Patents by Inventor Bassem S. EL-DASHER
Bassem S. EL-DASHER 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: 20230123528Abstract: The present disclosure relates to a system for performing an Additive Manufacturing (AM) fabrication process on a powdered material, deposited as a powder bed and forming a substrate. The system makes use of a laser for generating a laser beam, and an optical subsystem. The optical subsystem is configured to receive the laser beam and to generate an optical signal comprised of electromagnetic radiation sufficient to melt or sinter the powdered material. The optical subsystem uses a digitally controlled mask configured to pattern the optical signal as needed to melt select portions of a layer of the powdered material to form a layer of a 3D part. A power supply and at least one processor are also included for generating a plurality of different power density levels selectable based on a specific material composition, absorptivity and diameter of the powder particles, and a known thickness of the powder bed. The powdered material is used to form the 3D part in a sequential layer-by-layer process.Type: ApplicationFiled: October 20, 2022Publication date: April 20, 2023Inventors: Bassem S. EL-DASHER, Andrew J. BAYRAMIAN, James A. DEMUTH, Joseph C. FARMER, Sharon G. TORRES
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Patent number: 11534865Abstract: The present disclosure relates to a system for performing an Additive Manufacturing (AM) fabrication process on a powdered material (PM) forming a substrate. The system uses a first optical subsystem to generate an optical signal comprised of electromagnetic (EM) radiation sufficient to melt or sinter a PM of the substrate. The first optical subsystem is controlled to generate a plurality of different power density levels, with a specific one being selected based on a specific PM forming a powder bed being used to form a 3D part. At least one processor controls the first optical subsystem and adjusts a power density level of the optical signal, taking into account a composition of the PM. A second optical subsystem receives the optical signal from the first optical subsystem and controls the optical signal to help facilitate melting of the PM in a layer-by-layer sequence of operations.Type: GrantFiled: December 27, 2019Date of Patent: December 27, 2022Assignee: Lawrence Livermore National Security, LLCInventors: Bassem S. El-Dasher, Andrew Bayramian, James A. Demuth, Joseph C. Farmer, Sharon G. Torres
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Publication number: 20220297191Abstract: The present disclosure relates to a system for manufacturing a part via an additive manufacturing process. The system uses a reservoir for containing a heated solution forming a mixture of a volatile component and meltable powdered material particles, the heated solution being heated to a point where the heated solution is at least about to begin boiling. A nozzle associated with the reservoir channels a quantity of the heated solution onto at least one of a substrate or a previously formed material layer. A processor controls a flow of the heated solution through the nozzle onto at least one of the substrate or the previously formed material layer. A heat source responsive to the processor generates heat to melt the powdered material particles. The heat source is controlled to melt the powdered material particles after the volatile component has at least substantially evaporated from the mixture.Type: ApplicationFiled: May 15, 2022Publication date: September 22, 2022Inventors: James A. DEMUTH, Andrew BAYRAMIAN, Bassem S. EL-DASHER, Kevin J. KRAMER
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Patent number: 11446741Abstract: A method is disclosed for manufacturing a part via an additive manufacturing process. A solution is used which has a volatile component within which is suspended particles of a powdered material. The solution is heated until it at least one of begins boiling or is about to begin boiling. The heated solution is then deposited at least at one location on a substrate to help form a layer of the part. The volatile component then evaporates, leaving only the particles of powdered material. The particles are then heated to the melting point. The deposition and heating operations are repeated to successively form a plurality of layers for the part. The evaporation of the volatile component helps to cool the part.Type: GrantFiled: August 10, 2020Date of Patent: September 20, 2022Assignee: Lawrence Livermore National Security, LLCInventors: James A. Demuth, Andrew J. Bayramian, Bassem S. El-Dasher, Kevin J. Kramer
