Patents by Inventor Suresh Subramanian
Suresh Subramanian 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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Publication number: 20110027098Abstract: A method of making a ceramic matrix composite blade includes laying up at least one ply of the plurality of fibrous ceramic plies in a preselected arrangement to form an airfoil and dovetail preform, laying up at least one additional ply of the plurality of fibrous ceramic plies on the airfoil and dovetail preform in a second preselected arrangement to form an integral platform as part of the non-rigidized blade preform, rigidizing the blade preform to form a rigidized blade preform, and densifying the rigidized blade preform to form a ceramic matrix composite blade having an integral platform structure. A tool for making the ceramic matrix composite blade and a ceramic matrix composite blade are also disclosed.Type: ApplicationFiled: December 31, 2008Publication date: February 3, 2011Applicant: General Electric CompanyInventors: Mark E. NOE, Mark W. MARUSKO, Joshua B. JAMISION, Suresh SUBRAMANIAN, Michael J. VERRILLI, Paul IZON
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Publication number: 20110027525Abstract: A three-dimensional preform, composite components formed with the preform, and processes for producing the preform and composite materials. The three-dimensional preform includes first and second sets of tows containing filaments. Each tow of the first set has a predetermined polygonal cross-sectional shape and is embedded within a temporary matrix. The preform is fabricated from the first and second sets of tows, in which the second set of tows are transverse to the first set of tows, adjacent tows of the second set are spaced apart to define interstitial regions therebetween, and the polygonal cross-sectional shapes of the first set of tows are substantially congruent to the cross-sectional shapes of the interstitial regions so as to substantially fill the interstitial regions.Type: ApplicationFiled: October 15, 2010Publication date: February 3, 2011Applicant: GENERAL ELECTRIC COMPANYInventors: Timothy Daniel Kostar, Douglas Melton Carper, Suresh Subramanian, James Dale Steibel
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Patent number: 7837914Abstract: A preform architecture and process for producing composite materials, and particularly CMC components. The process entails producing a composite component having a matrix material reinforced with a three-dimensional preform. The process includes producing first and second sets of tows containing filaments. Each tow of the first set has a predetermined cross-sectional shape and is embedded within a temporary matrix material formed of a material that is not the matrix material or a precursor of the matrix material. The preform is then fabricated from the first and second sets of tows, in which the second set of tows are transverse to the first set of tows, adjacent tows of the second set are spaced apart to define interstitial regions therebetween, and the cross-sectional shapes of the first set of tows are substantially congruent to the cross-sectional shapes of the interstitial regions so as to substantially fill the interstitial regions.Type: GrantFiled: December 4, 2006Date of Patent: November 23, 2010Assignee: General Electric CompanyInventors: Timothy Daniel Kostar, Douglas Melton Carper, Suresh Subramanian, James Dale Steibel
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Patent number: 7754126Abstract: A method of manufacturing a turbine engine component is disclosed. The method includes the steps of providing a plurality of ceramic cloth plies, each ply having woven ceramic fiber tows and at least one fugitive fiber tow, laying up the plurality of plies in a preselected arrangement to form a turbine engine component shape, oxidizing the fugitive fibers to produce fugitive fiber void regions in the ply, rigidizing the component shape to form a coated component preform using chemical vapor infiltration, partially densifying the coated component preform using carbon-containing slurry, and further densifying the coated component preform with at least silicon to form a ceramic matrix composite turbine engine component having matrix rich regions.Type: GrantFiled: June 17, 2005Date of Patent: July 13, 2010Assignee: General Electric CompanyInventors: Suresh Subramanian, James Dale Steibel, Douglas Melton Carper
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Publication number: 20090324878Abstract: A ceramic matrix composite (CMC) component for gas turbine engines, the component having fine features such as thin edges with thicknesses of less than about 0.030 inches and small radii of less that about 0.030 inches formed using the combination of prepreg plies layed up with non-ply ceramic inserts. The CMC components of the present invention replace small ply inserts cut to size to fit into areas of contour change or thickness change, and replace the small ply inserts with a fabricated single piece discontinuously reinforced composite insert, resulting in fewer defects, such as wrinkles, and better dimensional control.Type: ApplicationFiled: September 4, 2009Publication date: December 31, 2009Applicant: GENERAL ELECTRIC COMPANYInventors: James Dale STEIBEL, Douglas Melton CARPER, Suresh SUBRAMANIAN, Stephen Mark WHITEKER
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Publication number: 20090317612Abstract: A ceramic matrix composite with a ceramic matrix and a gradient layering of coating on ceramic fibers. The coating typically improves the performance of the composite in one direction while degrading it in another direction. For a SiC-SiC ceramic matrix composite, a BN coating is layered in a gradient fashion or in a step-wise fashion in different regions of the article comprising the ceramic. The BN coating thickness is applied over the ceramic fibers to produce varying desired physical properties by varying the coating thickness within differing regions of the composite, thereby tailoring the strength of the composite in the different regions. The coating may be applied as a single layer as a multi-layer coating to enhance the performance of the coating as the ceramic matrix is formed or infiltrated from precursor materials into a preform of the ceramic fibers.Type: ApplicationFiled: August 25, 2009Publication date: December 24, 2009Applicant: GENERAL ELECTRIC COMPANYInventors: Suresh SUBRAMANIAN, James Dale STEIBEL, Douglas Melton CARPER, Toby George DARKINS, JR.
