By Treating Occluded Solids Patents (Class 264/49)
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Patent number: 7867417Abstract: Hydrophilic porous polymeric membranes with high permeabilities, and processes for the preparation thereof are disclosed. Membranes may be prepared by including a preferably hydrophilic cross-linkable component such as PVP (either by inclusion into the polymer dope prior to casting, or coating or quenching cast membranes); and treating the polymeric microfiltration or ultrafiltration membrane with a crosslinking agent to cross-link said cross-linkable component. Preferred cross-linking agents include Fenton's reagent.Type: GrantFiled: December 2, 2005Date of Patent: January 11, 2011Assignee: Siemens Water Technologies Corp.Inventor: Daniel Mullette
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Publication number: 20100308486Abstract: Expandable or pre-expanded thermoplastic particles, e.g. polystyrene particles, used to form foam containers e.g. cups, bowls, are coated with a coating composition comprising a liquid part consisting of a) liquid polyethylene glycol with an average molecular weight of 200 to 800; and a solid part comprising components selected from the group consisting of b) polyolefin wax, e.g. polyethylene wax, c) a metal salt of higher fatty acids, e.g. zinc stearate or calcium stearate; d) polyethylene glycol with an average molecular weight of 900 to 10,000; and e) a fatty bisamide or fatty amide, e.g. ethylene bis-stearamide; and combinations of b) through e). The coating composition prevents or resists leakage of liquids and foods with oil and/or fatty components and improves the rim strength and ATF properties of foam containers.Type: ApplicationFiled: August 19, 2010Publication date: December 9, 2010Applicant: NOVA CHEMICALS INC.Inventors: Jiansheng Tang, David Allen Cowan, Dennis H. Piispanen, Michael T. Williams
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Patent number: 7837913Abstract: Millimeter to nano-scale structures manufactured using a multi-component polymer fiber matrix are disclosed. The use of dissimilar polymers allows the selective dissolution of the polymers at various stages of the manufacturing process. In one application, biocompatible matrixes may be formed with long pore length and small pore size. The manufacturing process begins with a first polymer fiber arranged in a matrix formed by a second polymer fiber. End caps may be attached to provide structural support and the polymer fiber matrix selectively dissolved away leaving only the long polymer fibers. These may be exposed to another product, such as a biocompatible gel to form a biocompatible matrix. The polymer fibers may then be selectively dissolved leaving only a biocompatible gel scaffold with the pores formed by the dissolved polymer fibers.Type: GrantFiled: August 10, 2005Date of Patent: November 23, 2010Assignee: California Institute of TechnologyInventors: Jeff S. Sakamoto, James R. Weiss, Jean-Pierre Fleurial, Adam Kisor, Mark Tuszynski, Shula Stokols, Todd Edward Holt, David James Welker, Christopher David Breckon
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Patent number: 7828998Abstract: Disclosed is a method for making a material having a controlled microstructure, the method including providing particles of a ceramic mineral material, the particles having a metal oxide dopant therein. The particles of the ceramic mineral material are consolidated into larger aggregates of a size relevant to the desired application using standard industrial mixing and pelletizing technology. The aggregates are heated under reducing conditions so that at least part of the dopant is reduced to form a transient, metastable liquid phase among the particles. The liquid phase includes at least part of the reduced dopant and promotes sintering of the particles and forms islands of reduced metal within the material and on the surface of the aggregates.Type: GrantFiled: July 10, 2007Date of Patent: November 9, 2010Assignee: Carbo Ceramics, Inc.Inventors: Walter G. Luscher, John R. Hellmann, Barry E. Scheetz, Brett A. Wilson
