Patents Assigned to UT-Battelle, LLC
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Patent number: 11661741Abstract: A stripping lifting insert is provided for precast insulated panels having an insulating material layer between opposing wythes, the insulating material layer, wythes, and precast insulated panel having respective widths. The stripping lifting insert includes an elongated connecting shaft having a shaft axis. First and second spaced apart wythe engagement members are connected to the connecting shaft in spaced apart relation to each other. Each wythe engagement member includes a hub and a plurality of three or more protrusions connected to and emanating from hub. Each of the protrusions extending radially outward from the shaft axis. The wythe engagement members have a height less than the width of the wythes, whereby each wythe engagement member can be completely embedded in a respective wythe of the precast insulated panel. A precast insulated panel and a method of making a precast insulated panel are also disclosed.Type: GrantFiled: February 26, 2021Date of Patent: May 30, 2023Assignees: UT-BATTELLE, LLC, UNIVERSITY OF TENNESSEE RESEARCH FOUNDATIONInventors: Diana Hun, Uday K. Vaidya, Stephen W. Sheriff, Dylan M. Talley, Nolan W. Hayes, Zhongguo John Ma
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Patent number: 11664743Abstract: A control system and method for an inverter that reduces capacitor current through a DC bus capacitor of the inverter. The control system and method may generate switching signals for a plurality of switching circuits in a manner that reduces capacitor current through the DC bus capacitor.Type: GrantFiled: August 12, 2021Date of Patent: May 30, 2023Assignee: UT-Battelle, LLCInventors: Lingxiao Xue, Gui-Jia Su
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Patent number: 11655775Abstract: A system that controls a combustion engine stores network vectors in a memory that represent diverse and distinct spiking neural networks. The system decodes the network vectors and trains and evaluates the spiking neural networks. The system duplicates selected network vectors and crosses-over the duplicated network vectors that represent modified spiking neural networks. The system mutates the crossed-over duplicated network vectors by randomly modifying one or more portions of the crossing-over duplicated network vectors. The system meter exhaust gas into an intake manifold when an engine temperature exceeds a threshold, an engine load exceeds a threshold, an engine's rotation-per-minute rate exceeds a threshold, and a fuel flow exceeds a threshold. The system modifies fuel flow into an engine's combustion chamber on a cycle-to-cycle basis by the trained spiking neural network.Type: GrantFiled: August 15, 2022Date of Patent: May 23, 2023Assignee: UT-BATTELLE, LLCInventors: Bryan P. Maldonado Puente, Brian C. Kaul, Catherine D. Schuman, John Parker Mitchell, Steven R. Young
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Patent number: 11651945Abstract: A system for the mass spectrometry analysis of an analyte includes a droplet ejection device, a spray head comprising a spray tip for ejecting the solvent as a spray, and a solvent delivery conduit for delivering solvent to the spray tip. The spray head includes a droplet inlet opening communicating with the surrounding atmosphere for receiving liquid droplets comprising the analyte. The droplet ejection device selectively ejects a liquid analyte droplet comprising the analyte through a surrounding atmosphere and the droplet inlet opening into a solvent flowing through the solvent delivery conduit. A method for the mass spectrometry analysis of an analyte is also disclosed.Type: GrantFiled: September 20, 2021Date of Patent: May 16, 2023Assignee: UT-BATTELLE, LLCInventors: Vilmos Kertesz, John F. Cahill
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Patent number: 11642841Abstract: A method for indirect additive manufacturing of an object, the method comprising: (i) separately feeding a powder from which said object is to be manufactured and either a difunctional curable monomer according to Formula (I) or an adhesive polymer binder into an additive manufacturing device; (ii) dispensing selectively positioned droplets of said difunctional curable monomer or adhesive polymer binder, from a printhead of said additive manufacturing device, into a bed of said powder to bind particles of said powder with said difunctional curable monomer or adhesive polymer binder to produce a curable preform having a shape of the object to be manufactured; and, in the case of the difunctional curable monomer, (iii) curing said curable preform to form a crosslinked object.Type: GrantFiled: October 13, 2017Date of Patent: May 9, 2023Assignee: UT-Battelle, LLCInventors: Tomonori Saito, Amy M. Elliott
