Patents by Inventor Ruben E. Fairman
Ruben E. Fairman 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: 20250332787Abstract: Additive manufacturing apparatuses, components of additive manufacturing apparatuses, and methods of using such manufacturing apparatuses and components are disclosed. An additive manufacturing apparatus may include a recoat head for distributing build material in a build area, a print head for depositing material in the build area, one or more actuators for moving the recoat head and the print head relative to the build area, and a cleaning station for cleaning the print head.Type: ApplicationFiled: July 1, 2025Publication date: October 30, 2025Applicant: General Electric CompanyInventors: Vadim Bromberg, John Sterle, Victor Fulton, Tyler Andrew Griffith, Peter Douglas Lueschen, Carlos H. Bonilla, Joseph L. Smolenski, Timothy Francis Andrews, Younkoo Jeong, Jacob Mayer, Kwok Pong Chan, Mary Kathryn Thompson, Ruben E. Fairman
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Patent number: 12377605Abstract: Additive manufacturing apparatuses, components of additive manufacturing apparatuses, and methods of using such manufacturing apparatuses and components are disclosed. An additive manufacturing apparatus may include a recoat head for distributing build material in a build area, a print head for depositing material in the build area, one or more actuators for moving the recoat head and the print head relative to the build area, and a cleaning station for cleaning the print head.Type: GrantFiled: June 10, 2024Date of Patent: August 5, 2025Assignee: General Electric CompanyInventors: Vadim Bromberg, John Sterle, Victor Fulton, Tyler Andrew Griffith, Peter Douglas Lueschen, Carlos H. Bonilla, Joseph L. Smolenski, Timothy Francis Andrews, Younkoo Jeong, Jacob Mayer, Kwok Pong Chan, Mary Kathryn Thompson, Ruben E. Fairman
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Patent number: 12233643Abstract: An apparatus includes a printing head (154) comprising jet nozzles (158) spaced apart from one another, where a distance from a first jet nozzle to a second jet nozzle positioned adjacent the first jet nozzle defines a jet-spacing, a printing head position control assembly includes a first actuator assembly (102) to move the printing head along the longitudinal axis and a second actuator assembly (103) to move the printing head along a latitudinal axis, and an control unit communicatively coupled to the printing head position control assembly. The control unit causes jet nozzles to dispense drops of binder (50) while the printing head traverses a first pass trajectory along the longitudinal axis in a first direction, indexes the printing head to a second pass trajectory along the latitudinal axis, and causes jet nozzles to dispense drops of binder while the printing head traverses the second pass trajectory along the longitudinal axis in a second direction.Type: GrantFiled: May 22, 2020Date of Patent: February 25, 2025Assignee: General Electric CompanyInventors: Vadim Bromberg, John Sterle, Carlos H. Bonilla, Kwok Pong Chan, Mary Kathryn Thompson, Ruben E. Fairman, Jacob Mayer
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Publication number: 20240393773Abstract: Methods and apparatus for two-dimensional and three-dimensional scanning path visualization are disclosed. An example apparatus includes at least one memory, instructions in the apparatus, and processor circuitry to execute the instructions to identify at least one melt pool dimension using a beam parameter setting, the at least one melt pool dimension identified from a plurality of melt pool dimensions obtained by varying the beam parameter setting, identify a response surface model based on the plurality of melt pool dimensions to determine an effect of variation in the beam parameter setting on the at least one melt pool dimension, output a three-dimensional model of a scanning path for an additive manufacturing process using the response surface model, and adjust the beam parameter setting based on the three-dimensional model to identify a second beam parameter setting.Type: ApplicationFiled: August 2, 2024Publication date: November 28, 2024Inventors: Pinghai Yang, Hongqing Sun, Manuel Acosta, Ruben E. Fairman
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Publication number: 20240326328Abstract: Additive manufacturing apparatuses, components of additive manufacturing apparatuses, and methods of using such manufacturing apparatuses and components are disclosed. An additive manufacturing apparatus may include a recoat head for distributing build material in a build area, a print head for depositing material in the build area, one or more actuators for moving the recoat head and the print head relative to the build area, and a cleaning station for cleaning the print head.Type: ApplicationFiled: June 10, 2024Publication date: October 3, 2024Applicant: General Electric CompanyInventors: Vadim Bromberg, John Sterle, Victor Fulton, Tyler Andrew Griffith, Peter Douglas Lueschen, Carlos H. Bonilla, Joseph L. Smolenski, Timothy Francis Andrews, Younkoo Jeong, Jacob Mayer, Kwok Pong Chan, Mary Kathryn Thompson, Ruben E. Fairman
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Patent number: 12061466Abstract: Methods and apparatus for two-dimensional and three-dimensional scanning path visualization are disclosed. An example apparatus includes at least one memory, instructions in the apparatus, and processor circuitry to execute the instructions to identify at least one melt pool dimension using a beam parameter setting, the at least one melt pool dimension identified from a plurality of melt pool dimensions obtained by varying the beam parameter setting, identify a response surface model based on the plurality of melt pool dimensions to determine an effect of variation in the beam parameter setting on the at least one melt pool dimension, output a three-dimensional model of a scanning path for an additive manufacturing process using the response surface model, and adjust the beam parameter setting based on the three-dimensional model to identify a second beam parameter setting.Type: GrantFiled: December 22, 2022Date of Patent: August 13, 2024Assignee: GENERAL ELECTRIC COMPANYInventors: Pinghai Yang, Hongqing Sun, Manuel Acosta, Ruben E. Fairman