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Patent number: 7820328Abstract: An electrochemical cell comprising an electrode, whether it is the cathode of a primary cell or an anode or a cathode of a secondary cell, comprised of a mixture of a robust, high temperature binder along with a sacrificial decomposable polymer is described. The robust binder remains in the electrode throughout formation and processing, and maintains adhesion and cohesion of the cathode during utilization. The sacrificial decomposable polymer is present during the electrode formation stage. However, it is decomposed via a controlled treatment prior to electrode utilization. Upon subsequent high pressure pressing, the void spaces formerly occupied by the sacrificial polymer provides sites where the electrode active material collapses into a tightly compressed mass with enhanced particle-to-particle contact between the active material particles. For a cathode in a primary cell, for example a Li/SVO cell, the result is believed to be improved rate capability, capacity and stability throughout discharge.Type: GrantFiled: July 27, 2007Date of Patent: October 26, 2010Assignee: Greatbatch Ltd.Inventors: Esther S. Takeuchi, Amy C. Marschilok, Randolph Leising
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Publication number: 20100263315Abstract: A molded siding member having a plurality of longitudinal support portions extending substantially the entire length of the member contained therein, each support portion presenting a cross-section generally shaped like that of an I-beam. The support portions, which are parallel and adjacent to each other, are integrally formed with the siding member from cementitious slurry, including gypsum cement and a latex/water mixture, or hydraulic cement. An amount of the slurry is added to a mold in which longitudinally-oriented core elements are provided that displace cementitious slurry between and define adjacent support portions. After sufficient curing, the siding member is removed from the mold and is ready for immediate use and/or further processing. Alternatively, a continuous method is also provided for producing relatively long lengths of the siding that can be cut to an appropriate size, without the need to produce individual siding members of limited size.Type: ApplicationFiled: April 19, 2010Publication date: October 21, 2010Applicant: TAPCO INTERNATIONAL CORPORATIONInventors: John Richard Logan, Thomas J. Baker
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Patent number: 7815826Abstract: Methods of manufacturing an article use three-dimensional printing for a portion of the manufacturing. Three-dimensionally printing is conducted onto a powder bed which contains both organic-solvent-soluble, water-insoluble particles and water soluble, organic-solvent-insoluble particles. The water-soluble particles which may be selected for properties such as size and may include more than one substance. The organic-solvent-insoluble particles may further include at least one substantially insoluble substance such as a member of the calcium phosphate family. Printing may be done using an aqueous binder liquid. After removal of unbound powder, the preform may be exposed to the vapor of an organic solvent which causes the particles of organic-soluble-polymer to fuse to each other. This may further be followed by dissolving out the water-soluble particles, if such particles were present in the powder.Type: GrantFiled: May 12, 2005Date of Patent: October 19, 2010Assignee: Massachusetts Institute of TechnologyInventors: James G. Serdy, Emanuel M. Sachs
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Patent number: 7811507Abstract: A hydrophilic semipermeable hollow-fibre membrane for blood treatment, with an integrally asymmetric structure based on a synthetic polymer. The hollow-fiber membrane possess on its inner surface a separating layer and an adjoining open-pored supporting layer, and has an ultrafiltration rate in albumin solution of 5 to ?25 ml/(h·m2·mmHg). The hollow fiber membrane is free from pore-stabilizing additives and has a maximum sieving coefficient for albumin of 0.005 and a sieving coefficient of cytochrome c that satisfies the equation SCcc?5·10?5·UFRAlb3?0.004·UFRAlb2+0.1081·UFRAlb?0.25.Type: GrantFiled: February 15, 2005Date of Patent: October 12, 2010Assignee: Membrana GmbHInventors: Friedbert Wechs, Arne Gehlen, Bodo Von Harten, Richard Kruger, Oliver Schuster
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Publication number: 20100249702Abstract: A porous balloon or other catheter structure is formed by creating specific size pores for delivering an agent to a body lumen. The pores can be created by passing matter or energy through the surface of the catheter structure, as by a laser or a projectile. In the case of a laser, the catheter structure can be reversed so that the inner surface becomes the outer surface to convert diverging pores into converging pores. In the case of projectiles, a pore size can be achieved by selecting an appropriate size and shaped projectile to obtain the desired characteristic. Alternatively, a material to make the catheter structure can include impurities that can be removed once the catheter structure is set, leaving pores where the material formed around the impurities.Type: ApplicationFiled: March 24, 2009Publication date: September 30, 2010Applicant: ABBOTT CARDIOVASCULAR SYSTEMS INC.Inventors: Jesus Magana, Randolf von Oepen, William E. Webler, Jr., Allan Bradshaw, Kevin J. Ehrenreich
