Patents Examined by Rebecca Janssen
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Patent number: 11376660Abstract: Orthopedic implants produced by additive manufacture, followed by refinement of exterior and interior surfaces trough mechanical erosion, chemical erosion, or a combination of mechanical and chemical erosion. Surface refinement removes debris, and also produces bone-growth enhancing micro-scale and nano-scale structures.Type: GrantFiled: November 21, 2016Date of Patent: July 5, 2022Assignee: TITAN SPINE, INC.Inventors: Michelle B. Gallagher, Jennifer M. Schneider, Mark E. Berg
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Patent number: 11371149Abstract: Provided is a nickel-based composite coating, method for producing the same and use thereof. A powder mixture is coated on the surface of a substrate to obtain a nickel-based composite coating, wherein the powder mixture comprises nickel-chromium-boron-silicon powders and barium titanate powders. The barium titanate powders are added to the nickel-based powders as a second phase to form BaTiO3—NiCrBSi metal-based ceramic composite coating. The nickel-based barium titanate composite coating has an excellent damping shock absorbing performance and gives the substrate strength as well. Comparing with the conventional coating materials, the coating obtained by the present disclosure through plasma cladding technique not only bonds with the substrate in a metallurgic way, but also has a small heat affected zone, specifically, an excellent damping shock absorbing performance.Type: GrantFiled: January 28, 2019Date of Patent: June 28, 2022Assignee: Academy of Armored Forces EngineeringInventors: Haidou Wang, Zhiguo Xing, Lihong Dong, Congshuo Zhao, Yuelan Di, Guozheng Ma
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Patent number: 11370025Abstract: Orthopedic implants produced by additive manufacture, followed by refinement of exterior and interior surfaces trough mechanical erosion, chemical erosion, or a combination of mechanical and chemical erosion. Surface refinement removes debris, and also produces bone-growth enhancing micro-scale and nano-scale structures.Type: GrantFiled: November 21, 2016Date of Patent: June 28, 2022Assignee: TITAN SPINE, INC.Inventors: Michelle B. Gallagher, Jennifer M. Schneider, Mark E. Berg
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Patent number: 11351610Abstract: The disclosure relates to methods and compositions for direct printing of composite components. Specifically, the disclosure relates to the continuous printing of colored resin and metallic composite components using inkjet printing.Type: GrantFiled: March 7, 2017Date of Patent: June 7, 2022Assignee: Nano Dimension Technologies, LTD.Inventors: Sharon Fima, Hila Elimelech
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Patent number: 11351612Abstract: An additive manufacturing method for a part includes forming a pillar by fusing metallic material to form a hollow body portion including a wall having an inner surface and an outer surface and fusing metallic material to form a cap portion extending from a distal end of the body portion. The method includes forming the pillar by fusing metallic material to form a distal portion supported on the cap portion, supporting at least a portion of the part by the pillar, and removing the pillar from the part.Type: GrantFiled: May 22, 2019Date of Patent: June 7, 2022Assignee: Caterpillar Inc.Inventors: Kevin L. Martin, Thierry A. Marchione
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Patent number: 11344950Abstract: An apparatus includes a housing, a crucible disposed in the housing, and a collection bin. A turnplate disposed in a powder collection area is of an inlaid structure. A concentric circular groove is provided on the atomization plane. An air hole is provided in the turnplate. The present invention combines the pulsated orifice ejection method and the centrifugal atomization method, in cooperation with the turnplate structure and subjecting the turnplate surface to induction heating, so that a metal liquid is allowed to break through the split mode of traditional molten metal, achieves a fibrous split mode that can be implemented only when an atomizing medium is an aqueous or organic solution, and prepares a high-melting-point metal powder that meets requirements, and has a controllable particle size, high sphericity, no satellite droplets, and good flowability and spreadability, and is suitable for industrial production.Type: GrantFiled: September 25, 2019Date of Patent: May 31, 2022Assignees: DALIAN UNIVERSTTY OF TECHNOLOGYInventors: Xiaoming Wang, Yang Zhao, Qing Chang, Wei Dong, Fumin Xu, Zhiqiang Ren, Sheng Zhu, Wenyu Wang, Jing Shi, Guofeng Han, Tao Teng, Yao Meng, Zhaofeng Bai, Yanyang Wang, Yang Han, Guobin Li, Dongyang Wang, Zhanwu Peng, Zhiyong Qin
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Patent number: 11325185Abstract: A multi-step method to produce materials, and coatings of materials, which has three key characteristics. The first is that the density of the resulting materials or coatings can be controllably and widely variable from less than ten percent of normal density up to normal density. The second key characteristic of the invention is the use of starting materials having powders that have grains (particles) with one, two or three dimensions on the size scales of nanometers or micrometers. The third major characteristic part of the invention is the use of microwave radiation or induction heating to quickly raise the temperature of the powders to produce materials or coatings before deleterious diffusion and densification can occur. These features produce new types of materials with properties favorable to many applications, such as chemical and other catalysis, electrolysis in batteries and fuel cells, and light weight structural components.Type: GrantFiled: November 4, 2019Date of Patent: May 10, 2022Assignee: The George Washington UniversityInventors: David Joseph Nagel, M. Ashraf Imam
