Coating On Discrete And Individual Rods, Strands Or Filaments Patents (Class 428/378)
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Publication number: 20090269583Abstract: A rope comprising a plurality of high tenacity polyolefin yarns aligned in a substantially uniaxial direction along the length of the rope. The rope yarns are substantially untwisted and are substantially parallel to each other. The yarns are formed from a plurality of fibers aligned in a substantially uniaxial direction along the length of the yarns, with the fibers being substantially untwisted and being substantially parallel to each other. The fibers comprise high tenacity polyolefin fibers. Adjacent yarns are connected together by contact of their respective resin surface coatings.Type: ApplicationFiled: April 28, 2008Publication date: October 29, 2009Inventors: Ashok Bhatnagar, Lori L. Wagner, Gregory A. Davis, Barbara M. Costain, Henry G. Ardiff
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Publication number: 20090258555Abstract: Articles coated with a water-resistant coating that absorbs water to provide the water-resistant effect, and desorbs water when the coating is dried, and a method of providing water resistance and corrosion resistance to articles prepared with such coatings. The coating is formed by applying a composition comprising an aqueous solution of a superabsorbent water-soluble polymer precursor, optionally a viscosity modifying agent, and optionally a lubricant onto the surfaces of the article, and curing to form a coating comprising the superabsorbent polymer.Type: ApplicationFiled: February 13, 2009Publication date: October 15, 2009Inventors: Martin C. Flautt, James R. Priest, David V. Stotler, Thomas P. Hager
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Publication number: 20090239056Abstract: The present invention relates to glass strands coated with a sizing composition capable of conducting an electric current, which comprises at least one film-forming agent, at least one compound chosen from plasticizers, surfactants and dispersants, at least one coupling agent for coupling to the glass, and electrically conductive particles. The glass strands according to the invention are more particularly intended for the production of electrically conductive parts by compression molding, said glass strands being employed in SMC or BMC form.Type: ApplicationFiled: October 21, 2005Publication date: September 24, 2009Applicant: SAINT-GOBAIN VETROTEX FRANCE S.A.Inventors: Patrick Moireau, Claire Ceugniet, Claire Metra
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Patent number: 7592064Abstract: Carpet protectants comprising an aqueous dispersion comprising A. a partially fluorinated urethane polymer having at least one urea linkage, which compound is the product of the reaction of: (1) at least one organic polyisocyanate containing at least three isocyanate groups; (2) at least one fluorochemical compound which contains per molecule (a) a single functional group having one or more Zerewitinoff hydrogen atoms and (b) at least two carbon atoms, each of which is attached to at least two fluorine atoms; and (3) water in an amount sufficient to react with from about 5% to about 60% of the isocyanate groups in said polyisocyanate; B. a non-fluorinated cationic surfactant; and C. a non-fluorinated nonionic surfactant are disclosed.Type: GrantFiled: August 6, 2004Date of Patent: September 22, 2009Assignee: E.I. du Pont de Nemours and CompanyInventors: Patrick Henry Fitzgerald, Andrew Hen Liu, Peter Michael Murphy, Charles L. Strickler
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Publication number: 20090226709Abstract: A glass fiber and a method of manufacturing a glass fiber for reinforcing a transparent composite matrix is disclosed. The glass fiber includes a first glass material having a first refractive index, a first modulus, and a first durability characteristic and a second glass material having a second refractive index, a second modulus, and second durability characteristic. The second durability characteristic is greater than the first durability characteristic. Durability characteristic is selected from the group comprising resistance to chemical attack, resistance to acid attack, resistance to fading from exposure to ultra-violet radiation, and resistance to mechanical abrasion.Type: ApplicationFiled: March 5, 2008Publication date: September 10, 2009Applicant: THE BOEING COMPANYInventors: Mark S. WILENSKI, Adam J. LANG, Alan M. MARKUS, Larry A. GODBY