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Publication number: 20100241162Abstract: Described are devices, methods, and systems useful in the treatment of fistulae, and in certain embodiments those having openings extending into the alimentary canal, such as anorectal fistulae. Illustratively, an anorectal fistula can be treated by placing a volumetric construct within the primary opening of the fistula. In certain embodiments, the volumetric construct can include a rolled remodelable material processed to form a substantially unitary body. Advantageous such remodelable materials can include collagenous extracellular matrix materials, such as small intestine submucosa.Type: ApplicationFiled: June 3, 2010Publication date: September 23, 2010Inventors: F. Joseph Obermiller, Michael C. Hiles, Matthew R. Graham, Clay D. Fette
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Patent number: 7799251Abstract: Devices that include hosts having internal microcapillary networks are disclosed. The microcapillary networks are formed from interconnected passageways. The interconnected passageways may be formed by removing a fugitive material from a cured host material that forms the host. The resultant host material has many applications, including use as a microfluidic device in applications ranging from fluid mixing to structural repair.Type: GrantFiled: November 9, 2006Date of Patent: September 21, 2010Assignee: Board of Trustees of University of IllinoisInventors: Daniel Therriault, Jennifer A. Lewis, Scott R. White
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Publication number: 20100205921Abstract: A cordierite-based ceramic honeycomb filter comprising a honeycomb structure having a large number of flow paths partitioned by porous cell walls, and plugs alternately formed in said flow paths on the exhaust-gas-inlet side or the exhaust-gas-outlet side for permitting an exhaust gas to pass through said porous cell walls to remove particulate matter from the exhaust gas, said porous cell walls having porosity of 45-58%, an average pore size of 15-30 ?m, the volume of pores having pore sizes exceeding 50 ?m being more than 10% and 25% or less of the total pore volume, the volume of pores having pore sizes of 100 ?m or more being 1-8% of the total pore volume, the volume of pores having pore sizes of less than 10 ?m being 3-10% of the total pore volume, and said pores having a pore size distribution deviation ? [=log(D20)?log(D80)] of 0.Type: ApplicationFiled: October 14, 2008Publication date: August 19, 2010Applicant: HITACHI METALS, LTD.Inventors: Shunji Okazaki, Toshitaka Ishizawa
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Publication number: 20100190403Abstract: The present invention provides a method for producing a three-dimensional product having a nanoporous surface in which the pore density, pore size or pore size distribution can be easily and readily controlled. The invention combines two techniques: a method for producing a three-dimensional product in which a yarn is knitted or woven to finish into an arbitrary three-dimensional shape, and a method for transforming a surface consisting of a material in which nanoparticles are dispersed in a matrix to a nanoporous surface by immersing the surface in a liquid which dissolves the nanoparticles but does not dissolve the matrix.Type: ApplicationFiled: December 16, 2009Publication date: July 29, 2010Inventor: Takahisa Kusuura
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Publication number: 20100171231Abstract: A solution (42) containing an amphiphilic compound and an organic solvent is cast onto a support (21) to form a casting film (22). A dew point of the air from the outlet (61a) is described as TD, a surface temperature of the casting film (22) is described as TS, and a value ?T is defined as TD-TS. Water droplets (25) are formed by bedewing under a condition of 3° C.??T?30° C. Thereafter the water droplets (25) are grown under a condition of 0° C.<?T?10° C., and the organic solvent is evaporated from the casting film (22). Then the water droplets (25) are evaporated under a condition of TD<TS.Type: ApplicationFiled: March 27, 2007Publication date: July 8, 2010Applicants: FUJIFILM Corporation, National University Corporation Hokkaido UniversityInventors: Masatsugu Shimomura, Hiroshi Yabu, Yasufumi Miki, Hidekazu Yamazaki, Koji Ito
