Patents by Inventor Martin Thuo
Martin Thuo 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: 11379637Abstract: Various embodiments relate to additive manufacturing in which the Langmuir equation can be used to predict composition in the processing. This equation can be integrated into a model with knowledge of elemental solubility and relative reactivity of relevant elements in the additive manufacturing processing. Use of thermodynamic principles can be programmed into a finite element modeling strategy integrating the Langmuir equation, coupling the thermal fields of additive manufacturing and the surrounding environments with the rules and/or equations to predict solute pickup and/or solute loss. The modeling strategy can be implemented to identify the elements in relative concentrations to be used in the additive manufacturing processing to provide for the controlled loss of certain elements to prevent absorption of unwanted elements into molten material, formed by additive manufacturing, from the atmosphere around the molten material. Additional systems and methods are disclosed.Type: GrantFiled: February 11, 2020Date of Patent: July 5, 2022Assignee: Iowa State University Research Foundation, Inc.Inventors: Peter C. Collins, Martin Thuo, Thomas Ales
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Patent number: 11364542Abstract: A physical and chemical method is provided for de-mixing (e.g. extracting, separating, purifying and/or enriching) the metal constituents of an alloy or mixed material into different droplet or solid particle products that are highly enriched in the respective phases of the metal. The method involves for instance but is not limited to, shearing, separating and segregating metallic droplets and particles in a carrier fluid to form other droplets or particles that are each separately highly enriched in one of some, if not of all, of the constituent phases of the alloy or mixed material.Type: GrantFiled: July 9, 2020Date of Patent: June 21, 2022Assignee: Iowa State University Research Foundation, Inc.Inventors: Martin Thuo, Jacob Sporrer, Christophe Frankiewicz
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Publication number: 20220177676Abstract: One or more techniques and/or systems are disclosed for a dry-type lubricant for use in a dry product hopper to help improve dry product flow and to improve anti jamming properties of the dry product. The example lubricant can comprise a hydrophilic fiber, such as cellulose, having a width to length aspect ratio that provides a thin fiber. A plurality of hydrophobic particles are deposited on the surface of the fiber, resulting in a fiber surface exhibiting amphiphobic properties. Further, the fiber can operably absorb water, and then releases the absorbed water to the surface of the fiber under mechanical stress, such as when mixed with a product in a hopper. This can result in the water being disposed on the surface of the fiber, to provide lubrication to a product in a hopper to improve flow and anti jamming characteristics of the product in the hopper.Type: ApplicationFiled: December 3, 2020Publication date: June 9, 2022Applicant: Iowa State University Research FoundationInventors: Martin Thuo, Paul Ramon Gregory, Boyce S. Chang, Chuanshen Du
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Publication number: 20220152698Abstract: Textured particles and methods of making the same. A textured particle includes an inner core and a spherical solid outer shell including an outer surface. The inner core is inside the outer shell. The outer surface includes a first tier texture including a first metal, wherein the first metal is greater than 50 atomic % of a total atomic content of all metals in the first tier texture; a second tier texture including the second metal, wherein the second metal is greater than 50 atomic % of a total atomic content of all metals in the second tier texture; and a third tier texture including the third metal, wherein the third metal is greater than 50 atomic % of a total atomic content of all metals in the third tier texture. The first metal, second metal, and third metals are different metals.Type: ApplicationFiled: November 15, 2021Publication date: May 19, 2022Inventors: Martin Thuo, Boyce S. Chang, Andrew Martin, Winnie M. Kiarie
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Publication number: 20220098709Abstract: Undercooled liquid metallic core-shell particles, whose core is stable against solidification at ambient conditions, i.e. under near ambient temperature and pressure conditions, are used to join or repair metallic non-particulate components. The undercooled-shell particles in the form of nano-size or micro-size particles comprise an undercooled stable liquid metallic core encapsulated inside an outer shell, which can comprise an oxide or other stabilizer shell typically formed in-situ on the undercooled liquid metallic core. The shell is ruptured to release the liquid phase core material to join or repair a component(s).Type: ApplicationFiled: December 8, 2021Publication date: March 31, 2022Inventors: Martin Thuo, Ian Tevis
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Publication number: 20220063144Abstract: Coated irregular surfaces, replicas made therefrom, and methods of making the same. A particle-coated substrate includes a coating including undercooled liquid metallic particles. The particles include a solid shell comprising a metal oxide, and a liquid metallic core that is below the melting point of the liquid metallic core. The particle-coated substrate also includes a substrate including an irregular surface, wherein the coating is on the irregular surface.Type: ApplicationFiled: August 31, 2021Publication date: March 3, 2022Inventors: Martin Thuo, Thomas Ward, III, Andrew Martin, Julia Jinling Chang, Chuanshen Du
