Including Structurally Defined Particulate Matter Patents (Class 428/372)
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Publication number: 20130209717Abstract: The invention provides a layered colored solar reflective system comprising (i) a first layer comprising a first particulate material having a substantially rutile crystal habit and an average particle size within a range of about 0.55 ?m and about 0.95 ?m, dispersed in a vehicle and (ii) a second layer positioned on at least a portion of the first layer, the second layer comprising a second particulate material having a substantially rutile crystal habit and an average particle size within a range of about 1.0 ?m and 1.6 ?m, and a colorant dispersed in a vehicle. The layered color solar reflective system may be applied onto a structure to provide a dark, intense color as well as enhanced total solar reflectance.Type: ApplicationFiled: February 11, 2011Publication date: August 15, 2013Applicant: Tioxide Europe LimitedInventors: John L. Edwards, Karl Lowry, Emily Ruth Parnham, John Robb
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Publication number: 20130202888Abstract: A fiber is provided, including a cladding material that is disposed along a longitudinal-axis fiber length. A plurality of spherical particles are disposed as a sequence along a longitudinal line parallel to the longitudinal fiber axis in at least a portion of the fiber length, and include a spherical particle material that is interior to the fiber cladding material and different than the fiber cladding material. To produce particles, a drawn fiber, having a longitudinal-axis fiber length and including at least one fiber core that has a longitudinal core axis parallel to the longitudinal fiber axis and that is internally disposed to at least one outer fiber cladding layer along the fiber length, is heated for a time that is sufficient to cause a fiber core to break-up into droplets sequentially disposed along the fiber core axis. Fiber cooling solidifies droplets into spherical particles interior to fiber cladding.Type: ApplicationFiled: March 14, 2013Publication date: August 8, 2013Applicants: University of Central Florida Research Foundation, Inc., MASSACHUSETTS INSTITUTE OF TECHNOLOGYInventors: Massachusetts Institute of Technology, University of Central Florida Research Foundation, Inc.
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Publication number: 20130196405Abstract: There is provided a porous fiber having a core-shell configuration, wherein the pores on the fiber are configured to encapsulate and thereby retain a biological material therein.Type: ApplicationFiled: November 11, 2011Publication date: August 1, 2013Applicant: NGEE ANN POLYTECHNICInventors: Gurdev Singh, Binoy Paulose Nadappuram, Shuchi Agarwal, Nandhini Elayaperumal
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Publication number: 20130157053Abstract: The invention relates to a hot melt dispensable polymeric composite and process for making and using the composite. Particulates of adequate particle size are mixed with a polymer that exhibits low viscosities at temperatures typically provided by hot-melt glue guns to form rods that vary significantly in density from the base polymer. Novel articles can be manufactured by dispensing the composite from a glue gun into molds or by placement of the melt molding compound into preformed cavities within an end article.Type: ApplicationFiled: February 8, 2013Publication date: June 20, 2013Applicant: TUNDRA COMPOSITES, LLCInventor: TUNDRA COMPOSITES, LLC
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Patent number: 8466251Abstract: A polyamide-imide resin insulating paint according to the present invention includes polyamide-imide resin containing no halogen element in its molecular chain which is dissolved in a polar solvent, in which the polyamide-imide resin contains an aromatic diisocyanate component (A) having three or more benzene rings or an aromatic diamine component (E) having three or more benzene rings in a monomer, and a ratio M/N between a molecular weight (M) of the polyamide-imide resin per repeat unit and an average number (N) of amide groups and imide groups is equal to or more than 200.Type: GrantFiled: June 17, 2008Date of Patent: June 18, 2013Assignee: Hitachi Magnet Wire Corp.Inventors: Hideyuki Kikuchi, Yuzo Yukimori
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Publication number: 20130130030Abstract: An elevator rope of the present invention includes: a rope main body; and a covering resin layer that covers the periphery of the rope main body, the covering resin layer obtained by cross-linking a molded product of a composition comprising a thermoplastic polyurethane elastomer and a vinyl compound having two or more vinyl groups per molecule or a molded product of a thermoplastic polyurethane elastomer formed by using a polyol having a vinyl group for each molecule. In order to further stabilize the friction coefficient, inorganic fillers such as talc, a glass fiber and titanium oxide may be further mixed in the composition. The elevator rope of the present invention has a stable friction coefficient that does not depend on temperature or sliding velocity.Type: ApplicationFiled: September 9, 2010Publication date: May 23, 2013Applicant: Mitsubishi Electric CorporationInventors: Michio Murai, Atsushi Mitsui