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Patent number: 11373765Abstract: This disclosure describes systems and methods for synthesizing UCl3 from UCl4. These systems and methods may also be used to directly synthesize binary and ternary embodiments of uranium salts of chloride usable as nuclear fuel in certain molten salt reactor designs. The systems and methods described herein are capable of synthesizing any desired uranium chloride fuel salt that is a combination of UCl4, UCl3 and one or more non-fissile chloride compounds, such as NaCl. In particular, the systems and methods described herein are capable of synthesizing any UCl3—UCl4—NaCl or UCl3—NaCl fuel salt composition from UCl4—NaCl.Type: GrantFiled: February 5, 2020Date of Patent: June 28, 2022Assignee: TerraPower, LLCInventors: Ken Czerwinski, Bassem S. El-Dasher, William M. Kerlin, Aaron J. Unger
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Publication number: 20220139577Abstract: An anti-proliferation technique is disclosed to reduce the likelihood of nuclear proliferation due to the use fissionable fuel salts. The technique includes doping the fuel salt with one or more elements (referred to herein as activation dopants) that, upon exposure to neutrons such as would occur in the fuel salt when a reactor is in operation, undergo a nuclear reaction to, directly or indirectly, form highly active “protecting isotopes” (of the same element as the activation dopant or a different element). A sufficient mass of activation dopants is used so that the Figure of Merit (FOM) of the fuel salt is decreased to below 1.0 within some target number of days of fission. This allows the FOM of the fuel salt to be controlled so that the fuel becomes too dangerous to handle before to the creation of a significant amount of weaponizable isotopes.Type: ApplicationFiled: January 20, 2022Publication date: May 5, 2022Inventors: Anselmo T. Cisneros, JR., Ken Czerwinski, Bassem S. El-Dasher, Brian C. Kelleher, William M. Kerlin, Kevin Kramer, Jeffery F. Latkowski, Robert C. Petroski, Joshua C. Walter
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Patent number: 11276503Abstract: An anti-proliferation technique is disclosed to reduce the likelihood of nuclear proliferation due to the use fissionable fuel salts. The technique includes doping the fuel salt with one or more elements (referred to herein as activation dopants) that, upon exposure to neutrons such as would occur in the fuel salt when a reactor is in operation, undergo a nuclear reaction to, directly or indirectly, form highly active “protecting isotopes” (of the same element as the activation dopant or a different element). A sufficient mass of activation dopants is used so that the Figure of Merit (FOM) of the fuel salt is decreased to below 1.0 within some target number of days of fission. This allows the FOM of the fuel salt to be controlled so that the fuel becomes too dangerous to handle before to the creation of a significant amount of weaponizable isotopes.Type: GrantFiled: November 6, 2019Date of Patent: March 15, 2022Assignee: TerraPower, LLCInventors: Anselmo T. Cisneros, Jr., Ken Czerwinski, Bassem S. El-Dasher, Brian C. Kelleher, William M. Kerlin, Kevin Kramer, Jeffery F. Latkowski, Robert C. Petroski, Joshua C. Walter
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Publication number: 20210078077Abstract: The present disclosure relates to a method of producing a product through additive manufacturing with heat treatment. The method involves using a fusing beam to melt powder particles disposed on a substrate. The fused powder particles are then heat treated with a heat treating beam. The heat treatment is thus completed on a given layer prior to laying down additional new layers of material. In one implementation the heat treatment is an annealing operation. The method may further involve providing a new layer of powdered material on top of the layer of fused powder particles subsequent to the heat treatment, and repeating the melting and heat treating operations in a layer-by-layer fashion until the part is completed.Type: ApplicationFiled: November 25, 2020Publication date: March 18, 2021Inventors: James A. DEMUTH, Andrew BAYRAMIAN, Bassem S. EL-DASHER, Joseph C. FARMER, Kevin J. KRAMER, Alexander RUBENCHIK
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Patent number: 10898954Abstract: The present disclosure relates to a method of producing a product through additive manufacturing with heat treatment. The method involves using a fusing beam to melt powder particles disposed on a substrate, where the fusing beam is impressed with a two dimensional pattern containing image information from a first layer to be printed. The fused powder particles are then heat treated with a beam impressed with an additional two dimensional pattern. The additional two dimensional pattern has image information from the first layer to achieve heat treatment of the product. The heat treatment is completed prior to laying down additional new layers of material. The heat treatment is an annealing operation.Type: GrantFiled: February 19, 2020Date of Patent: January 26, 2021Assignee: Lawrence Livermore National Security, LLCInventors: James A. Demuth, Andrew J. Bayramian, Bassem S. El-Dasher, Joseph C. Farmer, Kevin J. Kramer, Alexander Rubenchik