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Patent number: 7585562Abstract: To improve tensile strength without impairing flexibility and adhesion to concrete, and to form a thick coating in a surface layer part for preventing a basis material from being exposed by damage to the coating, a method of forming double coatings on a prestressing strand includes a primary painting process after a pre-treatment process, in which a resin coating is formed only at the surface layer, a secondary painting process in which respectively individual state resin coating is formed on an outer peripheral face of each of the core wire and surrounding wires under a loosened and separated state, thereby forming a double coating for each surrounding wire, and a finishing process of tightening and retwisting the surrounding wires about the core wire to an original state. The obtained prestressing strand has the double coating portions only at the surface layer and sufficient flexibility and adhesion to concrete.Type: GrantFiled: February 12, 2007Date of Patent: September 8, 2009Assignee: Kurosawa Construction Co., Ltd.Inventors: Takeshi Hasui, Takatsugu Fujikawa
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Patent number: 7579039Abstract: A method for coating a cleaning region of an interdental cleaning device, which includes preheating the cleaning region to a predetermined temperature. Then, immersing the preheated cleaning region in a coating agent. The coating agent including a flavoring agent encapsulated in a wax, thereby forming a coating on the cleaning region upon immersion. Next, a flow of air is forced across the coated cleaning region in a drip zone, thereby removing an excess portion of the wax and exposing at least a portion of the flavoring agent at a surface of the coating. Then, the coating is cured by cooling the cleaning region.Type: GrantFiled: May 18, 2004Date of Patent: August 25, 2009Assignee: Braun GmbHInventors: Gerhard Finger, Thorsten Emge, Manfred Klawuhn
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Publication number: 20090197026Abstract: This composition for treating the surface of a glass-ceramic, especially in plate form, flat glass or hollowware, or glass in the form of fibers, is able to be applied as a thin coating to said glass-ceramic or said glass.Type: ApplicationFiled: June 15, 2005Publication date: August 6, 2009Applicant: EUROKERA S.N.C.Inventors: Pablo Vilato, Marie-Héléne Rouillon, Caroline Faillat, Sophie Besson, Stéphane Lohou, Olivier Gaume, Didier Le Couviour
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Patent number: 7550199Abstract: A method for imparting resistance to staining to a substrate comprising contacting the substrate with a copolymer comprising the monomers of Formula wherein D is at least one vinyl monomer selected from the group consisting of aryl olefin, alpha olefin and diene, each M is independently H, Ca, Mg, Al, Na, or K, each R1 is independently H, C1-C6 alkyl, or C1-C6 hydroxyalkyl, each R2 is independently linear or branched C1-C12 alkyl, C1-C6 hydroxyalkyl, C6F5, arylalkyl, C6H4OH, R3COOH, or R3SO3H, or R1 and R2 are linked together to form a morpholino or pyrrolidino ring, R3 is linear or branched C1-C12 alkyl, CH(COOH)CH2CH2, C6H4, or C6H3(OH), h1+h2 is h, h is a positive integer, k is zero or a positive integer, i and j are each independently zero or a positive integer, provided that the total of 1) h÷(k+h+i+j) is from about 0.005 to about 0.7, 2) k÷(k+h+i+j) is from about 0.3 to about 0.6, 3) [i+j]÷(k+h+i+j) is 0 to about 0.6, and provided that the sum of 1)+2)+3) is 1.Type: GrantFiled: July 31, 2006Date of Patent: June 23, 2009Assignee: E.I. du Pont de Nemours and CompanyInventors: Timothy Edward Hopkins, Stephen Ernest Jacobson, Melea Rena Langley, Peter Michael Murphy
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Publication number: 20090155587Abstract: Multicomponent nanorods having segments with differing electronic and/or chemical properties are disclosed. The nanorods can be tailored with high precision to create controlled gaps within the nanorods or to produce diodes or resistors, based upon the identities of the components making up the segments of the nanorods. Macrostructural composites of these nanorods also are disclosed.Type: ApplicationFiled: August 22, 2008Publication date: June 18, 2009Applicant: NORTHWESTERN UNIVERSITYInventors: Chad A. Mirkin, Lidong Qin, Sungho Park, Ling Huang, Sung-Wook Chung
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Publication number: 20090142596Abstract: The process for producing multilayered sheetlike structures, particles or fibers comprises the steps of (a) applying a reactive polycarboxylic acid or one of its derivatives atop a sheetlike, particulate or fibrous carrier material already comprising, or previously provided with, groups reactive toward, capable of covalent bonding with, the polycarboxylic acid or one of its derivatives, (b) if appropriate heating the carrier material treated in step (a) to a temperature in the range from 60° C. to 130° C. and preferably to a temperature in the range from 80° C. to 120° C. to hasten, complete or further optimize the covalent bonds, (c) applying atop the carrier material a cellulose capable of covalent bonding with the polycarboxylic acid or its derivatives.Type: ApplicationFiled: October 20, 2005Publication date: June 4, 2009Applicant: BASF AktiengesellschaftInventors: Uwe Freudenberg, Stefan Zschoche, Carsten Werner, Kati Schmidt, Sven Holger Behrens, Helmut Auweter