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Patent number: 8446734Abstract: The invention relates to a circuit board having high density circuit and excellent connection reliability and lamination reliability. A resin fabric cloth (4) is provided by arranging single fibers (4a) or fiber bundles composed of a plurality of single fibers, which single fiber has a linear thermal expansion coefficient smaller than that of silicon, at least in two directions and alternately weaving them. In the board, the resin fabric cloth is covered with a resin portion (5) made of a resin material having a linear thermal expansion coefficient larger than that of silicon.Type: GrantFiled: March 30, 2007Date of Patent: May 21, 2013Assignee: Kyocera CorporationInventors: Katsura Hayashi, Yutaka Tsukada, Kimihiro Yamanaka, Masaharu Shirai, Isamu Kirikihira
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Publication number: 20130118981Abstract: Porous hollow fibers comprising first pores having an average length in the range from 0.045 ?m to 120 ?m and an average width in the range from 0.030 ?m to 20 ?m, measured in a fiber direction, wherein the ratio of the average length of the first pores to the average width of the first pores is at least 1.5:1, second pores having an average length in the range from 0.1 nm to 99 nm and an average width in the range from 1 nm to 20000 nm, measured in the direction of the fiber in each case, wherein the ratio of the average length of the second pores to the average width of the second pores is not more than 1:1.5. Preferred application areas include use in fillings, in selectively permeable membranes, for the immobilization of enzymes and/or cells, for hemodialysis, and for storage of hydrogen.Type: ApplicationFiled: July 28, 2011Publication date: May 16, 2013Applicant: SCHAEFER KALK GMBH & CO. KGInventors: Roland Vogel, Claudia Hinueber, Marijan Vucak, Christoph Nover
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Patent number: 8440297Abstract: The instant invention generally provides polymer organoclay composite comprising a molecularly self-assembling material and an organoclay, and a process of making and an article comprising the polymer organoclay composite. The instant invention also generally provides a fiber comprising the polymer organoclay composite, and a process of fabricating and an article comprising the fiber.Type: GrantFiled: November 20, 2009Date of Patent: May 14, 2013Inventors: Leonardo C. Lopez, Scott T. Matteucci, Sarada P. Namhata
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Publication number: 20130115453Abstract: The present invention is directed to a hybrid nanostructure. The hybrid nanostructure includes at least two pseudocapacitative materials arranged in an elongate core-shell arrangement, wherein the core is an elongate nanostructure comprising or consisting of the first pseudocapacitative material and the shell is a plurality of flake- or sheet-like nanostructures attached to the core structure and comprising or consisting of the second pseudocapacitative material. The present invention also relates to a method for forming the hybrid nanostructure, and an electrode including a plurality of the hybrid nanostructures.Type: ApplicationFiled: November 1, 2012Publication date: May 9, 2013Applicant: NANYANG TECHNOLOGICAL UNIVERSITYInventor: Nanyang Technological University
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Patent number: 8389425Abstract: Herein is disclosed a bonded mat comprising a coil web that is bonded to a backing. The coil web comprises continuous coiled fibers, at least some of which contain expanded polymeric microspheres. The backing comprises a porous material. Methods of making the coil web and the backing, and methods of bonding the coil web and the backing, are disclosed.Type: GrantFiled: January 29, 2010Date of Patent: March 5, 2013Assignee: 3M Innovative Properties CompanyInventor: Nelson R. Costa
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Publication number: 20130025444Abstract: A process for manufacturing a polyolefin powder having a thermoplastic elastomer includes the steps of combining a polyolefin powder or a monomeric source therefor with a thermoplastic elastomer, the thermoplastic elastomer being in the form of a solution or dispersion in a solvent, wherein where a monomeric source of a polyolefin is used, contacting the source of a polyolefin with a polymerization catalyst under polymerization conditions to form a polyolefin, and removing the solvent to form a powder and wherein the polyolefin and the thermoplastic elastomer are not the same polymer. A particulate polyolefin composition which has a particle size distribution such that at least 80 vol. % of the particles has a diameter in the range of 1-3000 microns, and which includes a nascent polyolefin and 0.1-30 wt. % of a thermoplastic elastomer, calculated on the total of polyolefin and thermoplastic elastomer, is also described.Type: ApplicationFiled: April 7, 2011Publication date: January 31, 2013Applicant: TEIJIN ARAMID B.V.Inventor: Johannes Bos
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Patent number: 8349449Abstract: The invention covers a method of forming functionally active fibers and substrates including functionally active fibers. The method includes forming a mixture of at least one poly vinyl polymer and at least one bleaching active. The mixture is then injected at a controlled flow rate into an electric field to cause the mixture to at least partially form fine fibers that have an average diameter of less than about 1000 nanometers.Type: GrantFiled: May 15, 2008Date of Patent: January 8, 2013Assignee: The Clorox CompanyInventors: Marc Privitera, David Jackson Lestage, Edward Jason White