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Publication number: 20090261508Abstract: The present invention is ceramic matrix composite gas turbine engine component comprising a plurality of cured ceramic matrix composite plies, each ply comprising ceramic fiber tows, each ceramic fiber tow comprising a plurality of ceramic fibers, the tows in each ply lying adjacent to one another such that each ply has a unidirectional orientation. The component further comprises a layer of a coating on the ceramic fibers. The component further comprises a ceramic matrix material lying in interstitial regions between the fibers and tows of each ply and the interstitial region between the plurality of plies, wherein at least a portion of the component is no greater than about 0.021 inch thick. The present invention is also a method for making such a ceramic matrix composite component.Type: ApplicationFiled: February 17, 2009Publication date: October 22, 2009Applicant: GENERAL ELECTRIC COMPANYInventors: James D. STEIBEL, Stephen M. WHITEKER, Douglas M. CARPER, Suresh SUBRAMANIAN
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Patent number: 7600979Abstract: A ceramic matrix composite (CMC) component for gas turbine engines, the component having fine features such as thin edges with thicknesses of less than about 0.030 inches and small radii of less that about 0.030 inches formed using the combination of prepreg plies layed up with non-ply ceramic inserts. The CMC components of the present invention replace small ply inserts cut to size to fit into areas of contour change or thickness change, and replace the small ply inserts with a fabricated single piece discontinuously reinforced composite insert, resulting in fewer defects, such as wrinkles, and better dimensional control.Type: GrantFiled: November 28, 2006Date of Patent: October 13, 2009Assignee: General Electric CompanyInventors: James Dale Steibel, Douglas Melton Carper, Suresh Subramanian, Stephen Mark Whiteker
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Patent number: 7597838Abstract: A ceramic matrix composite with a ceramic matrix and a gradient layering of coating on ceramic fibers. The coating typically improves the performance of the composite in one direction while degrading it in another direction. For a SiC-SiC ceramic matrix composite, a BN coating is layered in a gradient fashion or in a step-wise fashion in different regions of the article comprising the ceramic. The BN coating thickness is applied over the ceramic fibers to produce varying desired physical properties by varying the coating thickness within differing regions of the composite, thereby tailoring the strength of the composite in the different regions. The coating may be applied as a single layer as a multi-layer coating to enhance the performance of the coating as the ceramic matrix is formed or infiltrated from precursor materials into a preform of the ceramic fibers.Type: GrantFiled: December 30, 2004Date of Patent: October 6, 2009Assignee: General Electric CompanyInventors: Suresh Subramanian, James Dale Steibel, Douglas Melton Carper, Toby George Darkins, Jr.
