Patents by Inventor Hyung Baek
Hyung Baek 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: 20240047853Abstract: An antenna module comprises a plurality of directors provided to be spaced apart from each other on the top surface of a first base layer; a second base layer disposed under the first base layer; a plurality of radiation patterns spaced apart from each other at positions corresponding to the respective directors on the top surface of the second base layer and functioning as antennas; an RF chipset disposed on bottom surface of the second base layer to transmit and receive RF signals; a connection pattern comprising a power feeding via electrode penetrating the second base layer and connecting the RF chipset and the radiation pattern; and a grounding via electrode that penetrates a part of the second base layer, is spaced apart from a side surface of the power feeding via electrode, and surrounds at least a portion of the side surface of the power feeding via electrode.Type: ApplicationFiled: December 8, 2021Publication date: February 8, 2024Inventors: Se Ho LEE, Hyung BAEK, II, Kyung Hyun RYU
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Publication number: 20230310356Abstract: A method for ameliorating or treating brain damage and mild cognitive impairment includes administering a composition including glutamine or a salt thereof as effective component to a subject in need thereof. Glutamine as the effective component not only can restore the memory and cognitive ability impaired by stress but also can suppress a damage on nerve cells, reduce the amount of ROS/RNS and other related proteins in brain tissues, and enhance synaptic plasticity. When the animal model of Alzheimer's disease is fed with glutamine, cognitive ability of the animal is improved and accumulation of A?42 is suppressed.Type: ApplicationFiled: March 25, 2021Publication date: October 5, 2023Inventors: Hyun Joon KIM, Ji Hyung BAEK
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Publication number: 20230248681Abstract: A method for ameliorating a disease caused by nitration of tyrosine in protein includes administering a composition comprising tyrosine or a salt thereof to a subject in need thereof. Tyrosine as effective component of the present invention not only can enhance the activity of glutamine synthetase having reduced activity and but also has an effect of restoring the amount (i.e., ratio) of glutamine and glutamic acid in brain and the amount of ammonia to normal level, an effect of enhancing the insulin sensitivity in a model of type 2 diabetes, an effect of suppressing the excitotoxicity and oxidative stress in a model of epileptic seizure, an effect of reducing cerebral infarction and enhancing the activity of GS in a model of brain stroke, an effect of eliminating the nitration of tyrosine using human recombinant MnSOD, and an effect for acute renal failure and hyperammonemia.Type: ApplicationFiled: June 30, 2021Publication date: August 10, 2023Inventors: Hyun Joon KIM, Jae Soon KANG, Ji Hyung BAEK, Soonwoong JUNG, Sang Won PARK
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Patent number: 8640879Abstract: A method of separating a mixture of solid materials includes supplying a stream of a mixture of solid materials to a stationary inclined surface and collecting a plurality of particles at one or more collection ports spaced from and located along the axis of the inclined surface. The mixture of solid materials includes a plurality of particles. The plurality of particles includes rubber particles and plastic particles. The particles of the mixture contact the stationary inclined surface and travel downward along the surface due to gravitational force. The collected particles include a higher percentage of the rubber particles than mixture due to a greater degree of bouncing of the rubber particles due to their higher friction compared with plastic particles. A material sorting apparatus includes a stationary inclined surface, a feeder, and a plurality of collection ports spaced from and located along the axis of the inclined surface.Type: GrantFiled: March 29, 2012Date of Patent: February 4, 2014Assignee: MBA Polymers, Inc.Inventors: Brian L. Riise, Ronald C. Rau, Hyung Baek, Pedro Alejandro Perez-Rodriguez, Scott A. Farling
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Patent number: 8633256Abstract: A process for creating polyolefin blends from waste streams with controlled rheological properties can include processing a waste stream to make a mixture comprising a mixture comprising polypropylene and polyethylene and compounding the mixture with one or more peroxides or nitroxides to produce a polyolefin blend. For example, a process can include: determining the required melt flow rate of the end product; determining the ratio of polyethylene to polypropylene to achieve the required melt flow rate; effecting a separation of polypropylene from polyethylene to achieve the desired composition; determining the amount of peroxide or peroxide concentrate required to increase the melt flow rate to the required level; melt compounding the mixture; evaluating the melt flow rate of the product; and adjusting the composition of polyethyelene and polypropylene or the amount of peroxide added if necessary to achieve the required melt flow rate.Type: GrantFiled: August 15, 2012Date of Patent: January 21, 2014Assignee: MBA Polymers, Inc.Inventors: Brian L. Riise, Hyung Baek