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Patent number: 7541089Abstract: A sheathed posttensioning cable assembly including an elongated metallic cable and a coaxially disposed outer sheath, with the cable assembly including a polymeric resin fiber/filament impregnated with a migratory corrosion inhibitor being inserted within the sheath and extending along the length of the cable. The polymeric resin is preferably polypropylene, polyethylene, nylon, or polyethylene terephthalate, with the corrosion inhibitor comprising a 50:50 blend of sodium benzoate and alkali metal sebacate. The inhibitor preferably comprises between 5% and 10% by weight of the impregnated fiber/filament.Type: GrantFiled: December 10, 2002Date of Patent: June 2, 2009Assignee: Cortec CorporationInventors: Boris A. Miksic, Alla Furman, Margarita Kharshan, Jessica Jackson
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Publication number: 20090137355Abstract: A coating liquid for coating glass fiber codes, containing: a chlorophenol-formaldehyde condensate (A) obtained by condensing a chlorophenol (D) and formaldehyde (E) in water; an emulsion of a vinylpyridine-styrene-butadiene copolymer (B); and an emulsion of a chlorosulfonated polyethylene (C).Type: ApplicationFiled: March 29, 2007Publication date: May 28, 2009Applicant: Central Glass Company, LimitedInventors: Katsuhiko Ogaki, Toshiya Monden, Takafumi Iwano
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Publication number: 20090123750Abstract: A method for modifying CNT is disclosed. The modified CNT by the above-mentioned method mixed with a resin is provided with an enhanced diffusibility; therefore the electronic property and mechanical property of resin are enhanced obviously with lower quantity of CNT.Type: ApplicationFiled: November 9, 2007Publication date: May 14, 2009Inventors: Chia-Hsun Chen, Chen-Feng Kuan, Hsu-Chiang Kuan, Kun-Chang Lin, Min-Chi Chung, Hsin-Chin Peng
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Patent number: 7532795Abstract: The invention relates to a radiation-curable liquid resin composition comprising: (A) 20-90 wt % of a urethane(meth)acrylate oligomer, and (B) 1-35 wt % of a monomer shown by the following formula (1), wherein R1 represents a hydrogen atom or a methyl group, R2 and R3 individually represent a hydrogen atom or an alkyl group having 1-4 carbon atoms, R4 represents a hydrogen atom or a methyl group, and n represents an integer of 1-6, or a monomer including a hydroxyl group.Type: GrantFiled: August 20, 2004Date of Patent: May 12, 2009Assignees: DSM IP Assets B.V., JSR CorporationInventors: Atsuya Takahashi, Takeo Shigemoto, Zen Komiya, Hiroki Ohara
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Patent number: 7524890Abstract: The present invention is directed to a photocurable and antistatic resin composition for coating an optical fiber, comprising (A) a photopolymerizable urethane acrylate oligomer, (B) a reactive monomer having at least one (meth)acrylate or vinyl group, (C) a photoinitiator, and (D) an antistatic agent compatible with the oligomer and monomer components, and optionally (E) a pigment or dye. The coating of the inventive composition can increase the productivity of the optical fiber, and provide an optical fiber having a uniform coating layer.Type: GrantFiled: August 13, 2004Date of Patent: April 28, 2009Assignee: Luvantix Co., LtdInventors: Dae Sung Lee, Kyoung Beom Min, Jae Myoung Ryu, Hae Woog Choi, Yong Min Kim
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Publication number: 20090092833Abstract: Short-cut synthetic or cellulose-based natural reinforcing fiber is provided for polymer composites in a form that feeds uniformly into a compounding process such as is carried out in a single or twin screw extruder or double armed batch mixer using conventional volumetric or gravimetric metering equipment. Upon being fed to the compounding process, the reinforcing fiber disperses and becomes uniformly distributed in a matrix resin. The reinforcing fibers are provided in the form of cut fiber bundles with a finish composition coating the fibers and forming fugitive inter-fiber bonds within each cut fiber bundle. This provides inter-fiber coherency such that the cut fiber bundles can be fed uniformly via a loss-in-volume or loss-in-weight screw feeder device to a compounding process. Upon mixing in the compounding process with a matrix polymer, the fugitive bonds break, and the cut fiber bundles disintegrate into separate individual fibers dispersed in the matrix polymer.Type: ApplicationFiled: September 24, 2008Publication date: April 9, 2009Applicant: INVISTA NORTH AMERICA S.A. R.L.Inventors: THOMAS EDWARD SCHMITT, John Alan Barnes
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Publication number: 20090092832Abstract: The invention relates to glass strands coated with a sizing composition which comprises (in % by weight): 25 to 90% of at least one film-forming agent; 3 to 25% of at least one coupling agent; and 2 to 18% of nanoparticles. The invention also relates to a sizing composition that can coat said strands, to the method of obtaining it and to the composites incorporating such strands. The glass strands of the invention have a high wet aging resistance.Type: ApplicationFiled: December 18, 2006Publication date: April 9, 2009Applicant: SAINT-GOBAIN TECHNICAL FABRICS EUROPEInventor: Patrick Moireau