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Publication number: 20100172011Abstract: This semi-electroactive material comprises a self-supporting polymer matrix, inserted into which is an electroactive system comprising or constituted by: at least one electroactive organic compound capable of being oxidized and/or of ejecting electrons and cations acting as compensation charges; or at least one electroactive organic compound capable of being reduced and/or of accepting electrons and cations acting as compensation charges; and ionic charges; and also a solubilization liquid for said semi-electroactive system, said liquid not dissolving said self-supporting polymer matrix, the latter being chosen to provide a percolation pathway for ionic charges, this allowing, under the action of a dielectric current, oxidation and reduction reactions of said electroactive organic compounds, which reactions are necessary to obtain a color contrast.Type: ApplicationFiled: June 25, 2008Publication date: July 8, 2010Applicant: SAINT-GOBAIN GLASS FRANCEInventors: Fabienne Piroux, Gilles Bokobza, Pascal Petit, Jean-Christophe Giron
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Publication number: 20100151310Abstract: A microporous polyethylene membrane made of a polyethylene resin comprising 15% or less by mass of ultra-high-molecular-weight polyethylene having a mass-average molecular weight of 1×106 or more, which is constituted by a dense-structure layer having an average pore diameter of 0.01 to 0.05 ?m, and a coarse-structure layer formed on at least one surface and having an average pore diameter 1.2-fold to 5.0-fold of that of the dense-structure layer, has a high electrolytic solution absorption speed with thickness and air permeability little changing when compressed. Such a microporous polyethylene membrane is produced by extruding a melt blend of the above polyethylene resin and a membrane-forming solvent through a die, cooling the resultant extrudate with a temperature distribution in a thickness direction to provide a gel-like sheet, stretching the gel-like sheet at a temperature from the crystal dispersion temperature of the polyethylene resin +10° C. to the crystal dispersion temperature +30° C.Type: ApplicationFiled: August 3, 2006Publication date: June 17, 2010Applicant: Tonen Chemical CorporationInventors: Kotaro Takita, Shintaro Kikuchi, Kazuhiro Yamada, Teiji Nakamura, Koichi Kono
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Patent number: 7708150Abstract: The invention provides methods for preparing reverse osmosis membranes having improved permeability as well as membranes prepared by such methods.Type: GrantFiled: September 6, 2005Date of Patent: May 4, 2010Assignee: GE Osmonics, Inc.Inventor: Christopher J. Kurth
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Patent number: 7700016Abstract: An apparatus and method for fabricating a three dimensional model from a composite model formed or a plurality of successive layers of model material and sacrificial mold material. Each successive layer is constructed by depositing, drop-by-drop, at least one line of sacrifical mold material delineating at least one boundary of the model material within the layer and thereafter depositing the model material onto all delineated regions of the layer by spray deposition. Each successive layer is completed by a planing process which removes the undesired thickness of both the sacrificial and the model materials. Following completion of the composite model, the sacrificial mold material is removable from the composite model, by a process effecting only the sacrificial mold material, to produce the three dimensional model. A device, for depositing the model material at the rate faster than the rate that the mold material is deposited, is also described.Type: GrantFiled: June 2, 2006Date of Patent: April 20, 2010Assignee: Solidscape, Inc.Inventors: John Theodore Wigand, Calvin McCoy Winey, III, Michael Varanka