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Publication number: 20120321889Abstract: An aluminum alloy conductor, containing: 0.01 to 0.4 mass % of Fe, 0.1 to 0.3 mass % of Mg, 0.04 to 0.3 mass % of Si, 0.1 to 0.5 mass % of Cu, and 0.001 to 0.01 mass % of Ti and V in total, with the balance being Al and inevitable impurities, wherein the conductor contains three kinds of intermetallic compounds A, B, and C, in which the intermetallic compounds A, B, and C have a particle size of 0.1 ?m or more but 2 ?m or less, 0.03 ?m or more but less than 0.1 ?m, and 0.001 ?m or more but less than 0.03 ?m, respectively, and area ratios a, b, and c of the intermetallic compounds A, B, and C, in an arbitrary region in the conductor, satisfy: 0.1%?a?2.5%, 0.1%?b?3%, and 1%?c?10%.Type: ApplicationFiled: August 24, 2012Publication date: December 20, 2012Inventors: Shigeki SEKIYA, Kuniteru MI HARA, Kyota SUSAI
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Publication number: 20120321832Abstract: An extruded oriented thermo-plastic polymeric element for industrial textiles, and textiles comprising polymeric elements. The polymeric elements are constructed of a material selected from yarn material, fiber material and film, and comprise a thermoplastic polymer, and at least one dry lubricant, selected from molybdenum disulphide, tungsten disulphide, boron nitride, and a soft metal, the dry lubricant comprising particulate matter having an average particle size between about 0.05? and about 100?, and present in the polymeric element in an amount from between about 0.1% and about 10% parts by weight, based on a total weight of the polymeric element. The polymeric elements can be used as yarns in woven and non woven textiles, and as seaming elements. The polymeric elements provide increased abrasion resistance in industrial textiles, and reduced co-efficient of friction.Type: ApplicationFiled: March 2, 2011Publication date: December 20, 2012Applicant: ASTENJOHNSON, INC.Inventor: Scott Makepeace
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Publication number: 20120321949Abstract: A method of producing a material capable of electrochemically storing and releasing a large amount of lithium ions is provided. The material is used as an electrode material for a negative electrode, and includes silicon or tin primary particles composed of crystal particles each having a specific diameter and an amorphous surface layer formed of at least a metal oxide, having a specific thickness. Gibbs free energy when the metal oxide is produced by oxidation of a metal is smaller than Gibbs free energy when silicon or tin is oxidized, and the metal oxide has higher thermodynamic stability than silicon oxide or tin oxide. The method of producing the electrode material includes reacting silicon or tin with a metal oxide, reacting a silicon oxide or a tin oxide with a metal, or reacting a silicon compound or a tin compound with a metal compound to react with each other.Type: ApplicationFiled: August 31, 2012Publication date: December 20, 2012Applicant: CANON KABUSHIKI KAISHAInventors: Soichiro Kawakami, Norishige Kakegawa, Akio Kashiwazaki, Toshiaki Aiba, Rie Ueno, Mikio Shimada, Kaoru Ojima, Takashi Noma
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Patent number: 8318304Abstract: An intumescent rod comprising an intumescent component formed of an intumescent material and a polymer matrix. The intumescent rod may include a second component forming a covering, core or layer adjacent the intumescent component. A method for manufacturing an intumescent rod including molding or extrusion of at least one of an intumescent component and an optional second component.Type: GrantFiled: November 24, 2009Date of Patent: November 27, 2012Assignee: Alva-Tech, Inc.Inventor: Philip F. Valenziano
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Patent number: 8318297Abstract: In one aspect, the present invention relates to a synthetic nanostructure. In one embodiment, the synthetic nanostructure has a top region substantially comprising titanate nanowires, a middle region substantially comprising titanate nanoparticles and titanate nanowires, and a bottom region substantially comprising titanium, wherein some of the titanate nanowires of the top region are extending into the middle region, wherein the middle region is between the top region and the bottom region, and wherein some of the titanate nanowires of the top region are substantially perpendicular to the bottom surface of the titanium substrate. At least some of the titanate nanowires in the top region form 3D macroporous scaffolds with interconnected macropores.Type: GrantFiled: June 25, 2008Date of Patent: November 27, 2012Assignee: Board of Trustees of the University of ArkansasInventors: Z. Ryan Tian, Joshua Epstein
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Patent number: 8314044Abstract: Permeable composite fibrous catalytic sheets comprised of at least three distinct solid phases. A first solid phase is an electrically conductive phase comprised of randomly oriented electrically conductive carbon fibers. A second solid phase is a 3-dimensional porous network of a non-conductive porous ceramic material. A third phase is comprised of catalytic particles dispersed on said 3-dimensional porous network.Type: GrantFiled: August 17, 2007Date of Patent: November 20, 2012Inventor: Juzer Jangbarwala