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Publication number: 20090087657Abstract: To provide a glass fiber for reinforcing rubber product which is excellent in the impregnation of an RFL treating agent to a glass fiber strand, has less blister of the coating layer made of the RFL treating agent, has excellent appearance and physical performance, and has little fluctuation of quality; and a method for producing such a glass fiber. An RFL treating agent comprising, as a main components, a rubber latex and a water-soluble condensate of resorcinol with formaldehyde, is impregnated to a glass fiber strand having from 200 to 2,000 glass filaments bundled, so that it is impregnated to each glass fiber strand independently without drawing such glass fiber strands together, and then, the RFL treating agent impregnated to the glass fiber strand, is solidified to form a coating layer, to obtain a coated glass fiber.Type: ApplicationFiled: December 12, 2006Publication date: April 2, 2009Applicant: OCV INTELLETUAL CAPITAL LLC.Inventors: Koji Hattori, Kimihiro Ando
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Publication number: 20090087656Abstract: A reinforced panel comprises at least two strength-providing strands and an insulating filler wherein the filler is situated around the strands such that a combination of the strands and the filler form a cohesive structure. Additionally, a ratio of the strength-providing strands to the filler is such that the panel is strong and rigid and is capable of providing insulation.Type: ApplicationFiled: March 5, 2008Publication date: April 2, 2009Inventor: Jay Plaehn
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Patent number: 7507987Abstract: A method for making packets of nanostructures is presented. The method includes etching trenches in a silicon substrate. Nanostructures are grown in the trenches. The trenches are then filled with a filler material. Any filler and/or nanostructures material extending beyond the trench is removed. The silicon substrate is etched away, resulting in a nanopellet surrounding the nanostructures and wherein each nanostructures has a generally uniform length and direction. Nanostructures can comprise nanotubes, nanowires and nanofibers. The method eases the manipulation of nanostructures while providing geometrical uniformity.Type: GrantFiled: October 9, 2003Date of Patent: March 24, 2009Assignee: Massachusetts Institute of TechnologyInventors: Sang-Gook Kim, Tarek A. El Aguizy, Jeung-hyun Jeong, Yongbae Jeon
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Publication number: 20090075080Abstract: A coated fiber comprising an inner fiber comprising an aramid and an outer coating comprising a polyamic acid or a polyetherimide deposited on the inner fiber is provided. The outer coating comprising the polyamic acid may be subjected to curing to form a polyetherimide coating. Also provided are methods for making the coated fiber wherein the coated fiber comprises an inner fiber comprising an aramid and an outer coating comprising a polyamic acid or a polyetherimide.Type: ApplicationFiled: September 19, 2007Publication date: March 19, 2009Applicant: GENERAL ELECTRIC COMPANYInventors: Rainer Koeniger, Glen David Merfeld, Prameela Susarla, Sameet Jain
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Publication number: 20090068464Abstract: An improved reinforcing element, and devices and methods for producing a wrapped assembly reinforcing element comprising at least one center core member formed from at least one center core strand, wherein the at least one center core member is wrapped with a reinforced thermoplastic resin comprising complete fiber strand dispersion and wet out without breaking fiber filaments after cutting the fiber to a designated length in the wrapping resin. The resulting wrapped assembly may be used in a variety of ways, including virtually any construction project requiring a lightweight reinforcing member with high tensile and compression strength.Type: ApplicationFiled: September 4, 2008Publication date: March 12, 2009Applicant: PlastiComp, LLCInventor: Stephen T. Bowen
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Publication number: 20090068465Abstract: The present invention is generally directed to nanocomposite thermoelectric materials that exhibit enhanced thermoelectric properties. The nanocomposite materials include two or more components, with at least one of the components forming nano-sized structures within the composite material. The components are chosen such that thermal conductivity of the composite is decreased without substantially diminishing the composite's electrical conductivity. Suitable component materials exhibit similar electronic band structures. For example, a band-edge gap between at least one of a conduction band or a valence band of one component material and a corresponding band of the other component material at interfaces between the components can be less than about 5kBT, wherein kB is the Boltzman constant and T is an average temperature of said nanocomposite composition.Type: ApplicationFiled: November 19, 2008Publication date: March 12, 2009Applicants: MASSACHUSETTS INSTITUTE OF TECHNOLOGY (MIT), THE TRUSTEES OF BOSTON COLLEGEInventors: Gang Chen, Mildred Dresselhaus, Zhifeng Ren
