Patents by Inventor Srikanth Chandrudu Kottilingam
Srikanth Chandrudu Kottilingam 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: 11826830Abstract: At least one turbine component for a gas turbine includes a base component formed by casting and an article. The base component includes a platform. The article on the upper surface of the platform is formed by additive manufacturing. The article has a proximal face sized and shaped to cover at least a portion of the upper surface of the platform of the turbine component and a contoured distal face opposite the proximal face. The contoured distal face has a contour surface serving as at least a portion of a hot gas path surface of the turbine component. The contour surface is arranged and disposed to provide a controlled flow pattern of a working fluid across the contour surface based on a clock mounting location of the turbine component in a turbine.Type: GrantFiled: June 30, 2020Date of Patent: November 28, 2023Assignee: GENERAL ELECTRIC COMPANYInventors: Sandip Dutta, Zachary Snider, Srikanth Chandrudu Kottilingam, Stephen Wassynger, Joseph Moroso
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Patent number: 11766722Abstract: A multi-piece part includes multiple pieces fabricated via different types of fabrication processes, wherein the multiple parts are configured to be coupled to one another to form the assembly. At least one of the multiple parts is fabricated via an additive manufacturing method. The multi-piece part also includes a holder assembly that couples and holds together the multiple pieces of the multi-piece part, wherein the holder assembly comprises a reversible, mechanical-type coupling.Type: GrantFiled: October 1, 2020Date of Patent: September 26, 2023Assignee: General Electric CompanyInventors: Srikanth Chandrudu Kottilingam, David Edward Schick, Jon Conrad Schaeffer, Steven J. Barnell, Brian Lee Tollison, Yan Cui
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Patent number: 11746064Abstract: Systems and methods for infiltrating porous ceramic matrix composite (CMC) preforms to form CMC articles are disclosed. One method may include positioning the porous CMC preform in an opening of a die set for an infiltration system, and flowing a molten densifier over the porous CMC preform in a first flow direction to infiltrate a plurality of voids formed between each of a plurality of ply stacks of the CMC preform. The method may also include flowing the molten densifier over the porous CMC preform in a second flow direction, distinct from the first flow direction, to infiltrate the plurality of voids formed between each of the plurality of ply stacks of the CMC preform. The second flow direction may be substantially parallel to a predetermined, unidirectional material orientation of at least one ply stack of the plurality of ply stacks of the CMC preform.Type: GrantFiled: June 6, 2019Date of Patent: September 5, 2023Assignee: General Electric CompanyInventors: Jason Robert Parolini, Canan Uslu Hardwicke, Srikanth Chandrudu Kottilingam, James Joseph Murray, III
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Patent number: 11486263Abstract: A system for a turbine blade tip to address wear during rubbing with a shroud, and also tip rail cooling, is provided. The turbine blade tip includes a tip rail and cooling passage(s) extending through a radially outer end surface thereof, providing direct cooling to the tip. The tip rail may include tip rail cooling inserts. The radial outer end surface of the tip rail includes a first portion radially inward of a second portion thereof. An abrasive layer extends along the first portion adjacent the cooling passage(s), and may include a matrix alloy having a plurality of cubic boron nitride (cBN) particles and a plurality of ceramic particles embedded therein. The abrasive layer extends radially outward of the second portion of the radial outer end surface. The system also may include a shroud including an abradable coating thereon.Type: GrantFiled: June 28, 2021Date of Patent: November 1, 2022Assignee: General Electric CompanyInventors: Surinder Singh Pabla, Martin James Jasper, Neelesh Nandkumar Sarawate, Bradley Taylor Boyer, Srikanth Chandrudu Kottilingam
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Patent number: 11480070Abstract: A coolant delivery system for a component of a gas turbine system includes: a plurality of independent circuits of cooling channels embedded within an exterior wall of the component, each independent circuit of cooling channels including a plurality of headers and a plurality of feed tubes fluidly coupling the plurality of headers to a supply of cooling fluid; and an impingement plate connected to the exterior wall of the component by the plurality of feed tubes of the independent circuits of cooling channels, wherein, in each of the plurality of independent circuits of cooling channels, the cooling fluid flows through the plurality of feed tubes and the plurality of headers into the circuit of cooling channels only in response to a formation of a breach in the exterior wall of the component that exposes at least one of the cooling channels of the circuit of cooling channels.Type: GrantFiled: October 25, 2019Date of Patent: October 25, 2022Assignee: General Electric CompanyInventors: Matthew Troy Hafner, Brad Wilson VanTassel, Christopher Donald Porter, Srikanth Chandrudu Kottilingam