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Patent number: 7682536Abstract: A method for producing a microporous material comprising the steps of: providing an ultrahigh molecular weight polyethylene (UHMWPE); providing a filler; providing a processing plasticizer; adding the filler to the UHMWPE in a mixture being in the range of from about 1:9 to about 15:1 filler to UHMWPE by weight; adding the processing plasticizer to the mixture; extruding the mixture to form a sheet from the mixture; calendering the sheet; extracting the processing plasticizer from the sheet to produce a matrix comprising UHMWPE and the filler distributed throughout the matrix; stretching the microporous material in at least one direction to a stretch ratio of at least about 1.5 to produce a stretched microporous matrix; and subsequently calendering the stretched microporous matrix to produce a microporous material which exhibits improved physical and dimensional stability properties over the stretched microporous matrix.Type: GrantFiled: August 27, 2008Date of Patent: March 23, 2010Assignee: Daramic LLCInventors: Eric H. Miller, Joseph G. Yaritz, Mark T. Demeuse, J. Kevin Whear
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Patent number: 7677398Abstract: The invention provides a process for improving the antifouling properties and for increasing the selectivity of commercial composite polyamide nanofiltration (NF) and reverse osmosis (RO) membranes comprising circulating a low concentration of water soluble monomers and an initiating redox couple in an aqueous solvent, without transverse pressure over the surface of the membrane thereby effecting a free-radical graft polymerization on the surface of the membrane.Type: GrantFiled: September 4, 2005Date of Patent: March 16, 2010Assignee: Ben Gurion University of the Negev Research and Development AuthorityInventors: Sophia Belfer, Rosalia Fainstein, Luba Kesselman, Charles Linder
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Publication number: 20100059689Abstract: Provided is an ionization emitter which can reduce a dead volume without deteriorating separating capacity. An ionization emitter (2) is provided with a tip (1) composed of a columnar or conical porous self-standing structure, and a channel for supplying a solution sample into the tip (1) from the base end side of the tip (1). The channel is formed by filling a pipe line with a packing, and the tip (1) is exposed from the pipe line of the channel. The packing and the porous self-standing structure constituting the tip (1) have an integrated structure composed of a same porous body formed at the same time.Type: ApplicationFiled: January 7, 2008Publication date: March 11, 2010Inventors: Shigeyoshi Horiike, Hiroaki Nakanishi
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Patent number: 7674408Abstract: The present invention provides a biomedical, biocompatible, polymeric foam scaffold suitable for use in the repair and regeneration of tissue and which contains located therein a network of, branched channels that are effective to encourage and facilitate vascularization and tissue growth within the scaffold and to methods for making such biomedical scaffolds.Type: GrantFiled: September 19, 2005Date of Patent: March 9, 2010Assignee: Ethicon, Inc.Inventors: Kelly R. Brown, Mora C. Melican, Iksoo Chun
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Publication number: 20100057196Abstract: A wall, for example the wall of a vascular graft, has multiple channels within it. The channels may be used to hold drugs or reinforcing fibers. The channels may have a predetermined roughness. The channels may be formed by coextrusion using a soluble material, for example, to define the channels and then dissolving them to open the channels in the extrudate.Type: ApplicationFiled: October 12, 2007Publication date: March 4, 2010Applicant: C.R. Bard, Inc.Inventor: Chandrashekhar P. Pathak
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Patent number: 7658872Abstract: The invention provides methods for preparing reverse osmosis membranes having improved permeability as well as membranes prepared by such methods.Type: GrantFiled: March 3, 2003Date of Patent: February 9, 2010Assignee: GE Osmonics, Inc.Inventor: Christopher J. Kurth
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Publication number: 20100025876Abstract: The present invention relates to a method of manufacturing a porous article, in particular the anode of a valve action material based solid state capacitor, comprising the steps of combining a water soluble polymeric binder and particulate material before pressing the particulate material and the subsequent step of removing the binder form the pressed pellet. Thus, the present invention also relates to a method of removing a water soluble polymeric binder from pressed particulate material and to a composition comprising a water soluble polymeric binder for forming the anode of a valve action material based solid state capacitor.Type: ApplicationFiled: June 29, 2007Publication date: February 4, 2010Inventors: Martin Biler, Ivana Zednickova, Tomas Karnik, Zdenek Sita