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Patent number: 11641185Abstract: A method of making an acoustic wave sensor includes the steps of providing a piezoelectric substrate layer and printing on the substrate layer a sensor layer comprising a first interdigitated acoustic wave transducer, a sensing film, and positioned on an opposing side of the sensing film from the first interdigitated acoustic wave transducer at least one selected from the group consisting of a second interdigitated acoustic wave transducer and a Bragg reflector. An insulation layer can be printed. An antenna can be printed in an antenna layer, and the insulation layer can be interposed between the antenna layer and the sensor layer. An electrical connection can be printed between the antenna and the first interdigitated acoustic wave transducer. An acoustic wave sensor is also disclosed.Type: GrantFiled: March 26, 2019Date of Patent: May 2, 2023Assignee: UT-BATTELLE, LLCInventor: Timothy J. McIntyre
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Patent number: 11633790Abstract: An apparatus includes a control system that defines a test part having multiple features of multiple feature types. The control system controls an additive manufacturing (AM) machine to print multiple copies of the test part, with each copy being printed according to a respective set of values used as printing parameters. A measurement system obtains a computed tomography (CT) image of each of the copies of the test part. An analysis system, for each of the plurality of feature types, analyzes the CT images to identify a selected set of values for the printing parameters. The analysis system identifies a portion of the CT image related to a first feature and assesses its density based on an average grayscale value. The AM machine is then controlled to print production parts according to, for each feature type of the production parts, the selected set of values for the printing parameters.Type: GrantFiled: November 18, 2020Date of Patent: April 25, 2023Assignees: Carl Zeiss Industrial Metrology, LLC, UT-Battelle, LLCInventors: Pradeep Bhattad, Paul Brackman, Curtis Frederick, Marcin B. Bauza, Edson Costa Santos, Ryan Dehoff, Alex Plotkowski, Aleksandr Lisovich, Jason James Tenboer
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Patent number: 11633789Abstract: A method for fabricating heat exchangers using additive manufacturing technologies. Additive manufacturing enables the manufacture of heat exchangers with complex geometries and/or with internal and external integral surface features. Additive manufacture also facilitates the manufacture of heat exchangers with regional variations, such as changes in size, shape and surface features. In one embodiment, the present invention provides a heat exchanger with a helicoidal shape that provides axial elastic compliance. In one embodiment, the internal channel of the heat exchanger varies along its length. The internal channel may have a cross-sectional area that increases progressively from one end to the other. In one embodiment, the external shape of the tubular structure may be non-circular to optimize heat transfer with an external heat transfer fluid. In one embodiment, the present invention provides a heat pipe with an internal wicking structure formed as an integral part of the additive manufacturing process.Type: GrantFiled: February 9, 2021Date of Patent: April 25, 2023Assignee: UT-Battelle, LLCInventors: Edgar Lara-Curzio, Corson L. Cramer, Amelia M. Elliott, Brian A. Fricke, Prashant K. Jain, Richard R. Lowden, Kashif Nawaz, Vivek M. Rao, Matthew J. Sandlin
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Patent number: 11630439Abstract: Toolpath generation for additive manufacturing systems involves operations on polygonal contours derived from a model for additively manufacturing a structure. One aspect involves modifying or creating a model to allow parts to be printed without starting and stopping the printing equipment by generating continuous toolpaths or toolpaths having a reduced number of isolated paths. Another aspect involves modifying a slicing engine to generate a continuous toolpath or toolpath having a reduced number of isolated paths based on a representation of an object to be additively manufactured. Another aspect involves selectively placing the gaps at alternating positions among the sliced layers to create a zippering effect.Type: GrantFiled: April 7, 2020Date of Patent: April 18, 2023Assignee: UT-Battelle, LLCInventors: Michael C. Borish, Alex C. Roschli, Brian K. Post, Phillip C. Chesser, Seokpum Kim
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Patent number: 11629356Abstract: This disclosure provides genetically modified plants, plant cells and plant tissues that show modified lignin content and/or sugar release as compared to a wild type control plant which was not genetically modified. In addition, the disclosure provides methods of regulating lignin content and sugar release in a plant. The disclosure also provides methods of producing bioproducts using the genetically modified plants of the instant disclosure.Type: GrantFiled: June 2, 2020Date of Patent: April 18, 2023Assignee: UT-BATTELLE, LLCInventors: Meng Xie, Wellington Muchero, Jin-Gui Chen, Gerald A. Tuskan