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Patent number: 11454133Abstract: An embodiment of an independent cooling circuit for selectively delivering cooling fluid to a component of a gas turbine system includes: a plurality of independent circuits of cooling channels embedded within an exterior wall of the component, wherein the plurality of circuits of cooling channels are interwoven together; an impingement plate; and a plurality of feed tubes connecting the impingement plate to the exterior wall of the component and fluidly coupling each of the plurality of circuits of cooling channels to at least one supply of cooling fluid, wherein, in each of the plurality of circuits of cooling channels, the cooling fluid flows through the plurality of feed tubes into the circuit of cooling channels only in response to a formation of a breach in the exterior wall of the component that exposes at least one of the cooling channels of the circuit of cooling channels.Type: GrantFiled: October 25, 2019Date of Patent: September 27, 2022Assignee: General Electric CompanyInventors: Matthew Troy Hafner, Brad Wilson VanTassel, Christopher Donald Porter, Srikanth Chandrudu Kottilingam
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Patent number: 11434767Abstract: An embodiment of an independent cooling circuit for selectively delivering cooling fluid to a component of a gas turbine system includes: at least one coolant feed channel fluidly coupled to a supply of cooling fluid; and an interconnected circuit of cooling channels, including: an interconnected circuit of cooling channels embedded within an exterior wall of the component; an impingement plate; and a plurality of feed tubes connecting the impingement plate to the exterior wall of the component and fluidly coupling a supply of cooling fluid to the interconnected circuit of cooling channels; wherein the cooling fluid flows through the plurality of feed tubes into the interconnected circuit of cooling channels only in response to a formation of a breach in the exterior wall of the component that exposes at least one of the cooling channels.Type: GrantFiled: October 25, 2019Date of Patent: September 6, 2022Assignee: General Electric CompanyInventors: Matthew Troy Hafner, Lyndsay Marie Kibler, Brad Wilson VanTassel, Benjamin Paul Lacy, Zachary John Snider, Christopher Donald Porter, Srikanth Chandrudu Kottilingam
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Publication number: 20220220858Abstract: An embodiment of an independent cooling circuit for selectively delivering cooling fluid to a component of a gas turbine system includes: a plurality of independent circuits of cooling channels embedded within an exterior wall of the component, wherein the plurality of circuits of cooling channels are interwoven together; an impingement plate; and a plurality of feed tubes connecting the impingement plate to the exterior wall of the component and fluidly coupling each of the plurality of circuits of cooling channels to at least one supply of cooling fluid, wherein, in each of the plurality of circuits of cooling channels, the cooling fluid flows through the plurality of feed tubes into the circuit of cooling channels only in response to a formation of a breach in the exterior wall of the component that exposes at least one of the cooling channels of the circuit of cooling channels.Type: ApplicationFiled: October 25, 2019Publication date: July 14, 2022Inventors: Matthew Troy Hafner, Brad Wilson VanTassel, Christopher Donald Porter, Srikanth Chandrudu Kottilingam
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Publication number: 20220205363Abstract: A coolant delivery system for a component of a gas turbine system includes: a plurality of independent circuits of cooling channels embedded within an exterior wall of the component, each independent circuit of cooling channels including a plurality of headers and a plurality of feed tubes fluidly coupling the plurality of headers to a supply of cooling fluid; and an impingement plate connected to the exterior wall of the component by the plurality of feed tubes of the independent circuits of cooling channels, wherein, in each of the plurality of independent circuits of cooling channels, the cooling fluid flows through the plurality of feed tubes and the plurality of headers into the circuit of cooling channels only in response to a formation of a breach in the exterior wall of the component that exposes at least one of the cooling channels of the circuit of cooling channels.Type: ApplicationFiled: October 25, 2019Publication date: June 30, 2022Inventors: Matthew Troy Hafner, Brad Wilson VanTassel, Christopher Donald Porter, Srikanth Chandrudu Kottilingam
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Publication number: 20220112815Abstract: An abradable seal structure for a gas turbine is formed using binder jetting. The structure may include a first plurality of adjoining cells and a second plurality of adjoining cells. The first plurality of adjoining cells has at least one of a different size, shape, wall thickness, and configuration of adjoining cells than the second plurality of adjoining cells. The abradable seal structure may also have varying porosity across an area thereof.Type: ApplicationFiled: October 13, 2020Publication date: April 14, 2022Inventors: Surinder Singh Pabla, Srikanth Chandrudu Kottilingam