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Publication number: 20090026128Abstract: Essentially at most two-dimensional shaped article (A) comprising at least one polymer composition (C) comprising at least one high glass transition temperature sulfone polymer (P). Methods of making it and uses thereof.Type: ApplicationFiled: September 30, 2005Publication date: January 29, 2009Applicant: SOLVAY ADVANCED POLYMERS, L.L.C.Inventors: Geoffrey Scott Underwood, Brian A. Stern, Anthony Lippl, Shari Weinberg, Selvaraj Savariar, Mohammad Jamal El-Hibri
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Publication number: 20090011234Abstract: The present invention relates to cellulose fiber containing 500 to 2000 of filaments and having homogeneous physical properties and the multi-filaments according to the present invention is characterized in that the strength and the breaking elongation of the multi-filaments are 4 to 9 g/d and 4 to 15%, respectively. In particular, the present invention is characterized in that each mono-filament selected 100 strands from every three part divided from multi-filaments has properties as following: (a) 3 to 9 g/d in average strength, 7 to 15% in average breaking elongation and 0.035 to 0.055 in by birefringence, (b) the differences of the above three parts are below 1.0 g/d in average strength, 1.5% in breaking elongation and 0.7 denier in denier, (c) the CV (%) (coefficient of variation) of the above three parts are below 10%, and (d) the birefringence differences of the above three parts are below 0.004.Type: ApplicationFiled: September 23, 2005Publication date: January 8, 2009Applicant: HYOSUNG CORPORATIONInventors: Ik-Hyun Kwon, Soo-Myung Choi, Tae-Jung Lee, Jae-Shik Choi
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Publication number: 20080318042Abstract: A pultrusion machine for forming a laminated composite with a predetermined profile and the product obtained. The apparatus comprises at least two spools for supplying elongated reinforcements. A collator receives the elongated reinforcements and arranges the reinforcements in layered relationship to form a layered elongated bundle. A supply member wets the layered elongated bundle with plastisol to form a wetted elongated bundle. The wetted elongated bundle is transported through a pultrusion die wherein the wetted layered bundle is molded into the predetermined profile. A converting apparatus cures, or converts, the wetted layered bundle into the layered composite. A particularly preferred embodiment is an extrusion comprising a reinforcing material wherein said reinforcing material comprises a fiber reinforced plastisol.Type: ApplicationFiled: September 5, 2008Publication date: December 25, 2008Inventor: Walter W. Kusek
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Patent number: 7455727Abstract: A method of producing a water resistant fiber-cement product. The water repelling agent can be added or applied to the fiber-cement or indeed the material forming the fiber cement at a number of different stages in the process. The resultant material has increased water impermeability over conventional fiber-cement products.Type: GrantFiled: April 9, 2002Date of Patent: November 25, 2008Assignee: James Hardie International Finance B.V.Inventor: Simon Trevethick
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Publication number: 20080280715Abstract: There is disclosed a glass-fiber coating liquid for forming a coating layer on a glass fiber cord, prepared in the form of an emulsion by dispersing a phenol resin, a vinylpyridine-stylene-butadiene copolymer (B) and a chlorosulfonated polyethylene (C) into water to form a coating layer on a glass fiber cord, wherein the phenol resin is a monohydroxybenzene-formaldehyde resin (A) obtained by reaction of monohydroxybenzene (D) and formaldehyde (E).Type: ApplicationFiled: September 27, 2005Publication date: November 13, 2008Applicant: CENTRAL GLASS COMPANY, LIMITEDInventors: Toshiya Monden, Hiroyuki Hyakutake, Katsuhiko Ogaki
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Publication number: 20080268243Abstract: The present disclosure describes a coating for a surgical filament including a vinyl lactam polymer and a lactone polymer.Type: ApplicationFiled: April 25, 2007Publication date: October 30, 2008Inventors: Joshua Stopek, Brian Cuevas, Joseph Hotter
