Patents by Inventor Christopher Michael Seubert
Christopher Michael Seubert 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: 12589405Abstract: An atomizer for applying a coating includes a nozzle plate, an actuator, and an acoustic focusing device. The nozzle plate defines at least one aperture. The actuator is configured to oscillate to form pressure waves within a fluid to eject the fluid from the nozzle plate. The acoustic focusing device focuses the pressure waves toward the apertures.Type: GrantFiled: January 18, 2024Date of Patent: March 31, 2026Assignee: Ford Motor CompanyInventors: Wanjiao Liu, Kevin Richard John Ellwood, Mark Edward Nichols, Christopher Michael Seubert
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Publication number: 20250303441Abstract: A method of coating a vehicle component, the method includes applying a first paint material to a target region of the vehicle component to produce a first paint coating across the target region and scanning, via an automated vision system, the target region to detect one or more imperfections in the first paint coating. The method further includes mapping, via a controller, one or more sub-regions of the first paint coating and identifying, via the controller, a subset of nozzles of a paint applicator. The subset of nozzles corresponding to the one or more sub-regions. The method further includes operating the paint applicator to eject the second paint material from the subset of nozzles and not from other nozzles of the plurality of nozzles to apply the second paint material to the one or more sub-regions.Type: ApplicationFiled: March 26, 2024Publication date: October 2, 2025Applicant: Ford Global Technologies, LLCInventors: Christopher Michael Seubert, Marcy Ellen Zimmer, Janice Lisa Tardiff
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Patent number: 12420296Abstract: An atomizer for applying a coating to a substrate includes a nozzle and at least one electrode. The nozzle defines a plurality of apertures. The nozzle includes a nozzle plate, a nozzle body, and an actuator. The nozzle plate defines the apertures. The nozzle body and an inner side of the nozzle plate define a reservoir in fluid communication with the first apertures. The actuator is configured to vibrate the nozzle plate to eject droplets of a liquid from the reservoir through the first apertures. The at least one electrode is configured to directly or indirectly electrostatically charge the droplets with a charge that repels the droplets from each other to reduce coalescence of the droplets before the droplets reach the substrate.Type: GrantFiled: October 6, 2021Date of Patent: September 23, 2025Assignee: Ford Motor CompanyInventors: Wanjiao Liu, Christopher Michael Seubert, Mark Edward Nichols
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Publication number: 20250170609Abstract: An apparatus and method for coating a substrate includes preheating a first portion of the substrate to a first temperature. The method includes ejecting a first material from a material applicator so that the first material is applied to the preheated first portion of the substrate. The first material includes a first solvent component and a first coating component. The first temperature is greater than an ambient temperature and less than a boiling point of the first coating component.Type: ApplicationFiled: November 29, 2023Publication date: May 29, 2025Applicant: Ford Global Technologies, LLCInventors: Christopher Michael Seubert, Janice Lisa Tardiff, Mark Edward Nichols, Bita Ghaffari
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Patent number: 12285915Abstract: A method of forming a part includes 3D printing a photopolymerizable resin and forming a preformed part and subsequently post-curing the preformed part with electron beams. The preformed part may be cured via UV curing. A section of the preformed part post-cured with electron beams may have a thickness of at least 1.0 centimeter, for example, at least 2.0 centimeters or at least 3.0 centimeters. An electron beam dosage to post-cure the preformed part may be between 10 kilogray (kGy) and 100 kGy. The preformed part may be 3D printed using stereolithography (SLA), digital light processing (DLP) or material jetting (MJ) and the photopolymerizable resin may include at least one of an acrylate functional polymer and a methacrylate functional polymer. In the alternative, or in addition to, the photopolymerizable resin may include at least one of a urethane, a polyester, and a polyether.Type: GrantFiled: July 9, 2021Date of Patent: April 29, 2025Assignee: Ford Global Technologies, LLCInventors: Christopher Michael Seubert, Mark Edward Nichols, Ellen Cheng-chi Lee