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Patent number: 8309227Abstract: Carbon fibrous aggregator obtained by a chemical vapor phase growing method, which comprises plural granular parts, and plural carbon fibers which are mutually independently extended outwardly from their respective granular parts so that each granular part is associated with two or more of carbon fibers, wherein the carbon fibers show a three dimensional expansion in all; and which show a three dimensional network structure of the carbon fibers at least in a part by a state that at least a part of the plural carbon fibers extended from one granular part is linked with another granular part; wherein mean length of carbon fibers which link two granular parts together is of 3.0-20.0 ?m, and wherein a coefficient of variation, CV, ((standard deviation/mean value)Ă—100) which is obtained on a determination of outer diameter distribution of the carbon fibers which constitute the aggregator of carbon fiber is not more than 30%.Type: GrantFiled: January 14, 2011Date of Patent: November 13, 2012Assignee: Hodogaya Chemical Co., Ltd.Inventors: Yoshinori Hitoe, Jun Suzuki
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Patent number: 8288116Abstract: The present invention relates to novel methods and compositions for detection and isolation of cancer cells with metastatic potential. The invention further relates to assays for measuring the metastatic potential of such cancer cells and drug screening assays for the identification of agents having anti-metastatic potential. The present invention further provides methods and compositions for inhibiting the metastatic potential of cancer cells by modulating the activity of serine integral membrane proteases [(SIMP) consisting of seprase and dipetidyl peptidase IV (DPPIV)] expressed on the surface of metastasizing cancer cells.Type: GrantFiled: March 16, 2010Date of Patent: October 16, 2012Assignee: The Research Foundation of State University of New YorkInventor: Wen-Tien Chen
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Publication number: 20120238165Abstract: The invention relates to the use of core-shell particles with a mean diameter of 10-300 nm and a standard deviation ? at least 10% of the mean value, and wherein the shell of the core-shell particle comprises a copolymer of vinyl aromatic monomer and maleimide monomer with a glass transition temperature Tg of between 120 and 220° C. for coating a yarn or fabric to inhibit or prevent wicking in said yarn or fabric. The invention further relates to an aramid fabric, such as boat sails, which yarns are provided with a finish comprising a diglycehde or a triglyceride obtained from glycerol that is esterified with saturated or unsaturated fatty acids with 6-20 carbon atoms and are then provided with the core-shell particles.Type: ApplicationFiled: December 6, 2010Publication date: September 20, 2012Applicant: TEIJIN ARAMID B.V.Inventors: Peter Gerard Akker, Huibert Cornelis Kwint
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Patent number: 8257782Abstract: Cable for high voltage direct current transmission having at least one conductor and at least one extruded insulating layer consisting of a polymeric composition of a polyethylene and at least one unsaturated fatty acid. Insulating composition having a polyethylene and at least one unsaturated fatty acid.Type: GrantFiled: July 12, 2001Date of Patent: September 4, 2012Assignee: Prysmian Cavi E Sistemi Energia S.R.L.Inventors: Gabriele Perego, Enrico Albizzati
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Publication number: 20120208086Abstract: A process for coating fine particles, in which the feed mixture contains: a monomer and/or an oligomer of aromatic compounds or unsaturated hydrocarbon compounds suitable for forming an electroconductive oligomer, polymer, copolymer, block copolymer or graft copolymer; at least one type of anions which (1) are and/or can be incorporated as doping ions into the structure of the conductive polymer; (2) can be discharged from said structure in the event of a potential fall of the conductive polymer (reduction); and (3) can have an anti-corrosive effect in the presence of a metallic surface; at least one type of particles; if necessary, at least one oxidising agent and water and/or at least another solvent. A coating is formed from the feed mixture on the particle surface, the feed mixture being converted by oxidation into a conductive polymer in the presence of at least one type a of mobile anti-corrosive anion.Type: ApplicationFiled: April 4, 2012Publication date: August 16, 2012Inventors: Waldfried PLIETH, Ursula Rammelt, Nils Hebestreit, Martin Stratmann, Michael Rohwerder, Hans-Jurgen Adler, Karin Potje-Kamloth, Evelin Jahne, Andrij Pich, Herlbert Domes, Julia Schneider, Grazyna Paliwoda-Probeska
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Patent number: 8241748Abstract: Opaque color shifting strands are disclosed that have an optically variable color with a change in angle of incident light. The strands have an organic substrate and an optical interference structure on one or both sides of the organic substrate. The optical interference design can be a Fabry-Perot structure or can be optically variable ink. Plural strands can be combined to form a textile for example such as a garment label.Type: GrantFiled: September 10, 2009Date of Patent: August 14, 2012Inventor: Alberto Argoitia