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Patent number: 7635513Abstract: A heat resistant microporous membrane containing a thermoplastic resin having a crystalline melting point of 140-300° C. and having a layer structure formed in the direction of membrane thickness, said layer structure containing 5-100% of a layer defined by the following (A) and 95-0% of a layer defined by the following (B): (A) a layer in which the micropores are intra-spherulitic voids, and (B) a layer in which the micropores are intra-spherulitic voids and inter-spherulitic voids.Type: GrantFiled: October 20, 2000Date of Patent: December 22, 2009Assignee: Asahi Kasei Medical Co., Ltd.Inventors: Izumi Hoshuyama, Fujiharu Nagoya, Ichiro Koguma
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Patent number: 7632439Abstract: Porous polymeric membranes including HALAR® (poly(ethylene chlorotrifluoroethylene)) and related compounds and the methods of production thereof which avoid the use of toxic solvents. Preferred solvents, coating agents and pore forming agents are citric acid ethyl ester or glycerol triacetate. The membranes may be in the form of a hollow fiber or flat sheet, and may include other agents to modify the properties of the membranes, such as the hydrophilic/hydrophilic balance. Leachable agents may also be incorporated into the membranes.Type: GrantFiled: January 31, 2007Date of Patent: December 15, 2009Assignee: Siemens Water Technologies Corp.Inventors: Daniel Mullette, Heinz-Joachim Muller
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Publication number: 20090297850Abstract: Disclosed is a hollow fiber that includes a hollow positioned at the center of the hollow fiber, macropores positioned at adjacent to the hollow, and mesopores and picopores positioned at adjacent to macropores, and the picopores are three dimensionally connected to each other to form a three dimensional network structure. The hollow fiber includes a polymer derived from polyimide, and the polyimide includes a repeating unit obtained from aromatic diamine including at least one ortho-positioned functional group with respect to an amine group and dianhydride.Type: ApplicationFiled: May 19, 2009Publication date: December 3, 2009Applicant: IUCF-HYU(Industry-University Cooperation Foundation Hanyang University)Inventors: Chul-Ho Jung, Sang-Hoon Han, Young-Moo Lee, Ho-Bum Park
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Publication number: 20090282982Abstract: Disclosed is a hollow fiber that includes a hollow positioned at the center of the hollow fiber, macropores positioned at adjacent to the hollow, and mesopores and picopores positioned at adjacent to macropores, and the picopores are three dimensionally connected to each other to form a three dimensional network structure. The hollow fiber includes a polymer derived from polyamic acid, and the polyamic acid includes a repeating unit obtained from aromatic diamine including at least one ortho-positioned functional group with respect to an amine group and dianhydride.Type: ApplicationFiled: May 19, 2009Publication date: November 19, 2009Applicant: IUCF-HYU (Industry-University Cooperation Foundation Hanyang University)Inventors: Chul-Ho JUNG, Sang-Hoon HAN, Young-Moo LEE, Ho-Bum PARK
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Publication number: 20090280313Abstract: Provided is a porous humidity-control tile including about 40% to about 95% by weight of diatomite, and one or more of ochre, red clay, kaolin, zeolite, illite, vermiculite, feldspar, pottery stone, and pyrophyllite. The porous humidity-control tile has about 10 vol % to 80 vol % of cellular spherical pores having a size corresponding to a size of hollow pore forming material that is removable by heat treatment. The porous humidity-control tile has a rate of moisture adsorption/desorption per unit weight in a range from about 20 g/kg to about 60 g/kg and a rate of moisture adsorption/adsorption per unit area in a range from about 150 g/m2 to about 450 g/m2. Therefore, the porous humidity-control tile can be light, and the amount of adsorption/desorption per unit weight of the porous humidity-control tile can be improved.Type: ApplicationFiled: April 10, 2009Publication date: November 12, 2009Inventors: In Hyuck Song, Hai Doo Kim, Young Wook Kim
