at least about one axis of rotation, and the decoating fluid surface forming a rotation paraboloid in response to the rotation, the component(s) to be decoated on a localized basis being accommodated in the receptacle and being dipped on the radially outer side into the decoating fluid. A decoating device is thereby devised which makes it possible for radially symmetric components to be decoated in the radially outer region in a simple process.Type: ApplicationFiled: October 27, 2007Publication date: October 21, 2010Applicant: MTU Aero Engines GmbHInventors: Thomas Uihlein, Wolfgang Eichmann, Falko Heutling, Markus Uecker, Thomas Brendel, Georgios Paronis, Anton Albrecht, Manfred Berger
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Patent number: 7771578Abstract: In a method for production of a corrosion resistant and/or oxidation resistant coating, at least one metal of the platinum group or an alloy thereof is galvanically deposited onto a surface of a substrate, and thereafter the thusly galvanically coated substrate is aluminized. In a first stage of the galvanic deposition process a current magnitude applied for the galvanizing is increased continuously or step-wise beginning from an initial value up to a maximum value, and in a second stage of the galvanic deposition process the current magnitude applied for the galvanizing is maintained constant at the maximum value. The galvanic deposition of the or each metal of the platinum group or the corresponding alloy may be carried out using an open-celled or open-mesh or porous anode.Type: GrantFiled: May 2, 2005Date of Patent: August 10, 2010Assignee: MTU Aero Engines GmbHInventors: Anton Albrecht, Thomas Dautl, Oemer-Refik Oezcan, Horst Pillhoefer
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Publication number: 20100108538Abstract: A method for stripping a component, in particular a gas turbine component, to completely or partially remove a multilayer or sandwich antiwear coating from the surface of the component, the antiwear coating including at least one relatively hard ceramic layer and at least one relatively soft metallic layer is disclosed. According to the present invention, in order to remove the multilayer or sandwich antiwear coating, the component is placed in a bath of an alkaline electrolyte, the component placed in the electrolyte being stripped at a current density of between 1 A/dm2 and 20 A/dm2.Type: ApplicationFiled: May 2, 2008Publication date: May 6, 2010Applicant: MTU Aero Engines GmbHInventors: Anton Albrecht, Wolfgang Eichmann, Georgios Paronis, Thomas Uihlein
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Patent number: 7655321Abstract: A component having a corrosion-resistant and/or oxidation-resistant coating is provided that includes at least one platinum-aluminum substrate area is provided, the component having a substrate surface (11) and a substrate composition based on nickel, with a platinum-aluminum substrate area (12) formed in the area of the substrate surface of the component by precipitating platinum (Pt) and aluminum (Al) on the substrate surface. The platinum-aluminum substrate area (12) has a two-phase structure or duplex structure with finely dispersed platinum-aluminum deposits in a nickel-based mixed crystal in an outer zone (13), and a single-phase structure made of a nickel-based mixed crystal in an inner zone (14) located between the substrate surface (11) of the component and the outer zone (13).Type: GrantFiled: August 23, 2005Date of Patent: February 2, 2010Assignee: MTU Aero Engines GmbHInventors: Anton Albrecht, Thomas Cosack, Thomas Dautl, Horst Pillhoefer
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Publication number: 20090261728Abstract: A high-pressure discharge lamp having a discharge vessel with a central part that bulges out and which defines a lamp axis with a sealing part being attached to each end of the discharge vessel. The shaft of in each case one electrode, comprising a head and a shaft, is sealed in the sealing part, and a capillary tube closely surrounding the shaft of the electrode is between the central part of the discharge vessel and the sealing part. A tubular neck is integrally formed as a component of the discharge vessel between the central part and the capillary tube, and is separated from the shaft.Type: ApplicationFiled: July 4, 2007Publication date: October 22, 2009Inventors: Anton Albrecht, Swen-Uwe Baacke, Stephan Berndanner, Michael Simson, Martin Spreitzer
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Publication number: 20090243486Abstract: Disclosed is a discharge lamp, particularly a high-pressure xenon or mercury discharge lamp, comprising a bulb that is provided with two diametrically arranged bulb shafts, each of which supports one electrode with an electrode holding rod and an electrode head. The electrode holding rods are gas-tightly fixed in final sections of the bulb shafts by means of a sealing process. According to the invention, the bulb shafts encompass at least two knobs for supporting the electrodes, which are in contact with the electrode holding rods in at least some sections.Type: ApplicationFiled: September 26, 2006Publication date: October 1, 2009Applicant: PATENT-TREUHAND-GESELLSCHAFT FUR elektrische Gluhlampen mbHInventor: Anton Albrecht
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Publication number: 20090186157Abstract: A method for selectively removing a first layer from an engine component including the first layer, a base material and a second layer forming a bond connecting the first layer to the base material is provided. The method includes applying a salt melt to at least one section of the engine component including at least one portion of the second layer so the bond formed by the second layer between the base material and the first layer is at least weakened.Type: ApplicationFiled: January 16, 2009Publication date: July 23, 2009Applicant: MTU Aero Engines GmbHInventors: Anton Albrecht, Max Niegl, Juergen Olfe, Georgios Paronis, Michael Sachon
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Patent number: 7513986Abstract: A method and a device for locally removing coatings from components. An absorbent medium supplied with a coating removal liquid is brought into contact with one or more areas of a component from which a coating is to be removed.Type: GrantFiled: April 19, 2002Date of Patent: April 7, 2009Assignee: MTU Aero Engines GmbHInventors: Anton Albrecht, Armin Eberlein, Karsten Gold, Albert Schneider