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Publication number: 20220023940Abstract: A droplet comprises a core including an alloy comprising a majority of a first metallic element and a minority of a second element, wherein the core is in a liquid state below a solidus temperature of the alloy. A shell is arranged to enclose the core and includes an exterior surface comprising a majority of the second element and a minority of the first metallic element, wherein the shell is in a solid state below the solidus temperature of the alloy. The alloy can comprise a solder material that can be used to form solder connections below a solidus temperature of the alloy.Type: ApplicationFiled: July 22, 2021Publication date: January 27, 2022Applicant: SAFI-TechInventors: Martin Thuo, Ian Tevis
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Patent number: 11220730Abstract: Undercooled liquid metallic core-shell particles, whose core is stable against solidification at ambient conditions, i.e. under near ambient temperature and pressure conditions, are used to join or repair metallic non-particulate components. The undercooled-shell particles in the form of nano-size or micro-size particles comprise an undercooled stable liquid metallic core encapsulated inside an outer shell, which can comprise an oxide or other stabilizer shell typically formed in-situ on the undercooled liquid metallic core. The shell is ruptured to release the liquid phase core material to join or repair a component(s).Type: GrantFiled: March 12, 2019Date of Patent: January 11, 2022Assignee: Iowa State University Research Foundation, Inc.Inventors: Martin Thuo, Ian Tevis
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Publication number: 20210291269Abstract: A method of direct printing or writing of a metallic material involves depositing, with a printing device or writing device, an ink comprising of at least undercooled liquid metallic particles dispersed in a carrier fluid. The ink is deposited on any substrate surface to deposit the undercooled liquid metal particles thereon as one or more layers that can form a desired pattern or layered structure.Type: ApplicationFiled: June 8, 2021Publication date: September 23, 2021Inventors: Martin Thuo ., Christophe Frankiewicz, Ian Tevis
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Publication number: 20210138588Abstract: Various embodiments relate to forming particles using undercooled metal particles in response to focused low power laser light. Particle growth can be initiated by utilizing the metastable and liquid nature of the particles, allowing for surface instability promoted by the laser light to induce liquid flow to translate to a neighboring particle. This event can cascade radially leading to accumulation of the liquid metal at the epicenter. The grown solidified particle size can be varied by using different power, exposure time, or working distance. Once the liquid has accumulated into a single region, it eventually solidifies either through homogeneous or heterogeneous nucleation to give a solid particle of larger size than the original. Such a method can be used to print patterns on a surface in four dimensions, where the fourth dimension (4D) is attained through gradient in size of the particles made. Additional systems and methods are disclosed.Type: ApplicationFiled: November 9, 2020Publication date: May 13, 2021Inventors: Martin Thuo, Peter C. Collins, Andrew Martin
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Publication number: 20200338642Abstract: A physical and chemical method is provided for de-mixing (e.g. extracting, separating, purifying and/or enriching) the metal constituents of an alloy or mixed material into different droplet or solid particle products that are highly enriched in the respective phases of the metal. The method involves for instance but is not limited to, shearing, separating and segregating metallic droplets and particles in a carrier fluid to form other droplets or particles that are each separately highly enriched in one of some, if not of all, of the constituent phases of the alloy or mixed material.Type: ApplicationFiled: July 9, 2020Publication date: October 29, 2020Inventors: Martin Thuo, Jacob Sporrer, Christophe Frankiewicz
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Publication number: 20200327267Abstract: Various embodiments relate to additive manufacturing in which the Langmuir equation can be used to predict composition in the processing. This equation can be integrated into a model with knowledge of elemental solubility and relative reactivity of relevant elements in the additive manufacturing processing. Use of thermodynamic principles can be programmed into a finite element modeling strategy integrating the Langmuir equation, coupling the thermal fields of additive manufacturing and the surrounding environments with the rules and/or equations to predict solute pickup and/or solute loss. The modeling strategy can be implemented to identify the elements in relative concentrations to be used in the additive manufacturing processing to provide for the controlled loss of certain elements to prevent absorption of unwanted elements into molten material, formed by additive manufacturing, from the atmosphere around the molten material. Additional systems and methods are disclosed.Type: ApplicationFiled: February 11, 2020Publication date: October 15, 2020Inventors: Peter C. Collins, Martin Thuo, Thomas Ales