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Publication number: 20130046034Abstract: A process for creating polyolefin blends from waste streams with controlled rheological properties can include processing a waste stream to make a mixture comprising a mixture comprising polypropylene and polyethylene and compounding the mixture with one or more peroxides or nitroxides to produce a polyolefin blend. For example, a process can include: determining the required melt flow rate of the end product; determining the ratio of polyethylene to polypropylene to achieve the required melt flow rate; effecting a separation of polypropylene from polyethylene to achieve the desired composition; determining the amount of peroxide or peroxide concentrate required to increase the melt flow rate to the required level; melt compounding the mixture; evaluating the melt flow rate of the product; and adjusting the composition of polyethyelene and polypropylene or the amount of peroxide added if necessary to achieve the required melt flow rate.Type: ApplicationFiled: August 15, 2012Publication date: February 21, 2013Applicant: MBA POLYMERS, INC.Inventors: Brian L. Riise, Hyung Baek
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Publication number: 20120248014Abstract: A method of separating a mixture of solid materials includes supplying a stream of a mixture of solid materials to a stationary inclined surface and collecting a plurality of particles at one or more collection ports spaced from and located along the axis of the inclined surface. The mixture of solid materials includes a plurality of particles. The plurality of particles includes rubber particles and plastic particles. The particles of the mixture contact the stationary inclined surface and travel downward along the surface due to gravitational force. The collected particles include a higher percentage of the rubber particles than mixture due to a greater degree of bouncing of the rubber particles due to their higher friction compared with plastic particles. A material sorting apparatus includes a stationary inclined surface, a feeder, and a plurality of collection ports spaced from and located along the axis of the inclined surface.Type: ApplicationFiled: March 29, 2012Publication date: October 4, 2012Applicant: MBA POLYMERS, INC.Inventors: BRIAN L. RIISE, RONALD C. RAU, HYUNG BAEK, PEDRO ALEJANDRO PEREZ-RODRIGUEZ, SCOTT A. FARLING
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Publication number: 20120067787Abstract: A method for separating mixtures of solid materials includes incorporating a ferromagnetic particulate material into a mixture of solid materials and, after the incorporating step, separating the mixture of solid materials into at least two groups based on the magnetic and frictional properties of the different components of the mixture of solid materials. The ferromagnetic particulate material can differentially incorporate into or adhere to different components of the mixture of solid materials. The different components of the mixture have different frictional properties and, after the incorporating step, the different components have different magnetic properties.Type: ApplicationFiled: September 29, 2011Publication date: March 22, 2012Applicant: MBA Polymers, Inc.Inventors: Brian L. Riise, Ron C. Rau, Hyung Baek, Pedro Alejandro Perez-Rodriguez
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Patent number: 8056728Abstract: A method for separating mixtures of solid materials includes incorporating a ferromagnetic particulate material into a mixture of solid materials and, after the incorporating step, separating the mixture of solid materials into at least two groups based on the magnetic and frictional properties of the different components of the mixture of solid materials. The ferromagnetic particulate material can differentially incorporate into or adhere to different components of the mixture of solid materials. The different components of the mixture have different frictional properties and, after the incorporating step, the different components have different magnetic properties.Type: GrantFiled: March 31, 2009Date of Patent: November 15, 2011Assignee: MBA Polymers, Inc.Inventors: Brian L. Riise, Ron C. Rau, Hyung Baek, Pedro Alejandro Perez-Rodriguez
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Publication number: 20100078362Abstract: A method for separating mixtures of solid materials includes incorporating a ferromagnetic particulate material into a mixture of solid materials and, after the incorporating step, separating the mixture of solid materials into at least two groups based on the magnetic and frictional properties of the different components of the mixture of solid materials. The ferromagnetic particulate material can differentially incorporate into or adhere to different components of the mixture of solid materials. The different components of the mixture have different frictional properties and, after the incorporating step, the different components have different magnetic properties.Type: ApplicationFiled: March 31, 2009Publication date: April 1, 2010Applicant: MBA POLYMERS, INC.Inventors: Brian L. Riise, Ron C. Rau, Hyung Baek, Pedro Alejandro Perez-Rodriguez
