Patents by Inventor Kevin Eugene Elliott
Kevin Eugene Elliott 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: 20240173891Abstract: A method of plugging channels of a honeycomb body and a honeycomb body including plugged channels. The method includes applying a shear force to a plugging mixture including a plurality of inorganic particles, clay, and a liquid vehicle to alter the viscosity of the plugging mixture from a first viscosity prior to the vibrating to a second viscosity which is less than the first viscosity. A honeycomb body is placed into contact with the plugging mixture such that a portion of the plugging mixture having the second viscosity flows into the plurality of channels. Application of the shear force is stopped or reduced to increase the viscosity of the portion of the plugging mixture in the plurality of channels to greater than the first viscosity.Type: ApplicationFiled: January 31, 2024Publication date: May 30, 2024Inventors: Keith Norman Bubb, Theresa Chang, Joseph Henry Citriniti, Kevin Eugene Elliott, Xinyuan Liu, Robert John Locker, Prashanth Abraham Vanniamparambil, Kevin Lee Wasson, Shu Yuan
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Patent number: 11992794Abstract: A method of plugging a honeycomb body is disclosed herein, the method comprising: applying a mask layer to a honeycomb body comprising a plurality of channels; forming a plurality of holes in the mask layer such that the plurality of holes are aligned with the plurality of channels; positioning a nozzle defining an opening proximate the mask layer; moving at least one of the nozzle and the honeycomb body relative to one another; and passing a plugging cement through the opening defined by the nozzle against the mask layer such that the plugging cement passes through the plurality of holes in the mask layer and enters the plurality of channels of the honeycomb body.Type: GrantFiled: June 26, 2019Date of Patent: May 28, 2024Assignee: Corning IncorporatedInventors: Alejandro Aguilar, Richard Dominic Bomba, Kevin Eugene Elliott, Christopher Lane Kerr, Patrick David Tepesch
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Patent number: 11964440Abstract: A method of plugging a honeycomb body is disclosed herein, the method comprising: applying a mask layer to the honeycomb body defining a plurality of channels, wherein the mask layer defines a plurality of holes aligned with the plurality of channels; rotating a roller drum; moving the honeycomb body over the roller drum to define a nip between the roller drum and the honeycomb body; and inserting a plugging cement in the nip between the roller drum and the mask layer such that the roller drum forces the plugging cement through the plurality of holes of the mask layer into the plurality of channels of the honeycomb body.Type: GrantFiled: June 26, 2019Date of Patent: April 23, 2024Assignee: Corning IncorporatedInventors: Richard Dominic Bomba, Kevin Eugene Elliott
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Patent number: 11919194Abstract: A method of plugging channels of a honeycomb body and a honeycomb body including plugged channels. The method includes applying a shear force to a plugging mixture including a plurality of inorganic particles, clay, and a liquid vehicle to alter the viscosity of the plugging mixture from a first viscosity prior to the vibrating to a second viscosity which is less than the first viscosity. A honeycomb body is placed into contact with the plugging mixture such that a portion of the plugging mixture having the second viscosity flows into the plurality of channels. Application of the shear force is stopped or reduced to increase the viscosity of the portion of the plugging mixture in the plurality of channels to greater than the first viscosity.Type: GrantFiled: January 29, 2021Date of Patent: March 5, 2024Assignee: Corning IncorporatedInventors: Keith Norman Bubb, Theresa Chang, Joseph Henry Citriniti, Kevin Eugene Elliott, Xinyuan Liu, Robert John Locker, Prashanth Abraham Vanniamparambil, Kevin Lee Wasson, Shu Yuan
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Patent number: 11851379Abstract: A method of plugging a honeycomb body is disclosed herein, the method comprising: contacting a first end of the honeycomb body comprising a plurality of channels with a light curable sealing mixture such that an infiltrate of the light curable sealing mixture flows into the plurality of channels proximate the first end; emitting a light toward a first portion of the infiltrate within the plurality channels of the filter; and curing the first portion of the infiltrate within the channels with the light to form a plurality of seals.Type: GrantFiled: June 26, 2019Date of Patent: December 26, 2023Assignee: Corning IncorporatedInventors: Kevin Eugene Elliott, Christina Marie Laskowski, Michael George Shultz, John Christopher Thomas, Kevin Lee Wasson, Calvin Jay Winder
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Publication number: 20230158620Abstract: Centering apparatuses and methods for precision placement of a product or component, such as a ceramic honeycomb body, prior to a post-production processing steps are provided. In particular, after extrusion of a component or ware, the component or ware oftentimes requires one or more post-production processing steps in order to obtain a final product. The centering apparatuses and methods described herein provide for the precise and accurate centering of the product (or component) prior to performing these post-production processing steps, thereby obtaining repeatable, consistent, high-quality final products.Type: ApplicationFiled: November 9, 2022Publication date: May 25, 2023Inventors: Alejandro Aguilar, Kevin Eugene Elliott
