Patents Examined by John Hoffmann
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Patent number: 8312744Abstract: There is provided a burner for producing glass fine particles, including: a glass material gas discharge port; a combustible gas discharge port that is provided so as to surround the glass material gas discharge port, a center of the combustible gas discharge port being positioned on a center of the glass material gas discharge port; and a plurality of small-diameter oxidizing gas discharge ports that are provided within the combustible gas discharge port in one or more concentric circles with respect to the glass material gas discharge port.Type: GrantFiled: February 23, 2010Date of Patent: November 20, 2012Assignee: Shin-Etsu Chemical Co., Ltd.Inventor: Makoto Yoshida
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Patent number: 8297079Abstract: The method of manufacturing porous glass base material for optical fiber includes that flame-hydrolyzing raw materials for glass in oxyhydrogen flame, depositing the generated glass fine particles on a rotating target to form porous glass base material, dehydrating and sintering the porous glass base material to transform into clear glass. The method features, in terms of the surface temperature of said porous glass base material, which changes as the burner used for depositing glass fine particle is moved relatively to said target, the temperature difference between the surface temperature of the porous glass base material touching the burner flame Ta and the surface temperature of the porous glass base material before touching the flame Tb, that is Ta?Tb, is adjusted to be within the range from 200 to 700 degrees centigrade.Type: GrantFiled: December 28, 2004Date of Patent: October 30, 2012Assignee: Shin-Etsu Chemical Co., Ltd.Inventor: Hiroshi Machida
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Patent number: 8266928Abstract: Provided is a burner for manufacturing a porous glass base material, the burner having: a glass raw material gas ejection port; a burnable gas ejection port provided around and centered on the glass raw material gas ejection port; and one or more sequences of small diameter auxiliary gas ejection ports provided inside the burnable gas ejection port, to be coaxial with respect to the glass raw material gas ejection port, where in each of the sequences, the small diameter auxiliary gas ejection ports have the same focal length as each other, and have a concave portion at an end surface thereof.Type: GrantFiled: February 22, 2010Date of Patent: September 18, 2012Assignee: Shin-Etsu Chemical Co., Ltd.Inventor: Makoto Yoshida
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Patent number: 8240171Abstract: A glassware manufacturing method and machine, whereby the inner surfaces of the molds of the various forming sections of the machine are treated using a common processing member, and the exhaust substances produced by the treatment are aspirated simultaneously with or at a predetermined time during the treatment by a suction device having at least one suction hood associated with the processing member.Type: GrantFiled: March 25, 2009Date of Patent: August 14, 2012Assignee: BOTTERO S.p.A.Inventor: Mario Balbi
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Patent number: 8240172Abstract: The present invention relates to a process for production of a synthetic quartz glass having a fluorine concentration of 1,000 mass ppm or more, the process comprising: (a) a step of depositing and growing quartz glass fine particles obtained by flame hydrolysis of a glass forming raw material onto a substrate, to thereby form a porous glass body; (b) a step of keeping the porous glass body in a reaction vessel that is filled with elemental fluorine (F2) or a mixed gas comprising elemental fluorine (F2) diluted with an inert gas and contains a solid metal fluoride, to thereby obtain a fluorine-containing porous glass body; and (c) a step of heating the fluorine-containing porous glass body to a transparent vitrification temperature, to thereby obtain a fluorine-containing transparent glass body.Type: GrantFiled: April 6, 2011Date of Patent: August 14, 2012Assignee: Asahi Glass Company, LimitedInventors: Chikaya Tamitsuji, Kunio Watanabe, Akio Koike
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Patent number: 8211356Abstract: A method of making aluminum oxynitride includes introducing a mixture having aluminum oxide and carbon into a chamber, agitating the mixture within the chamber, and heating the mixture to make aluminum oxynitride.Type: GrantFiled: July 18, 2000Date of Patent: July 3, 2012Assignee: Surmet CorporationInventors: Thomas M. Hartnett, Joseph M. Wahl
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Patent number: 8202010Abstract: A connector component for optical fibers has good dimensional accuracy and parallelism. The connector component includes a base material. The base material is provided with at least two holes for inserting and fixing optical fibers therein. The base material is made of quartz glass. Inner components are arranged for forming holes for inserting optical fibers in a die for forming an outer form of the connector component with a dimensional accuracy equal to or less than 2 ?m. Slurry is poured into the die, the slurry including quartz powder, a resin binder, a dispersant, water and a curing agent. The poured slurry is cured and heated under vacuum so as to vitrify the cured slurry to obtain the quartz glass.Type: GrantFiled: April 15, 2011Date of Patent: June 19, 2012Assignee: Kohoku Kogyo Co., Ltd.Inventors: Futoshi Ishii, Shuhei Yoshizawa, Tamotsu Yajima, Haruhito Araki