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Patent number: 11262074Abstract: An effusion cooling element for the surface of a hot gas path (HGP) component is disclosed. The effusion cooling element includes a coolant swirling chamber embedded within the body of the HGP component. A coolant delivery passage is in the body and configured to deliver a coolant to the coolant swirling chamber. The coolant swirling chamber imparts a centrifugal force to the coolant. An effusion opening is in the HGP surface and in fluid communication with the coolant swirling chamber, the effusion opening having a smaller width than the coolant swirling chamber. The coolant exits the effusion opening over substantially all of 360° about the effusion opening, creating a coolant film on the HGP surface.Type: GrantFiled: March 21, 2019Date of Patent: March 1, 2022Assignee: General Electric CompanyInventors: Jonathan Dwight Berry, Michael Hughes, Srikanth Chandrudu Kottilingam
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Patent number: 11203938Abstract: A nozzle or blade for a turbomachine includes an airfoil body including at least one first coolant passage, and an edge opening in a leading edge or a trailing edge of the airfoil body. The edge opening has an edge coupon retention member seat in or on an inner surface of the airfoil body. An edge coupon has a shape at least partially configured for coupling to the edge opening in the airfoil body. The edge coupon includes an edge coupon body, at least one second coolant passage in the edge coupon body configured for fluid communication with the at least one first coolant passage in the airfoil body, and a retention member extending from the edge coupon body for coupling to the edge coupon retention member seat in the airfoil body.Type: GrantFiled: November 8, 2018Date of Patent: December 21, 2021Assignee: General Electric CompanyInventors: Srikanth Chandrudu Kottilingam, Jon Conrad Schaeffer, Brian Lee Tollison
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Patent number: 11156106Abstract: A method of controlling an extent of a thermal barrier coating (TBC) sheet spall and a hot gas path (HGP) component are disclosed. The method provides an HGP component having a body with an exterior surface. Controlling the extent of the TBC sheet spall includes forming a TBC over a selected portion of the exterior surface of the body. The TBC includes a plurality of segments in a cellular pattern. Each segment is defined by one or more slots in the TBC, and each segment has a predefined area such that the extent of the TBC sheet spall is limited by the predefined area of each of the plurality of segments that constitute the TBC sheet spall.Type: GrantFiled: February 11, 2019Date of Patent: October 26, 2021Assignee: General Electric CompanyInventors: Jon Conrad Schaeffer, David Vincent Bucci, Canan Uslu Hardwicke, Srikanth Chandrudu Kottilingam, Kathleen Blanche Morey, Lacey Lynn Schwab
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Patent number: 11143033Abstract: A blade for a turbomachine, a tip for a blade of a turbomachine and a related method are disclosed. The blade may include a tip body having a shape at least partially configured for coupling to an airfoil body of the blade; at least one coolant passage in the tip body configured for fluid communication with at least one coolant passage in the airfoil body; and a retention member extending from the tip body for coupling to a tip retention member seat in the airfoil body. The tip can be replaced, allowing for changes in the coolant passages in the tip of a blade.Type: GrantFiled: November 8, 2018Date of Patent: October 12, 2021Assignee: GENERAL ELECTRIC COMPANYInventors: Srikanth Chandrudu Kottilingam, Jon Conrad Schaeffer, Brian Lee Tollison
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Patent number: 11123796Abstract: A method of making a pre-sintered preform, including forming a pre-sintered preform by a binder jet additive manufacturing technique. The binder jet additive manufacturing technique includes depositing a first powder layer including a first powder and a second powder followed by depositing a first binder at a pre-determined location of the first powder layer. The binder jet additive manufacturing technique also includes depositing a second powder layer over at least a portion of the first powder layer followed by depositing a second binder at a pre-determined location of the second powder layer. At least a portion of the first binder and at least a portion of the second binder is cured forming a green part. The green part is then densified to form a pre-sintered preform near net shape component.Type: GrantFiled: April 28, 2017Date of Patent: September 21, 2021Assignee: GENERAL ELECTRIC COMPANYInventors: Srikanth Chandrudu Kottilingam, Yan Cui, Brian Lee Tollison, David Edward Schick
