Patents Examined by Weiping Zhu
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Patent number: 10287646Abstract: Provided is a porous metal body having superior corrosion resistance to conventional metal porous bodies composed of nickel-tin binary alloys and conventional metal porous bodies composed of nickel-chromium binary alloys. The porous metal body has a three-dimensional network skeleton and contains at least nickel, tin, and chromium. The concentration of chromium contained in the porous metal body is highest at the surface of the skeleton of the porous metal body and decreases toward the inner side of the skeleton. In one embodiment, the chromium concentration at the surface of the skeleton of the porous metal body is more preferably 3% by mass or more and 70% by mass or less.Type: GrantFiled: April 9, 2014Date of Patent: May 14, 2019Assignees: SUMITOMO ELECTRIC INDUSTRIES, LTD., SUMITOMO ELECTRIC TOYAMA CO., LTD.Inventors: Kazuki Okuno, Masatoshi Majima, Kengo Tsukamoto, Hitoshi Tsuchida, Hidetoshi Saito
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Patent number: 10287668Abstract: Provided is a case hardening steel which allows effective inhibition of abnormal grain growth during carburizing treatment or the like and makes it possible to solve the problem of abnormal grain growth-induced reduction in characteristics. In the case hardening steel, a total amount of TiC, ZrC and AlN which are precipitate particles contained in 100 g of a steel material after subjecting the case hardening steel to hot rolling is 3.5×10?4 mole or less.Type: GrantFiled: June 23, 2014Date of Patent: May 14, 2019Assignee: DAIDO STEEL CO., LTD.Inventors: Kyohei Nakayama, Yasuaki Sakai, Toshiyuki Morita, Keisuke Inoue
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Patent number: 10287658Abstract: A wire material used for manufacturing a non-heat treated component whose tensile strength is 900 MPa to 1300 MPa, containing, in mass %: C: 0.20% to 0.50%, Si: 0.05% to 2.0%, Mn: 0.20% to 1.0%, being limited to contain P: 0.030% or less, S: 0.030% or less, N: 0.005% or less, F1 defined by the following expression (1) is less than 0.60, with the balance made up of Fe and inevitable impurities, wherein a metal structure contains a pearlite structure of 64×(C %)+52% or more in a volume fraction, with the balance made up of one kind or two kinds of a pro-eutectoid ferrite structure and a bainite structure, an average block grain diameter of the pearlite structure at a region from a surface layer to 0.1 D is 15 ?m or less when a diameter of the wire material is set to be D, and (the average block grain diameter of the pearlite structure at the region from the surface layer to 0.1 D)/(an average block grain diameter of the pearlite structure at a range from 0.25 D to a center) is less than 1.0.Type: GrantFiled: August 23, 2012Date of Patent: May 14, 2019Assignee: NIPPON STEEL AND SUMITOMO METAL CORPORATIONInventors: Makoto Okonogi, Shingo Yamasaki, Akifumi Kawana, Hideaki Gotohda
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Patent number: 10288528Abstract: The invention relates to a method for manufacturing road surface covering elements that can be mounted on rollers of chassis dynamometers, including detection of a surface contour of a road surface covering within an essentially strip-shaped section. The method also includes production of a digital image of the detected section and manufacturing of the road surface covering element according to the digital image by means of a three-dimensional manufacturing technique.Type: GrantFiled: April 11, 2013Date of Patent: May 14, 2019Assignee: MAHA-AIP GMBH & CO. KGInventors: Anton Knestel, Christian Hartmann, Thomas Becherer
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Patent number: 10265767Abstract: It is an object of the present invention to provide an alloy powder that has high hardness and high corrosion resistance and can be produced from inexpensive raw materials, as well as to provide a shot material for shot peening, a powder metallurgical composition, and an iron-based sintered alloy using the alloy powder, and, in order to achieve such an object, there are provided an alloy powder including, in mass %, C: 0.6% or more and 2.4% or less, Cr: 36% or more and 60% or less, Mn: 0.1% or more and 10% or less, Mo: 0% or more and 10% or less, Si: 0% or more and less than 2%, Ni: 0% or more and 15% or less, Co: 0% or more and 5% or less, W: 0% or more and 5% or less, V: 0% or more and 5% or less, Nb: 0% or more and 5% or less, and the balance of Fe and unavoidable impurities, as well as the shot material for shot peening, the powder metallurgical composition, and the iron-based sintered alloy using the alloy powder.Type: GrantFiled: May 25, 2016Date of Patent: April 23, 2019Assignee: Sanyo Special Steel Co., Ltd.Inventor: Toshiyuki Sawada