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Publication number: 20090017201Abstract: The invention relates to a method for coating or decoating a component, in particular a gas turbine component, wherein, in order to regionally or partially coat or decoat a component, the component is preferably completely covered with a covering medium, and wherein the covering medium is removed from only those surface regions of the component in which the coating or decoating of the component is supposed to take place, so that a surface region of the component which is not to be coated or decoated is covered by the covering medium. According to the invention, the covering medium is removed by means of water jet machining.Type: ApplicationFiled: August 22, 2006Publication date: January 15, 2009Applicant: MTU Aero Engines GmbHInventors: Matthias Schmidt, Georgios Paronis, Anton Albrecht
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Publication number: 20080166589Abstract: A component having a corrosion-resistant and/or oxidation-resistant coating is provided that includes at least one platinum-aluminum substrate area is provided, the component having a substrate surface (11) and a substrate composition based on nickel, with a platinum-aluminum substrate area (12) formed in the area of the substrate surface of the component by precipitating platinum (Pt) and aluminum (Al) on the substrate surface. The platinum-aluminum substrate area (12) has a two-phase structure or duplex structure with finely dispersed platinum-aluminum deposits in a nickel-based mixed crystal in an outer zone (13), and a single-phase structure made of a nickel-based mixed crystal in an inner zone (14) located between the substrate surface (11) of the component and the outer zone (13).Type: ApplicationFiled: August 23, 2005Publication date: July 10, 2008Applicant: MTU Aero Engines GmbHInventors: Anton Albrecht, Thomas Cosack, Thomas Dautl, Horst Pillhoefer
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Publication number: 20080035486Abstract: The invention relates to a method for production of a corrosion resistant and/or oxidation resistant coating, whereby at least one metal of the platinum group, in particular platinum and/or palladium, or an alloy based on at least one metal of the platinum group, is deposited by galvanizing onto a surface of a substrate, and whereby thereafter an aluminizing of the thusly galvanically coated substrate is carried out. According to a first aspect of the invention, the galvanic deposition of the or each metal of the platinum group or the corresponding alloy is carried out in an at least two-staged deposition process, whereby in a first stage of the deposition process a current magnitude applied for the galvanizing is increased continuously or step-wise beginning from an initial value up to a maximum value, and whereby in a second stage of the deposition process the current magnitude applied for the galvanizing is maintained constant at the maximum value.Type: ApplicationFiled: May 2, 2005Publication date: February 14, 2008Inventors: Anton Albrecht, Thomas Dautl, Oemer-Refik Oezcan, Horst Pillhoefer
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Publication number: 20070231586Abstract: A method is for producing a corrosion-resistant and oxidation-resistant coating, and a component part includes such a coating. According to the method, a component part made of a component part material and a slip material are made available, the slip material, besides a binding agent, including at least one metal powder, the metal powder being formed of at least 25 wt. % of at least one metal of the platinum group, and either being formed of jacketed powder cores, the powder cores being formed of at least one metal of the platinum group; and the jacketing of the powder cores being formed of a material based on the same material as the component part material, or being formed of a metal powder alloy which, besides the at least one metal of the platinum group includes at least one material based on the same material as the material of the component part. The slip material is applied at least from area to area onto the component part while forming a slip layer. The slip layer is then cured and dried.Type: ApplicationFiled: November 4, 2004Publication date: October 4, 2007Inventors: Anton Albrecht, Gerhard Wydra
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Publication number: 20040244910Abstract: A method and a device for locally removing coatings from components, a component (5) provided with a coating at least in certain areas being provided, an absorbent medium being provided, the medium being supplied with a coating removal liquid, and the medium containing the coating removal liquid being brought into contact with the area of the component (5) from which the coating is to be removed (FIG. 2).Type: ApplicationFiled: June 15, 2004Publication date: December 9, 2004Inventors: Anton Albrecht, Armin Eberlein, Karsten Gold, Albert Schneider
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Patent number: 5968299Abstract: A protective coating is applied on a local region of a surface of a component on which direct deposit of a uniform coating of protective material is impeded due to a complex shape of the region to be covered or inaccessibility or inability to apply a uniform deposition or electrical field therefor. The coating is formed by a foil having a solder backing layer with a thin layer of uniform thickness of the protective material electrolytically deposited on the backing layer, the foil being cut to size corresponding to an area of the local region of the component to be protected. The cut to size foil is positioned and held on the local region of the component to be protected; and fixed in place by melting the solder to fuse the foil to the component and cover the local region.Type: GrantFiled: December 3, 1997Date of Patent: October 19, 1999Assignee: MTU-Motoren-und Turbinen-Union Munchen GmbHInventors: Reinhold Meier, Erhard Schittenhelm, Martin Thoma, Anton Albrecht