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Patent number: 6863707Abstract: Disclosed is a method of forming a W—Cu composite powder having a Cu particle surrounded by tungsten by mixing and pulverizing tungsten oxide powder and copper oxide powder using turbular mixing or ball milling, reducing the Cu powder firstly at 200˜400° C. under a hydrogen atmosphere or a reducing gas environment including hydrogen, generating W nuclei on the reduced Cu powder at 500˜700° C., and growing the generated W nuclei at 750˜1080° C. as well as a use of the same for the use of powder injection molding.Type: GrantFiled: May 6, 2003Date of Patent: March 8, 2005Assignee: Agency for Defense DevelopmentInventors: Seong Lee, Moon-Hee Hong, Joon-Woong Noh, Eun-Pyo Kim, Hung-Sub Song, Woon-Hyung Baek
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Publication number: 20030205108Abstract: Disclosed is a method of forming a W—Cu composite powder having a Cu particle surrounded by tungsten by mixing and pulverizing tungsten oxide powder and copper oxide powder using turbular mixing or ball milling, reducing the Cu powder firstly at 200˜400° C. under a hydrogen atmosphere or a reducing gas environment including hydrogen, generating W nuclei on the reduced Cu powder at 500˜700° C., and growing the generated W nuclei at 750˜1080° C. as well as a use of the same for the use of powder injection molding.Type: ApplicationFiled: May 6, 2003Publication date: November 6, 2003Applicant: Agency for Defense DevelopmentInventors: Seong Lee, Moon-Hee Hong, Joon-Woong Noh, Eun-Pyo Kim, Hung-Sub Song, Woon-Hyung Baek
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Patent number: 5970307Abstract: A sintering method for a W--Ni--Mn type heavy alloy, including controlling the deoxidization of tungsten and nickel under an inert atmosphere, changing to a hydrogen atmosphere at above a temperature at which manganese is deoxidized and simultaneously deoxidizing tungsten, nickel and manganese, and sintering by raising the temperature, resulting in the fabrication of a sintered heavy alloy having a 100% relative theoretical density.Type: GrantFiled: April 30, 1997Date of Patent: October 19, 1999Assignee: Agency for Defense DevelopmentInventors: Moon Hee Hong, Woon Hyung Baek, Joon Woong Noh, Heung Sub Song, Seong Lee, Eun Pyo Kim
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Patent number: 5956559Abstract: A method for producing an irregular tungsten/matrix interface in tungsten based heavy alloy is disclosed. The method involves a cyclic heat treatment and resintering at above liquidus temperature for tungsten heavy alloys consisting of 80 to 98 weight % tungsten and remainder of matrix phase. The sintered specimens are cyclically heat treated at above 1000.degree. C. and resintered at liquidus temperature of the matrix phase for one minute to 4 hours at a constant temperature.Type: GrantFiled: February 27, 1998Date of Patent: September 21, 1999Assignee: Agency for Defense DevelopmentInventors: Heung Sub Song, Eun Pyo Kim, Seong Lee, Joon Woong Noh, Moon Hee Hong, Woon Hyung Baek
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Patent number: 5956558Abstract: A fabrication method for a tungsten heavy alloy includes first fabricating a green compact or a sintered body composed of tungsten and other elements except manganese, then putting manganese thereon, and sintering the tungsten heavy alloy with manganese manganese, whereby the formation of pores, which occurs because manganese is oxidized by the deoxidation of oxides existing on the surface of powders of tungsten, nickel and iron is prevented, and a tungsten heavy alloy having a 100% non-theoretical density of 100% is obtained.Type: GrantFiled: April 30, 1997Date of Patent: September 21, 1999Assignee: Agency for Defense DevelopmentInventors: Moon Hee Hong, Woon Hyung Baek, Joon Woong Noh, Heung Sub Song, Seong Lee, Eun Pyo Kim
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Patent number: 5306364Abstract: A tungsten based heavy alloy having a W--Ni--Fe based composition containing traces of lanthanum or calcium, thereby capable of exhibiting high toughness, irrespective of the content of impurities such as phosphorous and sulfur contained therein, the cooling rate after the sintering treatment and the re-heating treatment. The present invention provides a method for making the high toughness tungsten based heavy alloy. The tungsten based heavy alloy of the present invention is useful to manufacture warheads for breaking armor plates, which require high toughness.Type: GrantFiled: June 9, 1992Date of Patent: April 26, 1994Assignee: Agency For Defense DevelopmentInventors: Seong-Hyeon Hong, Suk-Joong L. Kang, Duk Yong Yoon, Woon-Hyung Baek