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Publication number: 20220388190Abstract: Systems and methods for cutting through one or more extrudates to form one or more honeycomb bodies are provided. The systems described herein provide a low inertia vibratory cutting system configured to cut through extrudate to form honeycomb bodies, where the vibratory cutting system comprises a thin, low-inertia cutting element, and one or more sets of fluid bearings configured to mitigate or lessen out of plane vibrations of the cutting element to provide a more stable cutting element. In some examples the vibratory cutting system comprises two sets of fluid bearings arranged at two locations on the cutting element that are configured to mitigate out-of-plane vibrations on the cutting element and between the two locations. In some examples, the cutting element is double-sided to allow for single-sided or double-sided cutting operations.Type: ApplicationFiled: May 25, 2022Publication date: December 8, 2022Inventors: Alejandro Aguilar, Kevin Eugene Elliott, Justin Carl Fossum
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Publication number: 20220105658Abstract: Methods of manufacturing an extrusion die (100) having a plurality of pins (600a-c) and a plurality of slots (601) defined by the plurality of pins, each pin having a base, the method including applying a coating material (604) over side walls of the bases of the pins of the extrusion die and removing a portion of the coating material coated over the side walls of the bases of the plurality of pins with a cutting tool (650). In some embodiments, the cutting tool has a cutting width (652) equal to a target slot width (640) of the slots. In some embodiments, applying the coating material over the side walls of the bases of the pins includes overcoating a coating material to a thickness that is greater than a thickness needed to define a target slot width of the slots.Type: ApplicationFiled: January 30, 2020Publication date: April 7, 2022Inventors: Timothy Eugene Antesberger, Dana Eugene Coots, Eric Jay Dacheux, Kevin Eugene Elliott, Gary Michael Huzinec, Neil James Sidebottom
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Publication number: 20210268418Abstract: A method of plugging a honeycomb body is disclosed herein, the method comprising: applying a mask layer to a honeycomb body comprising a plurality of channels; forming a plurality of holes in the mask layer such that the plurality of holes are aligned with the plurality of channels; positioning a nozzle defining an opening proximate the mask layer; moving at least one of the nozzle and the honeycomb body relative to one another; and passing a plugging cement through the opening defined by the nozzle against the mask layer such that the plugging cement passes through the plurality of holes in the mask layer and enters the plurality of channels of the honeycomb body.Type: ApplicationFiled: June 26, 2019Publication date: September 2, 2021Inventors: Alejandro Aguilar, Richard Dominic Bomba, Kevin Eugene Elliott, Christopher Lane Kerr, Patrick David Tepesch
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Publication number: 20210180489Abstract: A method of plugging a honeycomb body is disclosed herein, the method comprising: applying a mask layer to the honeycomb body defining a plurality of channels, wherein the mask layer defines a plurality of holes aligned with the plurality of channels; rotating a roller drum; moving the honeycomb body over the roller drum to define a nip between the roller drum and the honeycomb body; and inserting a plugging cement in the nip between the roller drum and the mask layer such that the roller drum forces the plugging cement through the plurality of holes of the mask layer into the plurality of channels of the honeycomb body.Type: ApplicationFiled: June 26, 2019Publication date: June 17, 2021Inventors: Richard Dominic Bomba, Kevin Eugene Elliott
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Publication number: 20210179502Abstract: A method of plugging a honeycomb body is disclosed herein, the method comprising: contacting a first end of the honeycomb body comprising a plurality of channels with a light curable sealing mixture such that an infiltrate of the light curable sealing mixture flows into the plurality of channels proximate the first end; emitting a light toward a first portion of the infiltrate within the plurality channels of the filter; and curing the first portion of the infiltrate within the channels with the light to form a plurality of seals.Type: ApplicationFiled: June 26, 2019Publication date: June 17, 2021Inventors: Kevin Eugene Elliott, Christina Marie Laskowski, Michael George Shultz, John Christopher Thomas, Kevin Lee Wasson, Calvin Jay Winder