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Patent number: 7579094Abstract: The present invention is a ceramic matrix composite turbine engine component, wherein the component has a direction of maximum tensile stress during normal engine operation. The component comprises a plurality of biased ceramic plies, wherein each biased ply comprises ceramic fiber tows, the tows being woven in a first warp direction and a second weft direction, the second weft direction lying at a preselected angular orientation with respect to the first warp direction, wherein a greater number of tows are woven in the first warp direction than in the second weft direction, and wherein a number of tows in the second weft direction allows the biased plies to maintain their structural integrity when handled.Type: GrantFiled: June 16, 2006Date of Patent: August 25, 2009Assignee: General Electric CompanyInventors: Suresh Subramanian, James Dale Steibel, Douglas Melton Carper, Brian Keith Flandermeyer
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Publication number: 20090165924Abstract: A method for forming a ceramic matrix composite (CMC) component for gas turbine engines. The method contemplates replacing a plurality of plies with insert material. The insert material can be partially cured or pre-cured and applied in place of a plurality of small plies or it may be inserted into cavities of a component in the form of a paste or a ply. The insert material is isotropic, being formed of a combination of matrix material and chopped fibers, tow, cut plies or combinations thereof. The use of the insert material allows for features such as thin edges with thicknesses of less than about 0.030 inches and small radii such as found in corners. The CMC components of the present invention replace small ply inserts cut to size to fit into areas of contour change or thickness change, and replace the small ply inserts with a fabricated single piece discontinuously reinforced composite insert, resulting in fewer defects, such as wrinkles, and better dimensional control.Type: ApplicationFiled: November 28, 2006Publication date: July 2, 2009Applicant: GENERAL ELECTRIC COMPANYInventors: James Dale Steibel, Douglas Melton Carper, Suresh Subramanian, Stephen Mark Whiteker
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Patent number: 7549840Abstract: A method of manufacturing a turbine engine component comprising the steps of providing and laying up a plurality of ceramic plies comprising woven ceramic fiber tows to form a turbine engine component shape, inserting a plurality of tows of oxidizable fugitive fibers into the component shape, such that each fugitive fiber tow passes through a preselected number of ceramic plies, burning off the fugitive fiber tows, the burning producing through-thickness void regions, rigidizing the component shape with a layer of BN and a layer of SiC to form a coated component preform using chemical vapor infiltration, and partially densifying the coated component preform using carbon-containing slurry and filling the through thickness void regions, and further densifying the coated component preform with at least silicon to form a ceramic matrix composite turbine engine component with in-situ ceramic matrix plugs formed where the through-thickness void regions were located.Type: GrantFiled: June 17, 2005Date of Patent: June 23, 2009Assignee: General Electric CompanyInventors: Suresh Subramanian, James Dale Steibel, Douglas Melton Carper
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Publication number: 20090090005Abstract: The integral layer provides a ductile interface for attachment locations of a turbine engine component where a metallic surface is adjacent the attachment location. The ductile layer provides a favorable load distribution through the composite at the attachment location, and eliminates the need for a metallic shim.Type: ApplicationFiled: November 12, 2007Publication date: April 9, 2009Applicant: GENERAL ELECTRIC COMPANYInventors: Douglas Melton Carper, Suresh Subramanian
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Patent number: 7510379Abstract: A composite blading member includes an airfoil and a base of composite material layers and a platform of composite material layers interfused with the airfoil and base. The platform comprises a platform shelf and a plurality of spaced-apart platform supports integral with the platform shelf and interfused with surfaces of the base. Such blading member was made by providing a partially cured airfoil-base preform and a platform preform, including an airfoil shaped opening therethrough and preforms of the platform supports. The airfoil-base preform was inserted through the airfoil shaped opening whereby cooperating surfaces of the platform preform and airfoil-base preform were in juxtaposition. The preforms were heated to partially cure them together. Then they were interfused with a binder compatible with material of the preforms under conditions to substantially fully cure the structures.Type: GrantFiled: December 22, 2005Date of Patent: March 31, 2009Assignee: General Electric CompanyInventors: Mark Willard Marusko, Suresh Subramanian