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Patent number: 11318537Abstract: A system and method for additive manufacturing (AM) including forming a product via AM, placing a resonator adjacent the product as the product is being formed in the AM, and determining a property of the product. The resonator operates over a microwave frequency spectrum and emanates electromagnetic energy.Type: GrantFiled: January 31, 2017Date of Patent: May 3, 2022Assignee: Hewlett-Packard Development Company, L.P.Inventors: Greg Scott Long, Douglas Pederson, David A. Champion
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Patent number: 11318536Abstract: An additive manufacturing apparatus according to one embodiment includes a manufacturing unit, an elastic wave generation unit, an elastic wave detection unit, and an inspection unit. The manufacturing unit sequentially stacks a layer formed by emitting a first energy beam to a material and solidifying the material. The elastic wave generation unit emits a second energy beam to a manufactured object including the layer and generates an elastic wave propagating in the manufactured object. The elastic wave detection unit detects the elastic wave. The inspection unit inspects the manufactured object on the basis of a detection result from the elastic wave detection unit.Type: GrantFiled: February 26, 2020Date of Patent: May 3, 2022Assignee: Kabushiki Kaisha ToshibaInventors: Tomoko Nishino, Naotada Okada
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Patent number: 11311942Abstract: Apparatus and methods for making metal-connected particle articles. A metal containing fluid is selectively applied to a layer of particles. The metal in the fluid is used to form metal connections between particles. The metal connections are formed at temperatures below the sintering temperature of the particles in the layer of particles.Type: GrantFiled: January 29, 2016Date of Patent: April 26, 2022Assignee: Hewlett-Packard Development Company, L.P.Inventors: Kristopher J Erickson, Krzysztof Nauka, Thomas Anthony, Lihua Zhao, Howard S Tom
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Patent number: 11298747Abstract: A porous apparatus includes a first layer and a second layer. The second layer has a plurality of struts. At least some of the struts define a porous geometry defining a plurality of faces, at least one of the plurality of the faces at least partially confronting the first layer. Each face is bounded by intersecting struts at vertices. Less than all of the vertices of each face of the porous geometry at least partially confronting the first layer are connected by a strut to the first layer. A process of producing the at least partially porous structure includes depositing and scanning metal powder layers. At least some of the scanned metal powder layers form either one or both of a portion of a first section of the structure and a portion of a second section of the structure formed by at least the struts defining the porous geometry.Type: GrantFiled: May 17, 2018Date of Patent: April 12, 2022Assignee: Howmedica Osteonics Corp.Inventors: Robert W. Klein, Lewis Mullen, Joseph Robinson
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Patent number: 11298745Abstract: The present application provides a method for manufacturing a metal foam. The present application can provide a method for manufacturing a metal foam, which is capable of forming a metal foam comprising uniformly formed pores and having excellent mechanical properties as well as the desired porosity, and a metal foam having the above characteristics. In addition, the present application can provide a method capable of forming a metal foam in which the above-mentioned physical properties are ensured, while being in the form of a thin film or sheet, within a fast process time, and such a metal foam.Type: GrantFiled: April 3, 2017Date of Patent: April 12, 2022Inventors: Dong Woo Yoo, Jin Kyu Lee
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Patent number: 11285538Abstract: A tooling assembly and method of aligning a plurality of components for a repair process in an additive manufacturing machine includes positioning the plurality of components such that a repair surface of each of the plurality of components contacts an alignment plate, e.g., under the force of gravity or using biasing members. The method further includes surrounding the alignment plate with containment walls to define a reservoir around the plurality of components and dispensing a fill material, such as wax or a potting material, into the reservoir which is configured for fixing a relative position of the plurality of components when the fill material is solidified.Type: GrantFiled: January 30, 2019Date of Patent: March 29, 2022Assignee: General Electric CompanyInventors: Jinjie Shi, Richard Roy Worthing, Jr., Joseph Edward Hampshire
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Patent number: 11285534Abstract: A method loading powder into a mold can include immersing the mold comprising one or more microchannels into a suspension comprising the powder and a surfactant suspended in a dispersant, wherein the powder comprises particles having an average particle size of less than 100 ?m, wherein the mold is substantially entirely covered by the suspension; heating the suspension having the mold immersed therein under a temperature condition suitable to lower the stability of the particles of the powder in the suspension such that the particles settle out of solution and into the one or more microchannels; and applying an ultrasonic wave to the heated suspension to further settle the particles of the powder into the one or more microchannels thereby filling the one or more microchannels of the mold with the powder.Type: GrantFiled: September 28, 2018Date of Patent: March 29, 2022Assignee: UCHICAGO ARGONNE, LLCInventors: Abdellatif M. Yacout, Sumit Bhattacharya