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Patent number: 10265660Abstract: Zeolite membrane sheets for separation of mixtures containing water are provided, as well as methods for making the same. Thin, but robust, zeolite membrane sheets having an inter-grown zeolite crystal film directly on a thin, less than 200 micron thick, porous support sheet free of any surface pores with a size above 10 microns. The zeolite membrane film thickness is less than about 10 microns above the support surface and less than about 5 microns below the support surface. Methods of preparing the membrane are disclosed which include coating of the support sheet surface with a seed coating solution containing the parent zeolite crystals with mean particle sizes from about 0.5 to 2.0 microns at loading of 0.05-0.5 mg/cm2 and subsequent growth of the seeded sheet in a growth reactor loaded with a growth solution over a temperature range of about 45° C. to about 120° C.Type: GrantFiled: June 8, 2015Date of Patent: April 23, 2019Assignee: Battelle Memorial InstituteInventor: Wei Liu
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Patent number: 10265808Abstract: A flux for a resin flux cored solder contains 30% or more by mass but 80% or less by mass rosin ester and 5% or more by mass but 15% or less by mass activator. The total content ratio of base materials including the rosin ester is preferably equal to or more than 85% by mass but equal to or less than 95% by mass.Type: GrantFiled: December 16, 2015Date of Patent: April 23, 2019Assignee: Senju Metal Industry Co., Ltd.Inventors: Motohiro Onitsuka, Yoko Kurasawa, Toshihisa Kugi, Hiroshi Kawanago, Kaichi Tsuruta
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Patent number: 10259041Abstract: Method of manufacturing a three-dimensional object of a building material by an additive layer-wise building method, wherein based on material parameters of the building material and predetermined characteristics of the object to be manufactured, an internal structure of the object having a grid structure calculated, and the three-dimensional object is manufactured with this internal structure by the additive layer-wise building method, so that it comprises the predetermined characteristics.Type: GrantFiled: September 5, 2011Date of Patent: April 16, 2019Assignee: EOS GmbH Electro Optical SystemsInventors: Monika Gessler, Michael Jan Galba, Johann Oberhofer
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Patent number: 10253402Abstract: The invention relates to the use of a sheet made of an aluminium alloy for manufacturing a stamped bodywork or structural part of a motor vehicle body, also referred to as a “body in white”, wherein said sheet has a yield strength Rp0.2 no lower than 60 MPa and a tensile elongation Ag0 no lower than 34%. The invention also relates to a method for making such a stamped bodywork or structural part for a motor vehicle body, made from said sheet and selected in the group including inner panels or linings for car doors, a passenger compartment floor, a boot floor, a spare wheel housing, or even a passenger compartment side.Type: GrantFiled: July 9, 2014Date of Patent: April 9, 2019Assignee: CONSTELLIUM NEUF-BRISACHInventors: Herve Ribes, Gilles Guiglionda, Dominique Daniel
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Patent number: 10252947Abstract: A cBN material and a method of making a cBN material, the method including the steps of providing a powder mixture comprising cBN grains, aluminum and a Ti(CxNyOz)a powder, subjecting the powder mixture to a milling to form a powder blend, subjecting the powder blend to a forming operation to form a green body, subjecting the green body to a pre-sintering step, at a temperature between 650 to 950° C., to form a pre-sintered body, and subjecting the pre-sintered body to a HPHT operation to form the cBN material. For the Ti(CxNyOz)a powder, 0.05?z?0.4. In addition, a cBN material includes cBN grains, an Al2O3 phase, a binder phase of TiC, TiN and/or TiCN, W and Co, whereby a quotient Q is <0.25 of the cBN material.Type: GrantFiled: May 31, 2013Date of Patent: April 9, 2019Assignee: HYPERION MATERIALS & TECHNOLOGIES (SWEDEN) ABInventors: Gerold Weinl, Annika Kauppi, Malin Martensson, Torbjorn Selinder, Rui Shao