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Patent number: 12162030Abstract: An ultrasonic atomization material applicator includes a material applicator with at least one transducer and an array plate with an array of micro-applicators. Each of the micro-applicators has a material inlet, a reservoir, and a micro-applicator plate with a plurality of apertures. At least one supply line is in communication with the micro-applicators and configured to supply at least one material to each of the micro-applicators. The at least one ultrasonic transducer is mechanically coupled to the at least one array of micro-applicators and configured to vibrate the at least one array of micro-applicators such that atomized droplets of the at least one material are ejected from each of the micro-applicators. A movement device configured to cyclically move the at least one array of micro-applicators back and forth about at least one axis of the at least one array of micro-applicators can be included.Type: GrantFiled: October 13, 2020Date of Patent: December 10, 2024Assignee: Ford Motor CompanyInventors: Christopher Michael Seubert, Mark Edward Nichols, Kevin Richard John Ellwood, Wanjiao Liu
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Publication number: 20240204377Abstract: A lithium-ion battery cell includes a positive electrode including a positive electrode active material, a negative electrode including a negative electrode active material, a polymer-containing layer interposed between the positive electrode and the negative electrode, and an electrolyte contacting the positive electrode and the negative electrode. The polymer-containing layer includes a polymeric composition having a melting point from about 80° C. to about 170° C. The electrolyte includes lithium ions that are transported between the negative electrode and the positive electrode, Advantageously, lithium ion transport is stopped upon melting of the polymeric composition. A method for forming the lithium-ion battery cell is also provided.Type: ApplicationFiled: December 20, 2022Publication date: June 20, 2024Applicant: FORD GLOBAL TECHNOLOGIES, LLCInventors: Insik JEON, Ann Marie STRACCIA, Mark Edward NICHOLS, Paul John BOJANOWSKI, Christopher Michael SEUBERT
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Publication number: 20240157389Abstract: An atomizer for applying a coating includes a nozzle plate, an actuator, and an acoustic focusing device. The nozzle plate defines at least one aperture. The actuator is configured to oscillate to form pressure waves within a fluid to eject the fluid from the nozzle plate. The acoustic focusing device focuses the pressure waves toward the apertures.Type: ApplicationFiled: January 18, 2024Publication date: May 16, 2024Applicant: Ford Motor CompanyInventors: Wanjiao Liu, Kevin Richard John Ellwood, Mark Edward Nichols, Christopher Michael Seubert
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Patent number: 11878318Abstract: An atomizer for applying a coating includes a nozzle plate, an actuator, and an acoustic focusing device. The nozzle plate defines at least one aperture. The actuator is configured to oscillate to form pressure waves within a fluid to eject the fluid from the nozzle plate. The acoustic focusing device focuses the pressure waves toward the apertures.Type: GrantFiled: May 19, 2022Date of Patent: January 23, 2024Assignee: Ford Motor CompanyInventors: Wanjiao Liu, Kevin Richard John Ellwood, Mark Edward Nichols, Christopher Michael Seubert
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Patent number: 11872580Abstract: A method of controlling application of at least one material onto a substrate includes configuring a material applicator having an array plate with an applicator array. The applicator array has a plurality of micro-applicators with a first subset of micro-applicators and a second subset of micro-applicators. Each of the plurality of micro-applicators has a plurality of apertures through which fluid is ejected. The first subset of micro-applicators and the second subset of micro-applicators are individually addressable, and a liquid flows through the first subset of micro-applicators and a shaping gas, e.g., air, flows through the second subset of micro-applicators. The flow of shaping gas shapes the flow of the liquid from the first subset of micro-applicators to the substrate.Type: GrantFiled: July 12, 2022Date of Patent: January 16, 2024Assignee: Ford Motor CompanyInventors: Christopher Michael Seubert, Mark Edward Nichols, Kevin Richard John Ellwood, Wanjiao Liu, Aaron M. Fiala