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Patent number: 11278960Abstract: Processes for tailoring the macroscopic shape, metallic composition, mechanical properties, and pore structure of nanoporous metal foams prepared through combustion synthesis via direct write 3D printing of metal energetic ligand precursor inks made with water and an organic thickening agent are disclosed. Such processes enable production of never before obtainable metal structures with hierarchical porosity, tailorable from the millimeter size regime to the nanometer size regime. Structures produced by these processes have numerous applications including, but not limited to, catalysts, heat exchangers, low density structural materials, biomedical implants, hydrogen storage medium, fuel cells, and batteries.Type: GrantFiled: April 11, 2019Date of Patent: March 22, 2022Assignee: Triad National Security, LLCInventors: Bryce Tappan, Andrew Schmalzer, Alexander Mueller
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Patent number: 11255008Abstract: The present invention discloses a method for processing a highly alloyed aluminum alloy sheet with a high rolling yield, including the steps of cold rolling and hot rolling of an alloy sheet followed by heat treatment. The highly alloyed Al—Cu—Mg—Ag alloy sheet is subjected to short-time solution treatment and quenching at high temperature for multiple times by increasing the solution treatment temperature and shortening the solution treatment time. In this way, the mechanical properties of the alloy at room temperature and high temperature match with or even exceed those of a conventional alloy subjected to long-time solution treatment at high temperature. The present invention implements multiple times of short-time continuous solution treatment and quenching of a highly-alloyed coiled aluminum alloy sheet. This prevents a large amount of scraps caused by the conventional processes of segmented solution treatment and quenching of the coiled material and stretching straightening treatment.Type: GrantFiled: June 9, 2020Date of Patent: February 22, 2022Assignee: Central South UniversityInventors: Zhiyi Liu, Ye Chen, Jian Wang, Jing Cao, Song Bai
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Patent number: 11254617Abstract: A method for binder jetting additive manufacturing of an object, the method comprising: (i) separately feeding a powder from which said object is to be manufactured and a solution comprising an adhesive polymer dissolved in a solvent into an additive manufacturing device, wherein said adhesive polymer is an amine-containing polymer having a molecular weight of at least 200 g/mole and is present in said solution in a concentration of 1-30 wt % to result in said solution having a viscosity of 2-25 mPa·s and a surface tension of 25-45 mN/m at room temperature; and (ii) dispensing selectively positioned droplets of said adhesive polymer, from a printhead of said additive manufacturing device, into a bed of said powder to bind particles of said powder with said adhesive polymer to produce a preform having a shape of the object to be manufactured.Type: GrantFiled: January 9, 2019Date of Patent: February 22, 2022Assignees: UT-Battelle, LLC, The ExOne CompanyInventors: Tomonori Saito, Amy M. Elliott, Daniel T. Brunermer, Dustin Blake Gilmer, Michelle Lehmann, Huayun Yu
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Patent number: 11253916Abstract: A method is provided for producing a three-dimensional object that includes an external skin, a 3D mesh enclosed in the skin and having a portion that penetrates at least a part of a thickness of the skin, and an unmelted portion enclosed in the skin. The object is formed from superposed layers each including an outer edge and an inner mesh, with the superposed outer edges forming the skin, and with the superposed inner meshes forming the 3D mesh. Each superposed layer is formed by scanning a powder layer using an energy beam to form micro-connections between grains of the powder without melting the metal powder. First and second melting and solidifying steps are performed using the energy beam to form the outer edge in one of the first and second steps and the inner mesh in the other of the first and second steps.Type: GrantFiled: October 21, 2016Date of Patent: February 22, 2022Assignee: ADDUPInventor: Philippe Vannerot
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Patent number: 11229952Abstract: A manufacturing method includes providing a material that includes a plurality of particles and a binder that is uncured. The method also includes forming a first article from the material including curing the binder to bind a collection of the particles together into the first article. Furthermore, the method includes encasing at least a portion of the first article with an outer member. The outer member defines an internal cavity that corresponds to the first article. Additionally, the method includes heating the outer member and the first article to melt the collection of particles into a molten mass within the internal cavity of the outer member. Moreover, the method includes solidifying the molten mass within the outer member to form a second article. The second article corresponds to at least a portion of the internal cavity of the outer member.Type: GrantFiled: August 20, 2018Date of Patent: January 25, 2022Assignee: HONEYWELL INTERNATIONAL INC.Inventor: Tho Xuan Bui
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Patent number: 11229124Abstract: The present invention relates to a method for formation of a redistribution layer using photo-sintering and to the redistribution layer formed by the method. The method for forming a redistribution layer using photo-sintering includes printing, on a substrate, a liquid electrode pattern for a redistribution layer; coating a transparent polymer on the substrate and the pattern; photo-sintering the electrode pattern using photonic energy; and evaporating an organic substance contained in the liquid electrode pattern via the photo-sintering to remove the polymer on a top face of the electrode pattern to form a redistribution layer as the sintered electrode pattern.Type: GrantFiled: April 18, 2019Date of Patent: January 18, 2022Assignee: Research & Business Foundation Sungkyunkwan UniversityInventors: SeungBoo Jung, KwangHo Jung, WooRam Myung, HakSan Jeong, BumGeun Park, ChoongJae Lee, KyungDeuk Min