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Patent number: 10245640Abstract: The object of the invention is a device intended for powder materials consolidation, provided with an operating chamber, press connected to high-current discharge electrodes top and bottom, with arranged therebetween the sintered powder subjected to the pressure exerted by the press. To the top and bottom electrode there is connected a capacitive circuit with a power supply unit, closed by a high-current switch being a transistor switch. The object of the invention is also a method of powder materials consolidation in the device according to the invention, wherein the powder material is subjected to simultaneous operation of pressure in the range of 1-200 MPa and consolidation by electric current pulses with intensity of 1-80 kA, repeated with frequency from the range of 0.1 Hz to 100 Hz, generated by opening and closing the transistor switch.Type: GrantFiled: March 28, 2014Date of Patent: April 2, 2019Assignee: GENICORE SPOLKA Z OGRANICZONA ODPOWIEDZIALNOSCIAInventor: Marcin Rosinski
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Patent number: 10240032Abstract: The present invention provides a binder which has excellent effect on suppression of segregation or dust emission, while exhibiting excellent fluidity both at ordinary temperatures and at high temperatures. The present invention is a binder which is blended for use in a mixed powder for powder metallurgy, said mixed powder containing an iron-based powder and an auxiliary starting material powder. This binder is characterized by being composed of one or more polymers that are selected from among butene polymers having a melting point of from 50° C. to 85° C. (inclusive) and a heated melt fluidity at 190° C. of from 2.0 g/10 minutes to 3.6 g/10 minutes (inclusive) and methacrylic acid polymers having a weight average molecular weight of 1,000,000 or less.Type: GrantFiled: February 17, 2014Date of Patent: March 26, 2019Assignee: Kobe Steel, Ltd.Inventors: Yoshihiro Ito, Eiichiro Yoshikawa, Nobuaki Akagi, Mitsuhiro Sato
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Patent number: 10239263Abstract: A powder sintering lamination molding method which can improve the quality of the molded product without extending the time required for the lamination molding. A powder sintering lamination molding method, including the steps of, irradiating an irradiation region of the sliced layer of a molded product surrounded by an outline profile with a laser to selectively sinter the material powder of the material powder layer within the irradiation region; wherein a cooling period is provided after the laser is irradiated along the first line and before the laser is irradiated along the second line.Type: GrantFiled: September 17, 2015Date of Patent: March 26, 2019Assignee: Sodick Co., Ltd.Inventors: Ichiro Araie, Seishi Kobayashi, Yoshitaka Kato, Yasuyuki Miyashita
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Patent number: 10226819Abstract: The present invention relates to a method of surface hardening a plurality of sintered bodies having a hard phase and a binder phase. The method includes the steps of placing the bodies in a container, and forming a system including the container and the bodies therein, and causing the bodies to move and collide with each other and with inside walls of the container. The container is vibrating utilizing a mechanical resonance frequency of the system.Type: GrantFiled: March 7, 2013Date of Patent: March 12, 2019Assignee: Sandvik Hyperion ABInventors: Michael Carpenter, Sarah Geoghegan, Eugene Keown, Jane Smith
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Patent number: 10221702Abstract: A method of imparting wear-resistance to a contact face of a turbine blade Z-notch comprising applying a flexible cladding sheet comprising a Co-based cladding alloy and an organic binder to the contact face of the Z-notch, heating the turbine blade Z-notch with flexible cladding sheet thereon to volatilize the organic binder and remove it from the cladding sheet, and further heating the turbine blade Z-notch with flexible cladding sheet thereon to sinter the cladding sheet by liquid phase sintering, thereby cladding the cladding sheet to the contact face to produce a wear-resistant layer thereon.Type: GrantFiled: February 23, 2015Date of Patent: March 5, 2019Assignee: KENNAMETAL INC.Inventors: Joel T. Dawson, Danie DeWet, Qingjun Zheng