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Patent number: 7507466Abstract: The present invention is ceramic matrix composite gas turbine engine component comprising a plurality of cured ceramic matrix composite plies, each ply comprising ceramic fiber tows, each ceramic fiber tow comprising a plurality of ceramic fibers, the tows in each ply lying adjacent to one another such that each ply has a unidirectional orientation. The component further comprises a layer of a coating on the ceramic fibers. The component further comprises a ceramic matrix material lying in interstitial regions between the fibers and tows of each ply and the interstitial region between the plurality of plies, wherein at least a portion of the component is no greater than about 0.021 inch thick. The present invention is also a method for making such a ceramic matrix composite component.Type: GrantFiled: February 22, 2006Date of Patent: March 24, 2009Assignee: General Electric CompanyInventors: James D. Steibel, Stephen M. Whiteker, Douglas M. Carper, Suresh Subramanian
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Publication number: 20080149255Abstract: Thin plies used to manufacture components having changes in contour and changes in thickness and in fabricating thin cross-sections utilizing scrims. A scrim is applied to the surface of a thin, high temperature CMC prepreg ply. The scrim assists in maintaining the integrity of the thin ply during handling and lay-up operations thereby preventing damage to the thin plies and the lay-up. The scrim is a thin supportive layer applied to the surface of a thin prepreg to improve its handling characteristics, such as by preventing wrinkling. The scrim can be a coarse or fine mesh of thin or heavy fiber applied as a reinforcement. The scrim can be a temporary removable structure or can be incorporated into the component as part of the thin ply. The structure and composition of the scrim will be dependent upon whether the scrim is a temporary removable structure or whether it is incorporated permanently into the component.Type: ApplicationFiled: December 20, 2006Publication date: June 26, 2008Applicant: GENERAL ELECTRIC COMPANYInventors: Stephen Mark Whiteker, Douglas M. Carper, Suresh Subramanian, James D. Steibel
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Publication number: 20080132398Abstract: A preform architecture and process for producing composite materials, and particularly CMC components. The process entails producing a composite component having a matrix material reinforced with a three-dimensional preform. The process includes producing first and second sets of tows containing filaments. Each tow of the first set has a predetermined cross-sectional shape and is embedded within a temporary matrix material formed of a material that is not the matrix material or a precursor of the matrix material. The preform is then fabricated from the first and second sets of tows, in which the second set of tows are transverse to the first set of tows, adjacent tows of the second set are spaced apart to define interstitial regions therebetween, and the cross-sectional shapes of the first set of tows are substantially congruent to the cross-sectional shapes of the interstitial regions so as to substantially fill the interstitial regions.Type: ApplicationFiled: December 4, 2006Publication date: June 5, 2008Applicant: GENERAL ELECTRIC COMPANYInventors: Timothy Daniel Kostar, Douglas Melton Carper, Suresh Subramanian, James Dale Steibel
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Publication number: 20080124512Abstract: A ceramic matrix composite (CMC) component for gas turbine engines, the component having fine features such as thin edges with thicknesses of less than about 0.030 inches and small radii of less that about 0.030 inches formed using the combination of prepreg plies layed up with non-ply ceramic inserts. The CMC components of the present invention replace small ply inserts cut to size to fit into areas of contour change or thickness change, and replace the small ply inserts with a fabricated single piece discontinuously reinforced composite insert, resulting in fewer defects, such as wrinkles, and better dimensional control.Type: ApplicationFiled: November 28, 2006Publication date: May 29, 2008Applicant: GENERAL ELECTRIC COMPANYInventors: James Dale Steibel, Douglas Melton Carper, Suresh Subramanian, Stephen Mark Whiteker
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Patent number: 7329101Abstract: The integral layer provides a ductile interface for attachment locations of a turbine engine component where a metallic surface is adjacent the attachment location. The ductile layer provides a favorable load distribution through the composite at the attachment location, and eliminates the need for a metallic shim.Type: GrantFiled: December 29, 2004Date of Patent: February 12, 2008Assignee: General Electric CompanyInventors: Douglas Melton Carper, Suresh Subramanian
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Patent number: 7306826Abstract: A method for making a ceramic matrix composite turbine engine component, wherein the method includes providing a plurality of biased ceramic plies, wherein each biased ply comprises ceramic fiber tows, the tows being woven in a first warp direction and a second weft direction, the second weft direction lying at a preselected angular orientation with respect to the first warp direction, wherein a greater number of tows are woven in the first warp direction than in the second weft direction. The plurality of biased plies are laid up in a preselected arrangement to form the component, and a preselected number of the plurality of biased plies are oriented such that the orientation of the first warp direction of the plies lie about in the direction of maximum tensile stress during normal engine operation. A coating is applied to the plurality of biased plies. The coated component preform is then densified.Type: GrantFiled: February 23, 2004Date of Patent: December 11, 2007Assignee: General Electric CompanyInventors: Suresh Subramanian, James Dale Steibel, Douglas Melton Carper, Brian Keith Flandermeyer