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Patent number: 8231968Abstract: The present invention provides to a method of producing fiber from tourmaline anion fiber; of which, polypropylene or polyethylene chip, TPE and submicrometer tourmaline particle are prepared and then rolled into submicrometer tourmaline agglomerate through granulation by double screw; then, take submicrometer tourmaline agglomerate and polypropylene or polyethylene chip, of which the content of tourmaline agglomerate accounts for 1Ëś10% of gross weight, and TPE for 1Ëś40% of gross weight; tourmaline agglomerate and polypropylene or polyethylene are melted into composite fiber or filter material via spinning, such that the fiber or filter material can yield anion and present outstanding gas permeability and mechanical property.Type: GrantFiled: May 3, 2006Date of Patent: July 31, 2012Assignee: Noveko Trading 2008 LLCInventors: Ming-Fung Lin, Hung-Jen Chen, Chia-Jen Chen, Yung-Chien Chen, Chao-Mulan Chen
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Patent number: 8206824Abstract: A particle-rod nanostructure is disclosed. The nanostructure comprises an inorganic nanoparticle coated with a capping agent and an organic crystalline rod nucleated on the capped inorganic nanoparticle in a one-dimensional growth pattern.Type: GrantFiled: March 18, 2010Date of Patent: June 26, 2012Assignee: Wayne State UniversityInventors: Guangzhao Mao, Stephanie L. Brock, Dongzhong Chen, Ruomiao Wang, Indika U. Arachchige
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Publication number: 20120148753Abstract: The present invention relates to a prepreg composite and to a process for manufacturing the prepreg composite. The manufacturing process involves surface treatment and impregnation of a high tenacity fibrous material with a surface treatment agent and a polymer matrix resin material. The fiber may be in the form of a woven, unidirectional or non-woven fabric. The fiber may optionally be coated with a surfactant and/or an adhesion promoter. Prior to treatment, the surface treatment materials may be contained in a dispersion of nano-particles in which each material has a film forming process temperature at a value below the degradation temperature of the fiber. The layers may be applied individually or simultaneously onto the fibers. The coated material is heat dried without compression to form a prepreg composite.Type: ApplicationFiled: February 5, 2008Publication date: June 14, 2012Inventors: Masanori Kubota, Ayako Kubota, Munetaka Kubota, Alexander Kubota
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Patent number: 8183167Abstract: Substrates that exhibit antimicrobial and/or antifungal characteristics that persist through the useful life of the substrate, and more particularly textile substrates infused with or covalently bound to well-dispersed antimicrobial nanoparticles, such as silver and/or copper nanoparticles, which exhibit persistent and demonstrable bacteriocidal, bacteriostatic, fungicidal, fungistatic behavior through numerous wash cycles. Methods of manufacturing such substrates are also provided.Type: GrantFiled: January 18, 2008Date of Patent: May 22, 2012Assignee: NanoHorizons, Inc.Inventors: James L. Delattre, Daniel J. Hayes, Joseph Cuiffi, Matthew Henry, James Kundrat, Paul Carrigan
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Patent number: 8153229Abstract: Provided is an epoxy resin composition for fiber-reinforced composite materials, which serves as a matrix resin for a prepreg. This epoxy resin composition is improved in tackiness stability during storage, while maintaining mechanical characteristics. The epoxy resin composition for fiber-reinforced composite materials is characterized by containing 25 to 50 parts by weight of an amine curing agent (B) selected from aliphatic polyamines, alicyclic polyamines and aromatic polyamines, and 1 to 20 parts by weight of an organic acid dihydrazide compound (C) having a melting point of not less than 150° C., per 100 parts by weight of an epoxy resin (A).Type: GrantFiled: April 24, 2007Date of Patent: April 10, 2012Assignee: The Yokohama Rubber Co., Ltd.Inventors: Takashi Kousaka, Mitsuhiro Iwata, Tomohiro Ito
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Patent number: 8142875Abstract: Provided is an epoxy resin composition for fiber-reinforced composite materials, which serves as a matrix resin composition for use in a self-adhesive prepreg for a face sheet of a honeycomb panel. The epoxy resin composition enables to increase self-adhesiveness of the prepreg, while improving workability and appearance quality of the prepreg. The epoxy resin composition is characterized by containing: an epoxy resin (A) which is in a liquid state at room temperature; a thermoplastic resin (B) which dissolves in the epoxy resin (A) at a temperature not less than 90° C.; thermosetting resin particles (C) which do not completely dissolve in the epoxy resin (A) at a temperature less than 90° C. and has a softening point of not less than 120° C.; and a curing agent (D).Type: GrantFiled: April 24, 2007Date of Patent: March 27, 2012Assignee: The Yokohama Rubber Co., Ltd.Inventors: Takashi Kousaka, Mitsuhiro Iwata, Tomohiro Ito
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Patent number: 8137805Abstract: A component is disclosed. The component includes a substrate made of a ferrous metal, and a coating on a surface of the substrate. The coating includes a compound having an empirical formula FexMnyOz, where x varies from about 0 to about 2, y varies from about 1 to about 4, and z varies from about 2 to about 8.Type: GrantFiled: June 13, 2008Date of Patent: March 20, 2012Assignee: Caterpillar Inc.Inventor: Beth Ann Sebright