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Publication number: 20230116165Abstract: A nonlinear fiber interferometer is disclosed suitable for fiber sensor and other applications. A first nonlinear fiber section amplifies probe and conjugate sidebands of a pump through four-wave mixing. A second section introduces a phase shift to be measured, for example from a sensor. A third nonlinear fiber section amplifies with phase-sensitive gain to increase signal-to-noise ratio. Based on phase-sensitive output power of probe and/or conjugate components, the phase shift can be measured. Superior performance can be obtained by balancing gain between the (first and third) nonlinear sections. Non-fiber, for example photonic integrated circuit, embodiments are disclosed. Differential sensing, alternative detection schemes, sensing applications, associated methods, and other variations are disclosed.Type: ApplicationFiled: August 1, 2022Publication date: April 13, 2023Applicant: UT-Battelle, LLCInventors: Joseph M. Lukens, Nicholas A. Peters, Raphael C. Pooser
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Patent number: 11623870Abstract: A method for purifying uranium includes forming primary uranyl peroxide precipitates (UO2O2.4H2O). Forming the primary uranyl peroxide precipitates includes obtaining impure uranium dissolved in an acidic solution, evaporating the acidic solution to increase uranium concentration and to form a concentrated solution, mixing a hydrogen peroxide (H2O2) solution with the concentrated solution in a first container, and forming uranyl peroxide precipitates in the first container. The method includes collecting the uranyl peroxide precipitates and washing and drying the uranyl peroxide precipitates. The method also includes converting the washed and dried uranyl peroxide precipitates into triuranium octoxide (U3O8).Type: GrantFiled: November 20, 2020Date of Patent: April 11, 2023Assignee: UT-BATTELLE, LLCInventor: Miting Du
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Patent number: 11623395Abstract: An apparatus and device for creating a vertical strengthening feature within a 3D printed article of manufacture for improving mechanical performance in the Z-direction. Fill material is deposited in voids vertically crossing multiple layers during the build of 3D printing. The device includes a penetrating extension that fits within the void to create a vertical strengthening feature via heat and/or extruded fill material. The size and/or movement of the heated extension can impact the void side walls to reflow the build material and blend the layers together within the void side walls.Type: GrantFiled: October 25, 2021Date of Patent: April 11, 2023Assignee: UT-BATTELLE, LLCInventors: Vlastimil Kunc, Seokpum Kim, John M. Lindahl, Jordan A. Failla, Chad E. Duty
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Patent number: 11620384Abstract: A system and method (referred to as the system) detect malware by training a rule-based model, a functional based model, and a deep learning-based model from a memory snapshot of a malware free operating state of a monitored device. The system extracts a feature set from a second memory snapshot captured from an operating state of the monitored device and processes the feature set by the rule-based model, the functional-based model, and the deep learning-based model. The system identifies identifying instances of malware on the monitored device without processing data identifying an operating system of the monitored device, data associated with a prior identification of the malware, data identifying a source of the malware, data identifying a location of the malware on the monitored device, or any operating system specific data contained within the monitored device.Type: GrantFiled: August 2, 2019Date of Patent: April 4, 2023Assignee: UT-BATTELLE, LLCInventors: Jared M. Smith, Rachel L. Petrik, Berat E. Arik
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Patent number: 11609235Abstract: A method for analyzing single cells by mass spectrometry includes the steps of providing a plurality of cells in a liquid medium and placing the cells and liquid medium in a single cell isolation and ejection system. Liquid medium containing a single cell is released from the single cell isolation and ejection system. The liquid medium and single cell are captured in a capture probe containing a flowing capture probe solvent. The cell is lysed by a lysis inducer in the capture probe to disperse single cell components into the medium. The lysed single cell components are transported to a mass spectrometer, where the lysed single cell components entering the mass spectrometer are spatially and temporally separated from any dispersed components of another single cell from the sample entering the mass spectrometer. Mass spectrometry is conducted on the lysed single-cell components. A system for analyzing single cells by mass spectrometry is also disclosed.Type: GrantFiled: November 15, 2019Date of Patent: March 21, 2023Assignee: UT-BATTELLE, LLCInventor: John F. Cahill