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Patent number: 8176754Abstract: Particulate mineral material suitable for forming a fiberisable melt is melted in a flame formed by combustion of powdered carbonaceous fuel with preheated air and the particulate mineral material is then preheated, and the exhaust gases are subjected to NOx reduction, in a cyclone preheater (22).Type: GrantFiled: June 26, 2002Date of Patent: May 15, 2012Assignee: Rockwool International A/SInventors: Leif Moeller Jensen, Ole Andreasen, Hans Hoyer, Trine Frickmann, Lars Boellund
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Patent number: 8127574Abstract: The invention relates to a method for producing mineral wool, wherein a mineral base material is melted in a cupola furnace having a shaft to hold the base material, the lower section of said shaft being provided with a grate, and beneath said grate there is a combustion chamber. The combustion chamber is heated by one or a plurality of burners, the burner or burners being run on liquid or gaseous fuel and an oxygen-containing gas. The burners are operated such that the length of the flames occurring during combustion of the fuel with the oxygen-containing gas is between 60% and 100% of the combustion chamber diameter.Type: GrantFiled: June 15, 2009Date of Patent: March 6, 2012Assignee: Linde AktiengesellschaftInventors: Thomas Niehoff, Herbert Plaschke, Dirk Rogge, Bernd Rudolph
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Patent number: 8096147Abstract: This invention provides an inexpensive and rapid method for fabricating a high-anisotropic-etch ratio, shaped glass structures using a novel photosensitive glass composition. Structures of the photosensitive glass may include micro-channels, micro-optics, microposts, or arrays of hollow micro-needles. Furthermore, such shaped glass structures can be used to form a negative mold for casting the shape in other materials.Type: GrantFiled: March 28, 2008Date of Patent: January 17, 2012Assignee: Life Bioscience, Inc.Inventors: Jeb H. Flemming, Colin T. Buckley, Carrie Schmidt
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Patent number: 8082755Abstract: A method of manufacturing monolithic glass reflectors for concentrating sunlight in a solar energy system is disclosed. The method of manufacturing allows large monolithic glass reflectors to be made from float glass in order to realize significant cost savings on the total system cost for a solar energy system. The method of manufacture includes steps of heating a sheet of float glass positioned over a concave mold until the sheet of glass sags and stretches to conform to the shape of the mold. The edges of the dish-shaped glass are rolled for structural stiffening around the periphery. The dish-shaped glass is then silvered to create a dish-shaped mirror that reflects solar radiation to a focus. The surface of the mold that contacts the float glass preferably has a grooved surface profile comprising a plurality of cusps and concave valleys. This grooved profile minimizes the contact area and marring of the specular glass surface, reduces parasitic heat transfer into the mold and increases mold lifetime.Type: GrantFiled: May 8, 2009Date of Patent: December 27, 2011Assignee: Arizona Board of RegentsInventors: Roger P Angel, Blain H Olbert
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Patent number: 8056370Abstract: Methods of melt spinning to make amorphous and ceramic materials.Type: GrantFiled: August 2, 2002Date of Patent: November 15, 2011Assignee: 3M Innovative Properties CompanyInventors: Anatoly Z. Rosenflanz, Ahmet Celikkaya, Thomas J. Anderson
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Patent number: 8047023Abstract: A method for producing a fused silica glass containing titania includes synthesizing particles of silica and titania by delivering a mixture of a silica precursor and a titania precursor to a burner, growing a porous preform by successively depositing the particles on a deposition surface while rotating and translating the deposition surface relative to the burner, and consolidating the porous preform into a dense glass.Type: GrantFiled: April 27, 2001Date of Patent: November 1, 2011Assignee: Corning IncorporatedInventors: Bradford Giles Ackerman, Kenneth Edward Hrdina, Lisa Anne Moore, Nikki Jo Russo, C. Charles Yu
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Patent number: 8037717Abstract: A method of manufacturing an optical waveguide preform includes providing a first process gas atmosphere to a soot preform contained in a vessel. The first atmosphere is held in the vessel for a first reacting time sufficient to at least partially dope or dry the soot preform. The vessel is then at least partially refilled with a second doping or drying atmosphere. The second doping or drying atmosphere is held in the vessel for a second reacting time sufficient to further dope or dry the soot preform.Type: GrantFiled: October 26, 2001Date of Patent: October 18, 2011Assignee: Corning IncorporatedInventors: Steven B. Dawes, Daniel W. Hawtof, Michael T. Murtagh, John S. Rosettie, Andrew P. Schermerhorn, Merrill F. Sproul, John Stone, III, Pushkar Tandon