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Patent number: 8137808Abstract: A filling material for filling into articles of bedding is made by providing a plurality of discrete fiber clusters, applying a temperature stabilizing substance to the discrete fiber clusters, mixing the discrete fiber clusters with each other, and collecting the discrete fiber clusters thereby obtaining a filling material in which the distribution of the temperature stabilizing substance is substantially even. A device (1) for producing a filling material has an application station (22) for applying a temperature stabilizing substance to discrete fiber clusters, a curing station (24) for fixing the substance, a mixer (30) for mixing the discrete fiber clusters and a collecting station (32) for collecting the fiber clusters to form the filling material in which the distribution of the temperature stabilizing substance is substantially even.Type: GrantFiled: June 20, 2005Date of Patent: March 20, 2012Assignee: Carl Freudenberg AGInventor: Jurgen Musch
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Patent number: 8137786Abstract: Provided is an epoxy resin composition for fiber-reinforced composite materials, which is improved in toughness necessary for improving the strength of self-adhesion of a matrix resin for use in a prepreg for a face sheet of a honeycomb panel. The epoxy resin composition, which comprises: an epoxy resin (A); a thermoplastic resin (B); fine solid resin particles (C); and a curing agent (D), is characterized in that the epoxy resin composition after being cured has a morphology in which the epoxy resin (A) and the thermoplastic resin (B) form co-continuous phases, and the fine solid resin particles (C) are dispersed in at least the continuous phase of the epoxy resin (A) in the co-continuous phases.Type: GrantFiled: April 24, 2007Date of Patent: March 20, 2012Assignee: The Yokohama Rubber Co., Ltd.Inventors: Takashi Kousaka, Tomohiro Ito, Mitsuhiro Iwata, Koichiro Miyoshi
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Publication number: 20120064342Abstract: Particle-loaded fibers include a fiber body having inorganic particles bound together by an organic binder. The fiber body has a diameter less than about 150 ?m, and the inorganic particles comprise a particle density of greater than 20%, 30%, 40% or even 50% by volume of the fiber body. Methods for producing such particle loaded fibers include extruding a composition through a die orifice having a diameter of less than 1000 ?m to form a fiber having a first diameter, and drawing the fiber from the first diameter to a smaller second diameter of less than 150 ?m, wherein the inorganic particles are greater than 50% by weight of the extruded composition.Type: ApplicationFiled: May 25, 2010Publication date: March 15, 2012Inventors: Atanas Valentinov Gagov, James William Zimmermann
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Publication number: 20120058163Abstract: Disclosed are water-dispersible fibers derived from sulfopolyesters having a Tg of at least 25° C. The fibers may contain a single sulfopolyester or a blend of a sulfopolyester with a water-dispersible or water-nondispersible polymer. Also disclosed are multicomponent fibers comprising a water dispersible sulfopolyester having a Tg of at least 57° C. and a water non-dispersible polymer. The multicomponent fibers may be used to produce microdenier fibers. Fibrous articles may be produced from the water-dispersible fibers, multicomponent fibers, and microdenier fibers. The fibrous articles include water-dispersible and microdenier nonwoven webs, fabrics, and multilayered articles such as wipes, gauze, tissue, diapers, panty liners, sanitary napkins, bandages, and surgical dressings. Also disclosed is a process for water-dispersible fibers, nonwoven fabrics, and microdenier webs.Type: ApplicationFiled: December 13, 2010Publication date: March 8, 2012Applicant: EASTMAN CHEMICAL COMPANYInventors: William Alston Haile, Scott Ellery George, Wesley Raymond Hale, Waylon Lewellyn Jenkins
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Patent number: 8124877Abstract: The invention relates to a semiconductive polymer composition for use in power cables. The composition comprises a multimodal ethylene homo- or copolymer produced in a polymerization process comprising a single site catalyst whereby the polymer composition has a density of 870 to 930 kg/m3, a MFR2 of 1 to 30 g/10 min and a Mw/Mn of less than or equal to 10.Type: GrantFiled: September 9, 2005Date of Patent: February 28, 2012Assignee: Borealis Technology OyInventors: Claes Broman, Lena Lindbom, Ulf Nilsson, Annika Smedberg, Alfred Campus, Roger Carlsson, Ola Fagrell, Jan-Ove Bostrom, Anders Gustafsson, Andreas Farkas, Peter Carstensen, Anders Ericsson
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Patent number: 8119571Abstract: Novel articles and methods to fabricate same with self-assembled nanodots and/or nanorods of a single or multicomponent material within another single or multicomponent material for use in electrical, electronic, magnetic, electromagnetic and electrooptical devices is disclosed. Self-assembled nanodots and/or nanorods are ordered arrays wherein ordering occurs due to strain minimization during growth of the materials. A simple method to accomplish this when depositing in-situ films is also disclosed. Device applications of resulting materials are in areas of superconductivity, photovoltaics, ferroelectrics, magnetoresistance, high density storage, solid state lighting, non-volatile memory, photoluminescence, thermoelectrics and in quantum dot lasers.Type: GrantFiled: August 3, 2006Date of Patent: February 21, 2012Inventors: Amit Goyal, Sukill Kang