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Patent number: 7438975Abstract: The invention pertains to an aramid filament yarn provided with a finish comprising >1.5 wt. % of an organic substance with a conductivity of >4 mS/cm, measured as a 50 wt. % finish composition in water at 20° C., having a specific electric resistance of the yarn <2.5·104 Ohm·cm, and to a method of making said yarn. Further, the invention pertains to the use of said finish for making conductive cables, particularly for making elevator cables.Type: GrantFiled: December 6, 2003Date of Patent: October 21, 2008Assignee: Teijin Aramid B.V.Inventors: Stephanus Willemsen, Harmannus Aaldrik Maria Stuut
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Publication number: 20080254290Abstract: The invention relates to a glass-strand sizing composition comprising the following constituents, in the following contents by weight expressed as percentages of the solids: 10 to 99% of at least one copolymer chosen from ethylene/vinyl acetate or ethylene/(meth)acrylic acid copolymers; 1 to 40% of at least one coupling agent; and 0 to 90% of polypropylene grafted by at least one unit derived from at least one monomer containing one or more functional groups that can react with the coupling agent. The glass strands obtained are intended for producing glass-strand granules with a high glass content for the production of composite parts having a thermoplastic matrix reinforced by chopped glass strands using the injection-moulding technique.Type: ApplicationFiled: May 2, 2006Publication date: October 16, 2008Applicant: SAINT-GOBAIN VETROTEX FRANCE S.A.Inventors: Jean-Philippe Gasca, Yohann Barnaud
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Publication number: 20080248302Abstract: A rod member includes a rod-shaped reinforcing layer formed of a fiber, a resin layer formed on an outer circumference of the reinforcing layer, and a garnet layer formed in/on the resin layer.Type: ApplicationFiled: January 19, 2005Publication date: October 9, 2008Applicant: RE-FORM SYSTEM CO., LTD.Inventor: Sang Keun Lee
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Publication number: 20080248303Abstract: A method of reducing the emission of formaldehyde from fibrous insulation having thereon a formaldehyde-based binder is provided. In particular, an amine-based compound is added after the formaldehyde-based has been cured and prior to the insulation being processed for storage or shipment to customers. The amine-based compound may be added after binder cure and either prior to the insulation product being cut into nodules or after the insulation product has been cut into nodules. Non-limiting examples of amine-based compounds include urea, melamine and/or dicyandiamide. Once applied to the insulation product, the amine-based compound acts as a formaldehyde scavenger to reduce the emission of formaldehyde into the air. In preferred embodiments, the amine-based compound is added with an antistatic agent.Type: ApplicationFiled: April 9, 2007Publication date: October 9, 2008Inventor: Anthony L. Maurer
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Publication number: 20080246020Abstract: A nanowire according to the present invention includes: a nanowire body made of a crystalline semiconductor as a first material; and a plurality of fine particles, which are made of a second material, including a constituent element of the semiconductor, and which are located on at least portions of the surface of the nanowire body. The surface of the nanowire body is smooth.Type: ApplicationFiled: June 18, 2007Publication date: October 9, 2008Inventors: Takahiro Kawashima, Tohru Saitoh, Kenji Harada
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Publication number: 20080242172Abstract: Described are polyester monofilaments having a surficially applied glycidyloxyalkylenetrialkoxysilane-containing finish. They are notable for particularly good adhesion in elastomers.Type: ApplicationFiled: February 28, 2008Publication date: October 2, 2008Inventors: Kurt-Gunter Berndt, Rex Delker, Herbert Hofmann
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Patent number: 7422789Abstract: A cathodic protection polymeric compound is disclosed. The compound has flowable material to serve as a binder, carbonaceous conductive media dispersed in the flowable material, sacrificial metal particles also dispersed in the flowable material. The carbonaceous conductive media serve as a carbon-based electron transfer agent and are in the form of particles, platelets, fibers, tubes, or combinations thereof. A galvanic circuit is formed by the metal particles serving as anodes, a metal substrate to be protected serving as the cathode, and the conductive media serving as the electron transfer agent. The flowable material can also include an ionically conductive or an inherently conductive polymer to further enhance the galvanic circuit.Type: GrantFiled: October 22, 2004Date of Patent: September 9, 2008Assignee: Polyone CorporationInventors: Roger W. Avakian, Stephen D. Horton, John H. Hornickel