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Publication number: 20200368817Abstract: A method is disclosed for manufacturing a part via an additive manufacturing process. A solution is used which has a volatile component within which is suspended particles of a powdered material. The solution is heated until it at least one of begins boiling or is about to begin boiling. The heated solution is then deposited at least at one location on a substrate to help form a layer of the part. The volatile component then evaporates, leaving only the particles of powdered material. The particles are then heated to the melting point. The deposition and heating operations are repeated to successively form a plurality of layers for the part. The evaporation of the volatile component helps to cool the part.Type: ApplicationFiled: August 10, 2020Publication date: November 26, 2020Inventors: James A. DEMUTH, Andrew J. BAYRAMIAN, Bassem S. EL-DASHER, Kevin J. KRAMER
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Patent number: 10807273Abstract: A system of 3D printing using a high temperature 3D print head that functions as a “modified ink jet” printer. The print head has the ability to print high temperature material such as metal, silicon carbide, and other high temperature material as opposed to inks or plastics. The print head is fabricated from a high temperature material to maintain structural integrity while operation at temperatures above the melting temperature for the material that is being printed.Type: GrantFiled: November 23, 2015Date of Patent: October 20, 2020Assignee: Lawrence Livermore National Security, LLCInventors: Kevin J. Kramer, Andrew Bayramian, James A. DeMuth, Bassem S. El-dasher
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Patent number: 10737324Abstract: A method is disclosed for manufacturing a part via an additive manufacturing process. A solution is used which has a volatile component within which is suspended particles of a powdered material. The solution is heated until it at least one of begins boiling or is about to begin boiling. The heated solution is then deposited at least at one location on a substrate to help form a layer of the part. The volatile component then evaporates, leaving only the particles of powdered material. The particles are then heated to the melting point. The deposition and heating operations are repeated to successively form a plurality of layers for the part. The evaporation of the volatile component helps to cool the part.Type: GrantFiled: October 2, 2014Date of Patent: August 11, 2020Assignee: Lawrence Livermore National Security, LLCInventors: James A. Demuth, Andrew Bayramian, Bassem S. El-Dasher, Kevin J. Kramer
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Publication number: 20200251231Abstract: This disclosure describes systems and methods for synthesizing UCl3 from UCl4. These systems and methods may also be used to directly synthesize binary and ternary embodiments of uranium salts of chloride usable as nuclear fuel in certain molten salt reactor designs. The systems and methods described herein are capable of synthesizing any desired uranium chloride fuel salt that is a combination of UCl4, UCl3 and one or more non-fissile chloride compounds, such as NaCl. In particular, the systems and methods described herein are capable of synthesizing any UCl3—UCl4—NaCl or UCl3—NaCl fuel salt composition from UCl4—NaCl.Type: ApplicationFiled: February 5, 2020Publication date: August 6, 2020Applicant: TerraPower, LLCInventors: Ken Czerwinski, Bassem S. El-Dasher, William M. Kerlin, Aaron J. Unger
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Publication number: 20200211724Abstract: An anti-proliferation technique is disclosed to reduce the likelihood of nuclear proliferation due to the use fissionable fuel salts. The technique includes doping the fuel salt with one or more elements (referred to herein as activation dopants) that, upon exposure to neutrons such as would occur in the fuel salt when a reactor is in operation, undergo a nuclear reaction to, directly or indirectly, form highly active “protecting isotopes” (of the same element as the activation dopant or a different element). A sufficient mass of activation dopants is used so that the Figure of Merit (FOM) of the fuel salt is decreased to below 1.0 within some target number of days of fission. This allows the FOM of the fuel salt to be controlled so that the fuel becomes too dangerous to handle before to the creation of a significant amount of weaponizable isotopes.Type: ApplicationFiled: November 6, 2019Publication date: July 2, 2020Applicant: TerraPower, LLCInventors: Anselmo T. Cisneros, JR., Ken Czerwinski, Bassem S. El-Dasher, Brian C. Kelleher, William M. Kerlin, Kevin Kramer, Jeffery F. Latkowski, Robert C. Petroski, Joshua C. Walter