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Publication number: 20230105482Abstract: An atomizer for applying a coating to a substrate includes a nozzle and at least one electrode. The nozzle defines a plurality of apertures. The nozzle includes a nozzle plate, a nozzle body, and an actuator. The nozzle plate defines the apertures. The nozzle body and an inner side of the nozzle plate define a reservoir in fluid communication with the first apertures. The actuator is configured to vibrate the nozzle plate to eject droplets of a liquid from the reservoir through the first apertures. The at least one electrode is configured to directly or indirectly electrostatically charge the droplets with a charge that repels the droplets from each other to reduce coalescence of the droplets before the droplets reach the substrate.Type: ApplicationFiled: October 6, 2021Publication date: April 6, 2023Applicant: Ford Motor CompanyInventors: Wanjiao Liu, Christopher Michael Seubert, Mark Edward Nichols
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Patent number: 11542384Abstract: An additive article stabilizing method includes prior to polymerization, adding a radiation-activated stabilizing composition to a liquid resin, forming the article from the liquid resin, layer by layer, using radiation such that the stabilizing composition does not stabilize the liquid resin but the formed article, and neutralizing free radicals generated during a degradation process initiated by exposure of the article to additional radiation post-cure.Type: GrantFiled: January 15, 2018Date of Patent: January 3, 2023Assignee: Ford Global Technologies, LLCInventors: Emily Ann Ryan, Mark Edward Nichols, Ellen Cheng-Chi Lee, Christopher Michael Seubert, Deborah Frances Mielewski, Nicholas Ryan Gunther, Matthew Linden Bedell
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Publication number: 20220347710Abstract: A method of controlling application of at least one material onto a substrate includes configuring a material applicator having an array plate with an applicator array. The applicator array has a plurality of micro-applicators with a first subset of micro-applicators and a second subset of micro-applicators. Each of the plurality of micro-applicators has a plurality of apertures through which fluid is ejected. The first subset of micro-applicators and the second subset of micro-applicators are individually addressable, and a liquid flows through the first subset of micro-applicators and a shaping gas, e.g., air, flows through the second subset of micro-applicators. The flow of shaping gas shapes the flow of the liquid from the first subset of micro-applicators to the substrate.Type: ApplicationFiled: July 12, 2022Publication date: November 3, 2022Applicant: Ford Motor CompanyInventors: Christopher Michael Seubert, Mark Edward Nichols, Kevin Richard John Ellwood, Wanjiao Liu, Aaron M. Fiala
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Publication number: 20220314263Abstract: A nozzle for an atomizer includes a plate, a piezoelectric actuator, a body, and a connector. The plate defines an aperture. The actuator is configured to oscillate the plate. The body supports the plate. The connector is configured to reversibly mount the body to the atomizer in a first orientation and in a second orientation. In the first orientation, fluid exits the nozzle along a first axial direction through the aperture. In the second orientation, fluid exits the nozzle along an opposite axial direction through the aperture.Type: ApplicationFiled: June 23, 2022Publication date: October 6, 2022Applicant: Ford Motor CompanyInventors: Wanjiao Liu, Kevin Richard John Ellwood, Mark Edward Nichols, Christopher Michael Seubert
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Publication number: 20220274127Abstract: An atomizer for applying a coating includes a nozzle plate, an actuator, and an acoustic focusing device. The nozzle plate defines at least one aperture. The actuator is configured to oscillate to form pressure waves within a fluid to eject the fluid from the nozzle plate. The acoustic focusing device focuses the pressure waves toward the apertures.Type: ApplicationFiled: May 19, 2022Publication date: September 1, 2022Applicant: Ford Motor CompanyInventors: Wanjiao Liu, Kevin Richard John Ellwood, Mark Edward Nichols, Christopher Michael Seubert