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Publication number: 20210146574Abstract: A method of plugging channels of a honeycomb body and a honeycomb body including plugged channels. The method includes applying a shear force to a plugging mixture including a plurality of inorganic particles, clay, and a liquid vehicle to alter the viscosity of the plugging mixture from a first viscosity prior to the vibrating to a second viscosity which is less than the first viscosity. A honeycomb body is placed into contact with the plugging mixture such that a portion of the plugging mixture having the second viscosity flows into the plurality of channels. Application of the shear force is stopped or reduced to increase the viscosity of the portion of the plugging mixture in the plurality of channels to greater than the first viscosity.Type: ApplicationFiled: January 29, 2021Publication date: May 20, 2021Inventors: Keith Norman Bubb, Theresa Chang, Joseph Henry Citriniti, Kevin Eugene Elliott, Xinyuan Liu, Robert John Locker, Prashanth Abraham Vanniamparambil, Kevin Lee Wasson, Shu Yuan
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Patent number: 10000031Abstract: A method of manufacturing a honeycomb structure includes providing a honeycomb body having a first contour extending between opposing first and second ends and chamfering a corner of the first end in a radial and axial direction toward the first contour to form a second contour. The method further includes removing material in an axial direction toward the second face to form a third contour, chamfering a corner of the third contour in a radial and axial direction toward the second end to form an end contour, and removing material in an axial direction toward the first face to form a fourth contour. Removing material to form the fourth contour substantially removes the second contour and the end contour.Type: GrantFiled: September 9, 2014Date of Patent: June 19, 2018Assignee: Corning IncorporatedInventor: Kevin Eugene Elliott
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Patent number: 9946033Abstract: A fiber optic connector includes a ferrule configured to receive and support one or more optical fibers and at least one component coupled to a surface of the ferrule by an adhesive. The at least one component overlays a footprint area defined on the surface to which the adhesive is applied, and the surface has a plurality of recessed formations within the footprint area to accommodate the adhesive.Type: GrantFiled: February 3, 2016Date of Patent: April 17, 2018Assignee: Corning Optical Communications LLCInventor: Kevin Eugene Elliott
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Patent number: 9946032Abstract: Fiber optic modules, fiber optic connectors, and methods are disclosed. In one embodiment, a fiber optic module includes a body and a fiber tray. The body includes a fiber tray recess extending from a first surface, a fiber-end datum surface positioned an end of the fiber tray recess, and a plurality of lens surfaces. The plurality of lens surfaces, the fiber-end datum surface, and intervening portions of the body define a plurality of lenses each having a linear optical axis. The fiber tray includes a plurality of fiber support features disposed on a first surface. The plurality of fiber support features is configured to receive a plurality of optical fibers. The fiber tray is disposed within the fiber tray recess and secured to the body.Type: GrantFiled: March 15, 2013Date of Patent: April 17, 2018Assignee: Corning Optical Communications LLCInventors: Michael de Jong, Kevin Eugene Elliott, Carl Randall Harrison, Craig Alan Strause
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Publication number: 20160154189Abstract: A fiber optic connector includes a ferrule configured to receive and support one or more optical fibers and at least one component coupled to a surface of the ferrule by an adhesive. The at least one component overlays a footprint area defined on the surface to which the adhesive is applied, and the surface has a plurality of recessed formations within the footprint area to accommodate the adhesive.Type: ApplicationFiled: February 3, 2016Publication date: June 2, 2016Inventor: Kevin Eugene Elliott
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Patent number: 9205609Abstract: A method is provided of fabricating an optical fiber having a polished end face, including providing an optical fiber having an axis; positioning and maintaining the axis A of the fiber, at a specific location along the fiber, at a fixed position; and forming a laser processed end face on the individual fiber at said specific location L by irradiating the individual fiber at said location with one or more laser beams while moving the one or more laser beams in a rotational direction around the fiber. The method may be applied to a jacketed fiber and/or a fiber on a reel. Resulting fibers are also disclosed.Type: GrantFiled: December 14, 2012Date of Patent: December 8, 2015Assignee: Corning Cable Systems LLCInventors: Jeffrey Dean Danley, Kevin Eugene Elliott, Darrin Max Miller
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Publication number: 20150091203Abstract: A method of manufacturing a honeycomb structure includes providing a honeycomb body having a first contour extending between opposing first and second ends and chamfering a corner of the first end in a radial and axial direction toward the first contour to form a second contour. The method further includes removing material in an axial direction toward the second face to form a third contour, chamfering a corner of the third contour in a radial and axial direction toward the second end to form an end contour, and removing material in an axial direction toward the first face to form a fourth contour. Removing material to form the fourth contour substantially removes the second contour and the end contour.Type: ApplicationFiled: September 9, 2014Publication date: April 2, 2015Inventor: Kevin Eugene Elliott