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Patent number: 11611266Abstract: A method for the automated recovery of rare earth permanent magnets from electric machines are provided. The method includes identifying electric machines in a mixed product stream for performing a unique robotic disassembly routine. Electric machines that are not identified are diverted to a robot training station, during which time the system and the method include implementing a suitable disassembly routine. A conveyor delivers the remaining electric machines to a rotary platform having multiple stations for the simultaneous disassembly of multiple electric machines. Permanent magnets are removed from the electric machines and are then sorted for recycling operations.Type: GrantFiled: December 18, 2019Date of Patent: March 21, 2023Assignee: UT-BATTELLE, LLCInventors: Timothy J. McIntyre, Jonathan J. Harter
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Patent number: 11608546Abstract: Disclosed herein are embodiments of an Al—Ce—Mn alloy for use in additive manufacturing. The disclosed alloy embodiments provide fabricated objects, such as bulk components, comprising a heterogeneous microstructure and having good mechanical properties even when exposed to conditions used during the additive manufacturing process. Methods for making and using alloy embodiments also are disclosed herein.Type: GrantFiled: June 5, 2020Date of Patent: March 21, 2023Assignees: UT-Battelle LLC, Eck Industries Incorporated, Iowa State University Research Foundation, Inc., Lawrence Livermore National Security, LLC, University of Tennessee Research FoundationInventors: Lawrence Allard, Jr., Sumit Bahl, Ryan Dehoff, Hunter Henderson, Michael Kesler, Scott McCall, Peeyush Nandwana, Ryan Ott, Alex Plotkowski, Orlando Rios, Amit Shyam, Zachary Sims, Kevin Sisco, David Weiss, Ying Yang
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Patent number: 11604144Abstract: A system is provided. The system has a femtosecond oscillator to generate pulses used for pump and probe beams. A photonic crystal fiber is disposed in a path of the probe beam and produces pulses for a chirped probe beam. A high NA objective receives the pump and the chirped probe beam, redirects the received beams through a dielectric substrate towards an interface between a sample and the dielectric substrate to cause total internal reflection (TIR) at the sample-substrate interface, and produces corresponding evanescent waves in a portion of the sample adjacent to the sample-substrate interface, and collects a backward-propagating beam of pulses of responsive light. The portion of the sample illuminated by the evanescent waves emits responsive light. The dielectric substrate is transparent to the responsive light, the pump and the chirped probe beam. An image is produced having a specific image size using the received backward-propagating beam.Type: GrantFiled: April 26, 2021Date of Patent: March 14, 2023Assignee: UT-BATTELLE, LLCInventors: Benjamin L. Doughty, Yingzhong Ma
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Patent number: 11602898Abstract: Systems and methods for generating graded lattice structures that can be used as infill for additively manufactured articles. Tailored sectioning and field-based smoothing are modified polygon, e.g., circle, packing algorithms that adjust the size of the circles based on physical field data to adapt the infill generation process to a field expected to be experienced by the article. Molecular dynamically generated lattice infill is based on force balancing a node distribution instead of a circle packing. Field data can be utilized to adjust the spacing of the node distribution according to a force balance equilibrium model that accounts for the field expected to be experienced by the article being additively manufactured. The resultant non-uniform honeycomb structures from tailored sectioning, field-based smoothing, and force-balancing robustly and efficiently address the connection issues with traditional non-uniform lattice structures.Type: GrantFiled: May 28, 2021Date of Patent: March 14, 2023Assignee: UT-Battelle, LLCInventors: Seokpum Kim, John C. Bowers, Kenneth Stephenson, Vlastimil Kunc, Ahmed Arabi Hassen, Lonnie J. Love, Gregory D. Dreifus
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Patent number: 11605832Abstract: A nanoconfined metal-containing electrolyte comprising a layer of enclosed nanostructures in which each enclosed nanostructure contains a liquid metal-containing electrolyte, wherein said enclosed nanostructures are in physical contact with each other. Metal-ion batteries containing the nanoconfined electrolyte in contact with an anode and cathode of the battery are also described. Methods for producing the nanoconfined electrolyte are also described.Type: GrantFiled: September 17, 2020Date of Patent: March 14, 2023Assignee: UT-Battelle, LLCInventors: Sheng Dai, Jinshui Zhang, Xiao-Guang Sun