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Patent number: 8038929Abstract: A method of manufacturing a sintered body is provided. A molding powder, a gel-forming material powder and a solvent are mixed at a temperature not higher than a dissolving point of the gel-forming material. A treatment of pulverizing agglomerates containing the molding powder, gel-forming material powder and solvent absorbed in the gel-forming material powder is carried out. The mixture is then heated to a temperature not lower than the dissolving point thereby forming a sol. The sol is then cooled to a temperature not higher than the gel point, thereby forming a molding material. The molding material is used for producing a sintering body.Type: GrantFiled: November 28, 2007Date of Patent: October 18, 2011Assignee: NGK Insulators, Ltd.Inventors: Yuki Bessho, Hiroyuki Shindo
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Patent number: 8017067Abstract: A method for manufacturing a honeycomb structure comprises providing an aqueous ceramic solution, providing a batch cross-link agent, mixing the agent with the solution, extruding the aqueous ceramic solution containing the cross-link agent into a honeycomb structure, and drying the honeycomb structure via a single drying step thereby forming a hardened, substantially water resistant, honeycomb structure. The method may further comprise addition of a ceramic surfactant to the aqueous ceramic solution, as well as plugging channels within the honeycomb structure with a plugging material comprising an aqueous ceramic solution that includes batch cross-link agents and ceramic surfactants therein.Type: GrantFiled: August 29, 2007Date of Patent: September 13, 2011Assignee: Corning IncorporatedInventors: Martha Blanche Custer, Margaret Kathleen Faber, Weiguo Miao, Jianguo Wang
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Patent number: 8015847Abstract: An optical fiber apparatus and manufacturing method thereof includes: forming a bare optical fiber by melting and deforming an optical fiber preform; cooling the bare optical fiber after the bare optical fiber forming step by passing it through a flow channel of a cooling unit through which cooling gas flows; and forming a protective coating layer by supplying a molten resin to a periphery of the bare optical fiber after the cooling step thereby forming an optical fiber. The cooling gas flowing toward a vertically lower end of the flow channel is blocked by the molten resin used to form the protective coating layer, and carbon dioxide gas is supplied toward the flow channel from a position which is vertically below the supply position of the cooling gas and vertically above the blocking position of the molten resin.Type: GrantFiled: April 29, 2009Date of Patent: September 13, 2011Assignee: Fujikura Ltd.Inventors: Kenji Okada, Shingo Matsushita
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Patent number: 8011208Abstract: According to an embodiment of the invention a method of manufacturing optical fiber cane comprises the steps of: (i) providing a core rod manufactured of relatively low viscosity glass; (ii) depositing SiO2 based soot around the core rod to form a soot preform, the soot being of relatively high viscosity material such that the softening point of the low viscosity glass is at least 200° C. lower than the viscosity of the high viscosity outer core region; and (iii) consolidating the soot of the soot preform by exposure to hot zone at temperatures of 1000° C.-1600° C. The soot is consolidated by heating the outer portion of the soot preform at a relatively fast heating rate, the heating rate being sufficient to densify the soot, so as to render the densified material with enough rigidity to confine the heated core rod and to prevent the heated core rod from puddling.Type: GrantFiled: February 22, 2008Date of Patent: September 6, 2011Assignee: Corning IncorporatedInventors: Jitendra Balakrishnan, Samir Khanna, Chukwuemeka Benneth Onuh, Sonya Marie Raney, Pushkar Tandon, Dana Craig Bookbinder
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Patent number: 8001806Abstract: A double-clad optical fiber fabrication method including the steps of: preparing a crystal fiber, inserting the crystal fiber into a silica capillary, attaching a sapphire tube to the periphery of the silica capillary, and applying a laser beam to the sapphire tube to increase the temperature of the sapphire tube and to further fuse the silica capillary with thermal radiation to have the fused silica capillary be wrapped about the crystal fiber, thereby forming the desired double-clad optical fiber.Type: GrantFiled: March 22, 2010Date of Patent: August 23, 2011Assignee: National Sun Yat-Sen UniversityInventors: Kwang-Yao Huang, Chia-Yao Lo, Sheng-Lung Huang
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Patent number: 8001808Abstract: A burner for a vapor deposition process has a cylindrical central gas passage and a plurality of external gas passages surrounding the central gas passage. The burner has a back block defining an initial section of the gas passages, a face block defining a final section of the gas passages and a manifold plate positioned between the back block and the face block and defining an intermediate section of the external gas passages; the face block, the manifold plate and the back block have inner integral walls that define respective sections of the central gas passage.Type: GrantFiled: November 26, 2001Date of Patent: August 23, 2011Assignee: Prysmian Cavi E Sistemi Energia S.R.L.Inventors: Antonio Mileo, Andrea Demergazzi, Sergio Pellegrini