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Patent number: 7423105Abstract: A curable composition for coating an optical fiber that includes an aliphatic-aromatic oxyglycidyl(meth)acrylate monomeric component, an aliphatic-(hetero)cyclic oxyglycidyl(meth)acrylate monomeric component, or a combination thereof, and an ethylenically unsaturated urethane or urea oligomeric component. Cured products of the composition and optical fibers that contain cured primary coatings formed from such compositions are also disclosed. The resulting optical fibers and optical fiber ribbons containing them can be used for data transmission in telecommunications systems.Type: GrantFiled: September 30, 2005Date of Patent: September 9, 2008Assignee: Corning IncorporatedInventor: Michael James Winningham
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Publication number: 20080213560Abstract: The invention relates to glass strands and glass strand structures coated with an electrically conducting coating composition which comprises (as % by weight of solid matter): 6 to 50% of a film-forming agent, preferably 6 to 45%, 5 to 40% of at least one compound chosen from plasticizing agents, surface-active agents and/or dispersing agents, 20 to 75% of electrically conducting particles, 0 to 10% of a doping agent, 0 to 10% of a thickening agent, 0 to 15% of additives. The invention also relates to the electrically conducting coating composition used to coat the said strands and strand structures, to their process of manufacture and to the composite materials including these strands or strand structures. Application to the preparation of structures and composite materials which can be heated by the Joule effect or which can be used for electromagnetic shielding.Type: ApplicationFiled: February 11, 2005Publication date: September 4, 2008Applicant: Saint- Gobain Vetrotex France S.A.Inventors: Patrick Moireau, Claire Ceugniet
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Patent number: 7419721Abstract: The present invention is directed to sizing compositions for glass fibers and glass fiber reinforced thermoplastic resins. The sizing composition comprises a maleic anhydride copolymer. Thermoplastic polyamide resin articles reinforced with glass fibers at least partially coated with a residue of the sizing composition can demonstrate a surprising improvement in strength of the reinforced polyamide resin when lubricated with a fatty acid metal salt and in the hydrolysis resistance when exposed to boiling water/ethylene glycol medium.Type: GrantFiled: December 19, 2003Date of Patent: September 2, 2008Assignee: PPG Industries Ohio, Inc.Inventors: Henri Beerda, Ronald Boelman, Jacob Cornelis Dijt, Bertho van de Heisteeg, Johannes Leonardus Tabak
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Publication number: 20080199697Abstract: The present invention relates to a composition for reinforcing strands, characterized in that it includes at least one additive capable of acting at the strands/matrix interface so as to improve the fire resistance of the strands/matrix composite, and it also relates to the strands and composites obtained.Type: ApplicationFiled: June 27, 2006Publication date: August 21, 2008Applicant: SAINT-GOBAIN TECHNICAL FABRICS EUROPEInventors: Jean-Philippe Gasca, Carine Chivas, Ann Bergeret, Jose-Marie Lopez-Cuesta
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Patent number: 7413804Abstract: A method of coating a polymeric resinous thin film on the surface of a tubular braid reinforcing material, wherein a polymeric resinous coating material is spin coated on the surface of an annular braid, the coated braid is extruded into the air, and the coating material is coagulated in a coagulating bath, wherein the ratio of the spin coating feed ratio (Q) one the braid advancing speed (v) with respect to a unit outer diameter (D0) of the braid is represented by the formula k ? ( g ? / ? m 2 ) = Q ? ( g ? / ? min ) v ? ( m ? / ? min ) ? D 0 ? ( m ) within the range of 200 to 3,000 g/m2.Type: GrantFiled: January 5, 2007Date of Patent: August 19, 2008Assignee: Kolon Industries, Inc.Inventors: Moo-Seok Lee, Sung-Hak Choi, Yong-Cheol Shin
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Publication number: 20080193754Abstract: A glass body with at least one curve is formed from a glass blank in bar form in a bending device for bending the glass blanks. The bending device has grippers which are movable in relation to one another. The glass blank is taken up by the grippers and clamped. Subsequently, the bending region between the grippers is heated up to a bending temperature by heating means. After that, the grippers are moved in a predetermined way, the bending region being freely bent. The advantageous effects of the invention are seen as being that any desired curves can be produced on glass blanks without requiring moulds that rely on pressing or contact. The free bending takes place without touching the surface in the heated-up bending region, so that instances of damage to the surface are avoided. This allows curved glass bodies with good optical properties to be produced.Type: ApplicationFiled: January 22, 2008Publication date: August 14, 2008Applicant: Schott AGInventor: Martin Cramer