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Patent number: 10759127Abstract: A composite material is provided including a polymer matrix and undercooled liquid metallic core-shell particles disposed in the matrix, wherein the particles each have an outer shell and a liquid metallic material as a core contained within the outer shell. The outer shell is frangible such that the liquid metallic material is released from at least some of the particles in response to a mechanical load applied to the composite and solidifies in-situ in the polymer matrix. As a result, the composite material can be self-strengthening and self-healing and can be reconfigurable in shape at ambient temperature.Type: GrantFiled: March 8, 2018Date of Patent: September 1, 2020Assignee: Iowa State University Research Foundation, Inc.Inventors: Martin Thuo, Boyce S. Chang
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Patent number: 10604677Abstract: According to various aspects and embodiments, materials having a modified surface to increase hydrophobicity and methods of making the same are disclosed. In accordance with one or more aspects, a method of enhancing a surface of a substrate may comprise bonding silane monomers onto the surface of the substrate, and polymerizing the silane monomers to form surface-attached hydrophobic particles comprising silane polymers.Type: GrantFiled: October 30, 2015Date of Patent: March 31, 2020Assignee: University of MassachusettsInventors: Martin Thuo, Ian Tevis, Stephanie Oyola-Reynoso
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Patent number: 10526694Abstract: A method of preparing an ultra-flat metal surface involves providing a layer of a crystalline metallic material on an ultra-flat substrate surface that is relatively harder than the metallic material layer and then impinging the metallic material layer with incoming metal atoms that are deposited as an additive crystalline layer thereon, wherein at least a lattice constant of the additive crystalline layer is different enough from a lattice constant of the crystalline metallic material layer resulting in a reduction of roughness of the surface of the metallic material layer adjacent to the substrate surface. The metallic material layer having an ultra-flat surface then is separated by template stripping or other technique from the substrate surface for further use of the ultra-flat surface.Type: GrantFiled: April 26, 2016Date of Patent: January 7, 2020Assignee: Iowa State University Research Foundation, Inc.Inventors: Martin Thuo, Jiahao Chen, Ian D. Tevis
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Patent number: 10471469Abstract: Metal nanomaterials and nanostructures may be formed via shearing force in the presence of a reactant.Type: GrantFiled: June 19, 2015Date of Patent: November 12, 2019Assignee: University of MassachusettsInventors: Martin Thuo, Ian Tevis
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Publication number: 20190203327Abstract: Undercooled liquid metallic core-shell particles, whose core is stable against solidification at ambient conditions, i.e. under near ambient temperature and pressure conditions, are used to join or repair metallic non-particulate components. The undercooled-shell particles in the form of nano-size or micro-size particles comprise an undercooled stable liquid metallic core encapsulated inside an outer shell, which can comprise an oxide or other stabilizer shell typically formed in-situ on the undercooled liquid metallic core. The shell is ruptured to release the liquid phase core material to join or repair a component(s).Type: ApplicationFiled: March 12, 2019Publication date: July 4, 2019Inventors: Martin Thuo, Ian Tevis
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Patent number: 10293325Abstract: According to various aspects and embodiments, core-shell particles and methods of making the same are disclosed. The core-shell particles may include a liquid metal core, at least one layer of inorganic material surrounding the liquid metal core, and at least one layer of organic material attached to the at least one layer of inorganic material.Type: GrantFiled: December 11, 2014Date of Patent: May 21, 2019Assignee: UNIVERSITY OF MASSACHUSETTSInventors: Martin Thuo, Ian Tevis
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Patent number: 10266925Abstract: Undercooled liquid metallic core-shell particles, whose core is stable against solidification at ambient conditions, i.e. under near ambient temperature and pressure conditions, are used to join or repair metallic non-particulate components. The undercooled-shell particles in the form of nano-size or micro-size particles comprise an undercooled stable liquid metallic core encapsulated inside an outer shell, which can comprise an oxide or other stabilizer shell typically formed in-situ on the undercooled liquid metallic core. The shell is ruptured to release the liquid phase core material to join or repair a component(s).Type: GrantFiled: July 12, 2016Date of Patent: April 23, 2019Assignee: Iowa State University Research Foundation, Inc.Inventors: Martin Thuo, Ian D. Tevis
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Patent number: 10124310Abstract: A method of making a multilayer metal particle having an irregular surface architecture includes introducing a molten eutectic metal alloy into a solution to produce a eutectic-solvent mixture, shearing the eutectic-solvent mixture for a sufficient period of time to induce surface tension driven phase segregation in the molten eutectic metal alloy to produce an irregular surface architecture on the eutectic metal alloy, allowing the molten eutectic metal alloy to precipitate to produce a plurality of particles, allowing the plurality of particles to oxidize in the presence of an oxidizer, and functionalizing the particles with an organic species to form an organic layer to produce a multilayer metal particle having an irregular surface architecture.Type: GrantFiled: October 27, 2015Date of Patent: November 13, 2018Assignee: UNIVERSITY OF MASSACHUSETTSInventors: Martin Thuo, Ian Tevis