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Patent number: 11413643Abstract: A method of controlling application of at least one material onto a substrate includes configuring a material applicator having an array plate with an applicator array. The applicator array has a plurality of micro-applicators with a first subset of micro-applicators and a second subset of micro-applicators. Each of the plurality of micro-applicators has a plurality of apertures through which fluid is ejected. The first subset of micro-applicators and the second subset of micro-applicators are individually addressable, and a liquid flows through the first subset of micro-applicators and a shaping gas, e.g., air, flows through the second subset of micro-applicators. The flow of shaping gas shapes the flow of the liquid from the first subset of micro-applicators to the substrate.Type: GrantFiled: September 14, 2020Date of Patent: August 16, 2022Assignee: Ford Motor CompanyInventors: Christopher Michael Seubert, Mark Edward Nichols, Kevin Richard John Ellwood, Wanjiao Liu, Aaron Fiala
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Patent number: 11400477Abstract: A nozzle for an atomizer includes a plate, a piezoelectric actuator, a body, and a connector. The plate defines an aperture. The actuator is configured to oscillate the plate. The body supports the plate. The connector is configured to reversibly mount the body to the atomizer in a first orientation and in a second orientation. In the first orientation, fluid exits the nozzle along a first axial direction through the aperture. In the second orientation, fluid exits the nozzle along an opposite axial direction through the aperture.Type: GrantFiled: December 6, 2018Date of Patent: August 2, 2022Assignee: Ford Motor CompanyInventors: Wanjiao Liu, Kevin Richard John Ellwood, Mark Edward Nichols, Christopher Michael Seubert
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Patent number: 11364516Abstract: An atomizer for applying a coating includes a nozzle plate, an actuator, and an acoustic focusing device. The nozzle plate defines at least one aperture. The actuator is configured to oscillate to form pressure waves within a fluid to eject the fluid from the nozzle plate. The acoustic focusing device focuses the pressure waves toward the apertures.Type: GrantFiled: December 6, 2018Date of Patent: June 21, 2022Assignee: Ford Motor CompanyInventors: Wanjiao Liu, Kevin Richard John Ellwood, Mark Edward Nichols, Christopher Michael Seubert
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Publication number: 20210331394Abstract: A method of forming a part includes 3D printing a photopolymerizable resin and forming a preformed part and subsequently post-curing the preformed part with electron beams. The preformed part may be cured via UV curing. A section of the preformed part post-cured with electron beams may have a thickness of at least 1.0 centimeter, for example, at least 2.0 centimeters or at least 3.0 centimeters. An electron beam dosage to post-cure the preformed part may be between 10 kilogray (kGy) and 100 kGy. The preformed part may be 3D printed using stereolithography (SLA), digital light processing (DLP) or material jetting (MJ) and the photopolymerizable resin may include at least one of an acrylate functional polymer and a methacrylate functional polymer. In the alternative, or in addition to, the photopolymerizable resin may include at least one of a urethane, a polyester, and a polyether.Type: ApplicationFiled: July 9, 2021Publication date: October 28, 2021Applicant: Ford Global Technologies, LLCInventors: Christopher Michael Seubert, Mark Edward Nichols, Ellen Cheng-chi Lee
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Publication number: 20210087357Abstract: An additive article stabilizing method includes prior to polymerization, adding a radiation-activated stabilizing composition to a liquid resin, forming the article from the liquid resin, layer by layer, using radiation such that the stabilizing composition does not stabilize the liquid resin but the formed article, and neutralizing free radicals generated during a degradation process initiated by exposure of the article to additional radiation post-cure.Type: ApplicationFiled: January 15, 2018Publication date: March 25, 2021Inventors: Emily Ann RYAN, Mark Edward NICHOLS, Ellen Cheng-Chi LEE, Christopher Michael SEUBERT, Deborah Frances MIELEWSKI, Nicholas Ryan GUNTHER, Matthew Linden BEDELL