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Patent number: 7404989Abstract: A composite article is provided which comprises a silicone rubber matrix reinforced with a polyaramid textile. The polyaramid textile is bonded to the silicone rubber by a bonding composition that comprises at least an acryloxy organosilane. The article is manufactured by dipping polyaramid textile into an organosilane dip that comprises an acyrloxy organosilane. The so-dipped polyaramid textile is then bonded to silicone rubber.Type: GrantFiled: April 1, 2004Date of Patent: July 29, 2008Assignee: Milliken & CompanyInventor: Dany Felix Maria Michiels
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Patent number: 7399330Abstract: An abrasive agglomerate includes a plurality of abrasive grains bonded together in a three-dimensional structure by a substantially continuous, non-porous inorganic binder, wherein the abrasive grains have an average size of between about 0.5 microns and about 1500 microns, the inorganic binder is less than about 75 percent, by weight, of the abrasive agglomerate, and the bulk density of the abrasive agglomerate is less than about 90 percent of the bulk density of the abrasive grains.Type: GrantFiled: October 18, 2005Date of Patent: July 15, 2008Assignee: 3M Innovative Properties CompanyInventors: Mark G. Schwabel, Dwight D. Erickson
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Patent number: 7396798Abstract: A new method for preparing a supported catalyst is herein provided. A carbon nanotube structure such as a rigid porous structure is formed from single walled carbon nanotubes. A metal catalyst is then loaded or deposited onto the carbon nanotube structure. The loaded carbon nanotube is preferably ground to powder form.Type: GrantFiled: November 16, 2005Date of Patent: July 8, 2008Assignee: Hyperion Catalysis International, Inc.Inventors: Jun Ma, David Moy, Howard Tennent, Robert Hoch, Alan Fischer
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Patent number: 7393576Abstract: The articles of the present invention are directed to flocked articles having a plurality of conductively coated concentric multi-component flock fibers. The flock fibers are: adhered between a release adhesive layer and a permanent adhesive layer; orientated substantially perpendicular to the release adhesive and permanent adhesive layers; and maintained substantially parallel to one another along their entire length. In one embodiment the multi-component flock fibers are bi-component fibers having an outer polymer composition of poly(cyclohexylene-dimethylene terephthalate).Type: GrantFiled: January 14, 2005Date of Patent: July 1, 2008Assignee: High Voltage Graphics, Inc.Inventor: Louis Brown Abrams
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Patent number: 7393881Abstract: A telecommunication element having a durable color identifying polymeric coating thereon is disclosed. The telecommunication element comprises an elongated communication transmission medium, such as an optical fiber or an optical fiber ribbon, and a radiation cured polymeric coating having an identifying color applied on at least a portion of the transmission medium. The identifying color in the polymeric coating is provided by chromophore molecules that are covalently bonded thereto. Coating compositions and a method are also disclosed.Type: GrantFiled: December 21, 2005Date of Patent: July 1, 2008Assignee: ALCATELInventor: Robert W. Greer, IV
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Publication number: 20080143010Abstract: A coating composition that improves fiber dispersion and mechanical properties in reinforced composite articles is provided. The coating composition includes a chemical compound that acts as an emulsifier, a surfactant, and a melt viscosity reducer. In at least one exemplary embodiment, the chemical compound is an ethoxylated fatty acid or an ethoxylated fatty alcohol compound. The coating composition may be applied to the reinforcing fiber strand after a conventional sizing composition has been applied to the reinforcing fiber and prior to wire coating the fiber with a thermoplastic resin. The coated/sized fiber strands may be chopped to form chopped strand segments and then densified or compacted to form a densified reinforcing fiber product, such as pellets. These pellets, in turn, may be used to form polymer reinforced composite articles. In alternative embodiments, the coating composition may be applied directly to the reinforcement fibers directly after fiber formation under the bushing.Type: ApplicationFiled: December 15, 2006Publication date: June 19, 2008Inventors: Sanjay Kashikar, Jean-Marc P. Henrion, Philip T. Van Den Brande
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Patent number: 7351672Abstract: A convertible roofing material which includes an outer fabric layer formed at least partially of polymeric coated, core yarns such as a polyester core coated with polyvinyl chloride.Type: GrantFiled: January 18, 2002Date of Patent: April 1, 2008Assignee: Glen Raven, Inc.Inventors: Albert E. Johnson, John B. Coates