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Patent number: 10213833Abstract: A method of forming tooling for fabricating a part made from a metal powder is described herein. The method includes forming a first sheet and second sheet. The first sheet includes a first protrusion defining a first cavity and a first flange extending about the first protrusion. The second sheet includes a second flange. Additionally, the method includes arranging the first sheet and the second sheet to abut together the first flange of the first sheet and the second flange of the second sheet and to define an enclosure. The enclosure includes a void defined between the first cavity of the first sheet and the second sheet. The void has a shape of the part. The method further includes welding together the first flange of the first sheet and the second flange of the second sheet along a portion of the first flange spaced away from the first protrusion.Type: GrantFiled: August 6, 2015Date of Patent: February 26, 2019Assignee: The Boeing CompanyInventor: David P. Heck
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Patent number: 10213880Abstract: In a solder alloy consisting essentially of tin, silver, copper, bismuth, antimony, indium, and nickel, the content ratio of the silver is 0.05 mass % or more and below 0.2 mass %; the content ratio of the copper is 0.1 mass % or more and 1 mass % or less; the content ratio of the bismuth is above 4.0 mass % and 10 mass % or less; the content ratio of the antimony is 0.005 mass % or more and 8 mass % or less; the content ratio of the indium is 0.005 mass % or more and 2 mass % or less; the content ratio of the nickel is 0.003 mass % or more and 0.4 mass % or less; and the content ratio of the tin is the remaining ratio and the mass ratio (Bi/Ni) of the bismuth content with respect to the nickel content is 35 or more and 1500 or less.Type: GrantFiled: February 3, 2016Date of Patent: February 26, 2019Assignee: HARIMA CHEMICALS, INCORPORATEDInventors: Shunsuke Ishikawa, Kensuke Nakanishi, Yuka Matsushima, Tadashi Takemoto
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Patent number: 10207325Abstract: A method of additive manufacturing includes building a component having a top surface, attaching the component to a powder bed fusion plate that receives the component, filling the powder bed fusion chamber so the powder is flush with the top surface of the component, and adding a first layer of powdered metal level with the top surface of the component. The method of additive manufacturing also includes fusing the first layer of powdered metal to the top surface of the component to create a fusion joint, and building up an additively manufactured body from the top surface of the component in subsequent layers.Type: GrantFiled: June 16, 2014Date of Patent: February 19, 2019Assignee: Delavan Inc.Inventors: Gregory Zink, Spencer Pack, Matt Donovan
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Patent number: 10199145Abstract: Provided is a rare-earth magnet containing no heavy rare-earth metals such as Dy or Tb in a grain boundary phase, has a modifying alloy for increasing coercivity (in particular, coercivity under a high-temperature atmosphere) infiltrated thereinto at lower temperature than in the conventional rare-earth magnets, has high coercivity, and has relatively high magnetizability, and a production method therefor. The rare-earth magnet RM includes a RE-Fe—B-based main phase MP with a nanocrystalline structure (where RE is at least one of Nd or Pr) and a grain boundary phase BP around the main phase, the grain boundary phase containing a RE-X alloy (where X is a metallic element other than heavy rare-earth elements). Crystal grains of the main phase MP are oriented along the anisotropy axis, and each crystal grain of the main phase, when viewed from a direction perpendicular to the anisotropy axis, has a plane that is quadrilateral in shape or has a close shape thereto.Type: GrantFiled: November 12, 2012Date of Patent: February 5, 2019Assignee: TOYOTA JIDOSHA KABUSHIKI KAISHAInventors: Tetsuya Shoji, Akira Manabe, Noritaka Miyamoto, Motoki Hiraoka, Shinya Omura, Daisuke Ichigozaki, Shinya Nagashima
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Patent number: 10196719Abstract: A mold steel that is a steel having a composition containing, in terms of mass %: 0.07 to 0.15% of C; more than 0 and less than 0.8% of Si; more than 0 and not more than 1.0% of Mn; less than 0.05% of P; less than 0.02% of S; more than 0 and not more than 0.5% of Ni; more than 0 and less than 0.8% of Mo and W, either alone or as a complex (Mo+½W); more than 0 and less than 0.15% of V; and 0.25 to 1.5% of Cu, with the balance consisting of Fe, Cr and unavoidable impurities, wherein the content of Cr is more than 4.9% and not more than 5.3% and the hardness of the mold steel is 30 to 42 HRC.Type: GrantFiled: February 20, 2014Date of Patent: February 5, 2019Assignee: HITACHI METALS, LTD.Inventors: Ryuuichiroh Sugano, Takaaki Sekiyama, Yasuhiro Hosoda, Hitoshi Kataoka