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Patent number: 11117839Abstract: Various embodiments include methods for densifying a melt infiltrated ceramic matrix composite (CMC) article, and a densified melt infiltrated CMC article formed thereby. Particular embodiments include a method including: providing a porous CMC preform within a first region of a casting apparatus; providing a molten densifier within a pressure head area of a second region of the casting apparatus, the first and second regions being operably connected and the molten densifier including at least one source of silicon; and applying a first pressure to the molten densifier within the pressure head, thereby infiltrating voids within the porous CMC preform with the molten densifier and forming a densified melt infiltrated CMC article.Type: GrantFiled: April 24, 2019Date of Patent: September 14, 2021Assignee: General Electric CompanyInventors: Jason Robert Parolini, Canan Uslu Hardwicke, Srikanth Chandrudu Kottilingam, James Joseph Murray, III
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Publication number: 20210221093Abstract: A process includes forming a printed article having an external surface and at least one microfeature with an internal surface by additive manufacture, coating the external surface and the internal surface of the printed article with a metallic microlayer to form a coated article, and densifying the coated article to form a component. After formation, the printed article has a porosity such that the printed article is not at full density. A densified component includes a printed article having an external surface and at least one microfeature with an internal surface and a metallic microlayer coating the external surface and the internal surface of the printed article. The printed article is formed by additive manufacture.Type: ApplicationFiled: March 10, 2021Publication date: July 22, 2021Inventors: Ibrahim UCOK, Yan CUI, Srikanth Chandrudu KOTTILINGAM, Surinder Singh PABLA
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Patent number: 11033987Abstract: A hybrid article is disclosed including a sintered coating disposed on and circumscribing the lateral surface of a core having a core material and a greater density than the sintered coating. The sintered coating includes more than about 95% up to about 99.5% of a first metallic particulate material including a first melting point, and from about 0.5% up to about 5% of a second metallic particulate material having a second melting point lower than the first melting point. A method for forming the hybrid article is disclosed including disposing the core in a die, introducing a slurry having the metallic particulate materials into a gap between the lateral surface and the die, and sintering the slurry. A method for welding a workpiece is disclosed including the hybrid article serving as a weld filler.Type: GrantFiled: March 29, 2017Date of Patent: June 15, 2021Assignee: GENERAL ELECTRIC COMPANYInventors: Yan Cui, Srikanth Chandrudu Kottilingam, Matthew J. Laylock, Brian Lee Tollison
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Patent number: 10995621Abstract: An airfoil having a wall structure including a plurality of spaced walls for improved cooling and lifetime is disclosed. The airfoil and walls are made by additive manufacturing. The airfoil includes an exterior wall, an intermediate wall, and an interior wall each separated from adjacent walls by a plurality of standoff members; a plurality of outer cooling chambers defined between the exterior and intermediate walls, the chambers partitioned by an outer partition; a plurality of intermediate cooling chambers defined between the intermediate and interior walls, the chambers partitioned by an intermediate partition; a thermal barrier coating on each of the exterior wall and the intermediate wall; a first plurality of impingement openings through the intermediate wall; a second plurality of impingement openings through the interior wall; and a plurality of cooling passages through the exterior wall.Type: GrantFiled: November 6, 2018Date of Patent: May 4, 2021Assignee: General Electric CompanyInventors: Matthew Troy Hafner, Gary Michael Itzel, Srikanth Chandrudu Kottilingam
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Patent number: 10995620Abstract: The disclosure relates to turbomachine components which include one or more coating-capturing features for thermal insulation. A turbomachine component may include: a body having an exterior surface positioned within a hot gas path (HGP) section of a turbomachine; and a coating-capturing feature mounted on the exterior surface of the body and in thermal communication with the HGP section of the turbomachine, wherein the coating-capturing feature comprises: a first member positioned on the exterior surface of the body, the first member having at least one outer sidewall defining a first perimeter of the coating-capturing feature, a second member positioned on the first member and having at least one outer sidewall defining a second perimeter of the coating-capturing feature, wherein the first member separates the second member from the exterior surface of the body, and an indentation positioned between the first and second members.Type: GrantFiled: June 21, 2018Date of Patent: May 4, 2021Assignee: General Electric CompanyInventors: Jonathan Dwight Berry, Srikanth Chandrudu Kottilingam