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Patent number: 8105688Abstract: The present invention relates to an inorganic solid-phase combined powder, a master batch and a method for manufacturing the same, a fiber and a method for manufacturing the same. The fiber manufactured by the above method includes the following constituents in percentage by weight: 10-20% the master batch and 80-90% the high polymer carrier section. Silver content in the fiber of the present invention can reach up to 3-10%, the bactericidal rate is high, the blocking rate against ultraviolet ray is high, the efficacy is perdurable and safe, and there is no toxic or side effects. The spinnability of the fiber is good. The water absorption, permeability, dyeing evenness and electrical conductivity of the fiber are improved greatly, and the drapability and comfortableness are increased when the textile of the fiber is worn.Type: GrantFiled: March 18, 2009Date of Patent: January 31, 2012Inventor: Yanping Liu
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Patent number: 8105690Abstract: The present invention provides a glass fiber product having particles adhered to at least one fiber of the product, where the size and amount of particles is effective to reduce the tackiness of the glass fiber product and optionally effective to reduce interfilament bonding, and composition, and method for forming the same.Type: GrantFiled: February 11, 2004Date of Patent: January 31, 2012Assignee: PPG Industries Ohio, IncInventors: Ernest L. Lawton, Robert B. Rau, Garry D. Puckett
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Publication number: 20120003893Abstract: The present invention is generally directed to, in one embodiment, a composite nanofiber having a plurality of nanoparticles retained on the surface of the nanofiber, and a process for forming such composite nanofibers.Type: ApplicationFiled: June 29, 2010Publication date: January 5, 2012Inventor: Kelly D. Branham
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Patent number: 8062746Abstract: A fiber strand comprising at least one fiber at least partially coated with a composition formed from at least one rosin, at least one cationic lubricant, at least one film forming material, at least one organosilane coupling agent, and at least one dispersion of polymeric particles. A fiber strand comprising at least one fiber at least partially coated with a composition formed from components comprising at least one rosin, at least one polymeric lubricant, at least one film forming material, at least one organosilane coupling agent, and at least one dispersion of polymeric particles. A fiber strand comprising at least one fiber at least partially coated with a starch-free composition comprising at least one rosin, at least one cationic lubricant, at least one film forming material, and at least one organosilane coupling agent.Type: GrantFiled: March 10, 2003Date of Patent: November 22, 2011Assignee: PPG Industries, Inc.Inventors: Ernest L. Lawton, Robert Rau
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Publication number: 20110277832Abstract: Disclosed herein is a method for production of a titanium dioxide composite, the method including a step of preparing titanium dioxide nanowires, a step of dipping the titanium dioxide nanowires in a solution containing titanium oxysulfate and urea, thereby forming titanium dioxide fine particles on the surface of the titanium dioxide nanowires, and a step of recovering the titanium dioxide nanowires having the titanium dioxide fine particles formed on the surface thereof.Type: ApplicationFiled: May 3, 2011Publication date: November 17, 2011Applicant: Sony CorporationInventors: Keisuke Shimizu, Osamu Enoki, Yuri Nakayama, Kazuaki Fukushima
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Patent number: 8057897Abstract: Compositions that are intimate blends of ultrahigh molecular weight polyethylene and high-density polyethylene (HDPE), and which are melt spinnable. The compositions include certain quasi-spherical particles. Also disclosed is a method of melt spinning from such compositions and the multi-filament fibers produced thereby. The fibers of the invention are useful in a variety of applications.Type: GrantFiled: March 23, 2011Date of Patent: November 15, 2011Assignee: Honeywell International Inc.Inventors: Thomas Yiu-Tai Tam, Norman Aminuddin, John A. Young
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Patent number: 8043684Abstract: A process for manufacturing a disk shaped component comprising fabricating a disk shaped component using a composite material having at least a first material and a second material, wherein the first material is disposed at and proximate to a center portion of the disk shaped component and the second material is disposed at and proximate to a rim of the disk shaped component, wherein the first material comprises a first coefficient of thermal expansion, a first stress value and a first oxidation resistance, and the second material comprises a second coefficient of thermal expansion, a second stress value and a second oxidation resistance, wherein the first coefficient of thermal expansion is greater than the second coefficient of thermal expansion, the first stress value is greater than the second stress value and the first oxidation resistance is less than the second oxidation resistance.Type: GrantFiled: February 14, 2008Date of Patent: October 25, 2011Assignee: United Technologies CorporationInventor: Jun Shi