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Publication number: 20200180029Abstract: The present disclosure relates to a method of producing a product through additive manufacturing with heat treatment. The method involves using a fusing beam to melt powder particles disposed on a substrate, where the fusing beam is impressed with a two dimensional pattern containing image information from a first layer to be printed. The fused powder particles are then heat treated with a beam impressed with an additional two dimensional pattern. The additional two dimensional pattern has image information from the first layer to achieve heat treatment of the product. The heat treatment is completed prior to laying down additional new layers of material. The heat treatment is an annealing operation.Type: ApplicationFiled: February 19, 2020Publication date: June 11, 2020Inventors: James A. DEMUTH, Andrew J. BAYRAMIAN, Bassem S. EL-DASHER, Joseph C. FARMER, Kevin J. KRAMER, Alexander RUBENCHIK
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Patent number: 10665356Abstract: Configurations of molten fuel salt reactors are described that utilize neutron-reflecting coolants or a combination of primary salt coolants and secondary neutron-reflecting coolants. Further configurations are described that circulate liquid neutron-reflecting material around an reactor core to control the neutronics of the reactor. Furthermore, configurations which use the circulating neutron-reflecting material to actively cool the containment vessel are also described.Type: GrantFiled: May 2, 2017Date of Patent: May 26, 2020Assignee: TerraPower, LLCInventors: Ryan Abbott, Brian C. Kelleher, William M. Kerlin, Kevin Kramer, Jeffery F. Latkowski, Jon D. McWhirter, Robert C. Petroski, Joshua C. Walter, Jesse R. Cheatham, III, Anselmo T. Cisneros, Jr., Ken Czerwinski, Bassem S. El-Dasher, Daniel Flowers, Charles Gregory Freeman, Mark A. Havstad, Christopher J. Johns
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Patent number: 10647064Abstract: An apparatus for use in a friction stir operation, such as friction stir welding (FSW) or friction stir processing (FSP). The apparatus may have a rotating tool adapted to be plunged into a material, where the material is susceptible to being softened by heating. The rotating tool may further be adapted to be advanced along a surface of the material. An optical energy generating subsystem may be used to heat a portion of the material using optical energy as the tool is advanced along the material.Type: GrantFiled: October 16, 2012Date of Patent: May 12, 2020Assignee: Lawrence Livermore National Security, LLCInventors: Joseph C. Farmer, Alexander M. Rubenchik, Raymond J. Beach, Robert J. Deri, Edward I. Moses, Bassem S. El-Dasher, Sarath K. Menon, Terry McNelley
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Publication number: 20200139487Abstract: The present disclosure relates to a system for performing an Additive Manufacturing (AM) fabrication process on a powdered material (PM) forming a substrate. The system uses a first optical subsystem to generate an optical signal comprised of electromagnetic (EM) radiation sufficient to melt or sinter a PM of the substrate. The first optical subsystem is controlled to generate a plurality of different power density levels, with a specific one being selected based on a specific PM forming a powder bed being used to form a 3D part. At least one processor controls the first optical subsystem and adjusts a power density level of the optical signal, taking into account a composition of the PM. A second optical subsystem receives the optical signal from the first optical subsystem and controls the optical signal to help facilitate melting of the PM in a layer-by-layer sequence of operations.Type: ApplicationFiled: December 27, 2019Publication date: May 7, 2020Inventors: Bassem S. EL-DASHER, Andrew BAYRAMIAN, James A. DEMUTH, Joseph C. FARMER, Sharon G. TORRES
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Patent number: 10618111Abstract: An additive manufacturing system having a heat source for melting powder particles in a desired shape and pattern to produce a product. A secondary heat source is used for heat treating the product to achieve heat treatment. The secondary heat source is used to peen or anneal residual stresses caused by the additive manufacturing process.Type: GrantFiled: January 28, 2016Date of Patent: April 14, 2020Assignee: Lawrence Livermore National Security, LLCInventors: James A. DeMuth, Andrew Bayramian, Bassem S. El-dasher, Joseph C. Farmer, Kevin J. Kramer, Alexander Rubenchik
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Patent number: 10569363Abstract: A system is disclosed for performing an Additive Manufacturing (AM) fabrication process on a powdered material forming a substrate. The system may make use of a diode array for generating an optical signal sufficient to melt a powdered material of the substrate. A mask may be used for preventing a first predetermined portion of the optical signal from reaching the substrate, while allowing a second predetermined portion to reach the substrate. At least one processor may be used for controlling an output of the diode array.Type: GrantFiled: May 3, 2016Date of Patent: February 25, 2020Assignee: Lawrence Livermore National Security, LLCInventors: Bassem S. El-Dasher, Andrew Bayramian, James A. Demuth, Joseph C. Farmer, Sharon G. Torres