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Patent number: 12042988Abstract: Additive manufacturing apparatuses, components of additive manufacturing apparatuses, and methods of using such manufacturing apparatuses and components are disclosed. An additive manufacturing apparatus may include a recoat head for distributing build material in a build area, a print head for depositing material in the build area, one or more actuators for moving the recoat head and the print head relative to the build area, and a cleaning station for cleaning the print head.Type: GrantFiled: May 22, 2020Date of Patent: July 23, 2024Assignee: General Electric CompanyInventors: Vadim Bromberg, John Sterle, Victor Fulton, Tyler Andrew Griffith, Peter Douglas Lueschen, Carlos H. Bonilla, Joseph L. Smolenski, Timothy Francis Andrews, Younkoo Jeong, Jacob Mayer, Kwok Pong Chan, Mary Kathryn Thompson, Ruben E. Fairman
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Publication number: 20230127361Abstract: Methods and apparatus for two-dimensional and three-dimensional scanning path visualization are disclosed. An example apparatus includes at least one memory, instructions in the apparatus, and processor circuitry to execute the instructions to identify at least one melt pool dimension using a beam parameter setting, the at least one melt pool dimension identified from a plurality of melt pool dimensions obtained by varying the beam parameter setting, identify a response surface model based on the plurality of melt pool dimensions to determine an effect of variation in the beam parameter setting on the at least one melt pool dimension, output a three-dimensional model of a scanning path for an additive manufacturing process using the response surface model, and adjust the beam parameter setting based on the three-dimensional model to identify a second beam parameter setting.Type: ApplicationFiled: December 22, 2022Publication date: April 27, 2023Inventors: Pinghai Yang, Hongqing Sun, Manuel Acosta, Ruben E. Fairman
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Patent number: 11537111Abstract: Methods and apparatus for two-dimensional and three-dimensional scanning path visualization are disclosed. An example apparatus includes a parameter determiner to determine at least one of a laser beam parameter setting or an electron beam parameter setting, a melt pool geometry determiner to identify melt pool dimensions using the parameter setting, the melt pool geometry determiner to vary the parameter setting to obtain multiple melt pool dimensions, and a visualization path generator to generate a three-dimensional view of a scanning path for an additive manufacturing process using the identified melt pool dimensions. The visualization path generator adjusts the laser beam parameters based on the generated three-dimensional view.Type: GrantFiled: April 1, 2020Date of Patent: December 27, 2022Assignee: General Electric CompanyInventors: Pinghai Yang, Hongqing Sun, Manuel Acosta, Ruben E. Fairman
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Publication number: 20220314545Abstract: Additive manufacturing apparatuses, components of additive manufacturing apparatuses, and methods of using such manufacturing apparatuses and components are disclosed. An additive manufacturing apparatus may include a recoat head for distributing build material in a build area, a print head for depositing material in the build area, one or more actuators for moving the recoat head and the print head relative to the build area, and a cleaning station for cleaning the print head.Type: ApplicationFiled: May 22, 2020Publication date: October 6, 2022Inventors: Vadim Bromberg, John Sterle, Victor Fulton, Tyler Andrew Griffith, Peter Douglas Lueschen, Carlos H. Bonilla, Joseph L. Smolenski, Timothy Francis Andrews, Younkoo Jeong, Jacob Mayer, Kwok Pong Chan, Mary Kathryn Thompson, Ruben E. Fairman
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Publication number: 20220227127Abstract: An apparatus includes a printing head (154) comprising jet nozzles (158) spaced apart from one another, where a distance from a first jet nozzle to a second jet nozzle positioned adjacent the first jet nozzle defines a jet-spacing, a printing head position control assembly includes a first actuator assembly (102) to move the printing head along the longitudinal axis and a second actuator assembly (103) to move the printing head along a latitudinal axis, and an control unit communicatively coupled to the printing head position control assembly. The control unit causes jet nozzles to dispense drops of binder (50) while the printing head traverses a first pass trajectory along the longitudinal axis in a first direction, indexes the printing head to a second pass trajectory along the latitudinal axis, and causes jet nozzles to dispense drops of binder while the printing head traverses the second pass trajectory along the longitudinal axis in a second direction.Type: ApplicationFiled: May 22, 2020Publication date: July 21, 2022Applicant: General Electric CompanyInventors: Vadim Bromberg, John Sterle, Carlos H. Bonilla, Kwok Pong Chan, Mary Kathryn Thompson, Ruben E. Fairman, Jacob Mayer
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Publication number: 20210311466Abstract: Methods and apparatus for two-dimensional and three-dimensional scanning path visualization are disclosed. An example apparatus includes a parameter determiner to determine at least one of a laser beam parameter setting or an electron beam parameter setting, a melt pool geometry determiner to identify melt pool dimensions using the parameter setting, the melt pool geometry determiner to vary the parameter setting to obtain multiple melt pool dimensions, and a visualization path generator to generate a three-dimensional view of a scanning path for an additive manufacturing process using the identified melt pool dimensions, the visualization path generator to adjust the laser beam parameters based on the generated three-dimensional view.Type: ApplicationFiled: April 1, 2020Publication date: October 7, 2021Inventors: Pinghai Yang, Hongqing Sun, Manuel Acosta, Ruben E. Fairman
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Patent number: 6801882Abstract: An algorithm programmed into a computer permits the computer to automatically generate a two-dimensional profile curve of an electronically represented three-dimensional solid model without creating separate intersecting planes extending through the three-dimensional solid. The computer is configured to query the three-dimensional solid to identify faces on the three-dimensional solid. The query of the solid begins after a face edge is identified as a seed face and continues from the identified face to each adjacent revolved face circumscribing the solid. As each revolved face is located, a representative curve for the face is created in the two-dimensional plane.Type: GrantFiled: March 22, 2000Date of Patent: October 5, 2004Assignee: General Electric CompanyInventor: Ruben E. Fairman