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Publication number: 20110252970Abstract: The invention is directed to a nanofiber that contains at least one moisture sensitive polymer. The fiber also contains nanoparticles of a hydrogen bonding material incorporated into the body of the fiber. The hydrogen bonding material is present in an amount corresponding to greater than 2% of the polymer weight and the nanofiber has a mean fiber diameter measured along its length of less than one micron. Also included are filter media made from nanowebs of the fiber.Type: ApplicationFiled: October 14, 2010Publication date: October 20, 2011Applicant: E. I. DU PONT DE NEMOURS AND COMPANYInventors: David Charles Jones, Junaid Ahmed Siddiqui
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Publication number: 20110245576Abstract: The invention relates to textile fibers at least partially covered with a nanometric-sized semiconducting material having photocatalytic properties for degrading chemical compounds, in particular chemical or biological agents, wherein said semiconducting material is in the form of nanostructure or nanocomposites with a one-dimensional morphology. The textile fibers can be used for application in the military, medical, and civilian domains, etc. The curves 60 and 62 respectively show the photocatalytic degradation of organic compounds at the surface of textile fibers covered with nanostructures or nanocomposites having a one-dimensional morphology according to the invention, and nanoparticles having a granular morphology according to the prior art. The nanostructures are nanocomposites of the invention 60 are more efficient.Type: ApplicationFiled: March 6, 2009Publication date: October 6, 2011Inventors: Valèrie Keller-Spitzer, Nicolas Keller, Mathieu Grandcolas, Alain Louvet
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Publication number: 20110230111Abstract: Polymer fibers having therein at least one infrared attenuating agent is provided. The infrared attenuating agent is at least substantially evenly distributed throughout the polymeric material forming the polymer fibers. In exemplary embodiments, the infrared attenuating agents have a thickness in at least one dimension of less than about 100 nanometers. Alternatively, the polymer fibers are bicomponent fibers formed of a core and a sheath substantially surrounding the core and the infrared attenuating agent is at least substantially evenly distributed throughout the sheath. The modified polymer fibers may be used to form insulation products that utilize less polymer material and subsequently reduce manufacturing costs. The insulation products formed with the modified polymers have improved thermal properties compared to insulation products formed of only non-modified polymer fibers. Additionally, the insulation product is compatible with bio-based binders.Type: ApplicationFiled: March 19, 2010Publication date: September 22, 2011Inventors: Charles R. Weir, Harry A. Alter, Yadollah Delaviz, Jeffrey A. Tilton
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Patent number: 8017233Abstract: Fibers having excellent responsiveness to magnetic field and conductivity, made of a polymer having fiber forming functions which contains magnetic material particles in spherical form having a saturation magnetic flux density of no less than 0.5 tesla. The fibers can include: (a) the average particle diameter is no greater than 5 ?m, (b) the coercive force is no greater than 1000 A/m, and (c) the fibers are complex fibers which are made of magnetic layers that contain 20 wt % to 90 wt % of magnetic material particles, and protective layers where the content of the magnetic material particles is less than 20 wt %.Type: GrantFiled: May 18, 2004Date of Patent: September 13, 2011Assignee: Toray Industries, Inc.Inventors: Kouki Miyazono, Yuhei Maeda
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Patent number: 8012582Abstract: A method of making a proppant is provided, wherein the method includes the steps of: (a) forming a particulate comprising: (i) a binder; and (ii) a filler; and (b) sintering the particulate to form a sintered proppant, wherein the sintered proppant comprises: (i) at least 20 wt % of alkaline earth oxide equivalent; and (ii) at least 20 wt % of silicon dioxide equivalent. A method of treating (e.g., fracturing) a subterranean formation is provided, the method including the steps of: (a) suspending the sintered proppant in a treatment fluid; and (b) introducing the sintered proppant into the subterranean formation. The sintered proppant is made with a raw material selected from the group consisting of: unhydrated cement, hydrated cement (e.g., construction cement or concrete waste), kiln dust, fly ash, limestone, lime, talc, olivine, dolomite, clay that contains a substantial concentration of alkaline earth oxide equivalent, and any combination thereof in any proportion.Type: GrantFiled: September 25, 2008Date of Patent: September 6, 2011Assignee: Halliburton Energy Services, Inc.Inventors: Hongyu Luo, Ashok Santra, Lewis R. Norman, Mark Parker, Ronald J. Powell, Rajesh K. Saini