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Publication number: 20090246487Abstract: Provided is a microporous material including (a) a polyolefin matrix which contains ultrahigh molecular weight polyolefin having a molecular weight greater than 7 million grams per mole and 30 to 80 weight percent high density polyolefin, (b) finely divided particulate filler having a density ranging from 2.21 to 3.21 grams per cubic centimeter distributed throughout the matrix, and (c) at least 35 percent by volume of a network of interconnecting pores communicating throughout the microporous material. The microporous material has a density ranging from 0.6 to 0.9 g/cc, a Sheffield smoothness of less than or equal to 40, and an air flow rate of 1000 or more Gurley seconds. Printed electronic devices prepared from and methods of making the microporous material also are provided.Type: ApplicationFiled: June 10, 2009Publication date: October 1, 2009Applicant: PPG INDUSTRIES OHIO, INC.Inventors: James L. Boyer, Luciano M. Parrinello, Paul L. Benenati, Narayan K. Raman, Pamela L. Campbell, Joseph P. Kovacs
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Publication number: 20090214850Abstract: In porous ceramic for slide member including independent pores having a pore size of 5 ?m or more, the independent pore is flattened body having minor axis in a direction perpendicular to a sliding surface, and a cross sectional area (S1) of an independent pore at a cross section perpendicular to the sliding surface is 95% or less of an area (S2) of a complete round having a diameter which is the same length as a major axis of the cross section of the independent pore, and in a cumulative distribution curve of pore sizes of independent pores in a plane parallel to the sliding surface, a ratio (P75/P25) of a pore size of cumulative 75% by volume (P75) to a pore size of cumulative 25% by volume (P25) is 1.9 or less. The porous ceramic can be suitably used as slide member such as seal ring.Type: ApplicationFiled: December 22, 2005Publication date: August 27, 2009Applicant: KYOCERA CORPORATIONInventors: Takeshi Hara, Shinichiro Masuyama
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Publication number: 20090214853Abstract: A polymeric composite foam is disclosed where the continuous phase is a foamed phenolic/furan polymer and the disperse phase is a foamed polystyrene polymer. The composite has a preferred density in the range 25-50 kg/m3 and the composites exhibit good thermal insulation and fire resistant properties. The process for preparing the composites is relatively low cost.Type: ApplicationFiled: April 9, 2009Publication date: August 27, 2009Applicant: Styrophen International Pty Ltd.Inventors: Per Ingmar Quist, Anthony Jacob John
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Publication number: 20090169863Abstract: A method for making a heat dissipating device having an irregular porous structure includes the steps of: (a) blending a low temperature combustible solid material, a solid binder component, and a heat-conducting component to form a mixture; (b) molding the mixture to form a molded article by heating the mixture at a temperature that is higher than a melting temperature of the solid binder component, that is lower than a melting temperature of the heat-conducting component, and that is sufficiently high to burn or melt out the low temperature combustible solid material; and (c) cooling the molded article.Type: ApplicationFiled: March 28, 2008Publication date: July 2, 2009Inventor: CHIN-KUANG LUO
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Patent number: 7537718Abstract: The present disclosure relates to improved efficient and effective systems and methods of manufacturing hydrophilic polyethersulfone (PES) membrane suitable for commercial applications and the resultant hydrophilic polyethersulfone (PES) membrane suitable for commercial applications produced thereby and includes methods of manufacturing hydrophilic polyethersulfone (PES) membrane comprising the acts of: providing hydrophobic PES membrane; prewetting the hydrophobic PES membrane in a sufficient amount of a liquid having a sufficiently low surface tension; exposing the wet hydrophobic PES membrane to a sufficient amount of an aqueous solution of oxidizer; and after the exposing act, heating the hydrophobic PES membrane for a sufficient time at a sufficient temperature and methods of manufacturing hydrophilic polyethersulfone (PES) membrane comprising the acts of: providing gel PES membrane; exposing the gel PES membrane to a sufficient amount of an aqueous solution of oxidizer; and after the exposing act, heatiType: GrantFiled: October 13, 2005Date of Patent: May 26, 2009Assignee: 3M Innovative Properties CompanyInventors: Michael Mezhirov, Eshan B. Yeh, Richard Sale
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Publication number: 20090087641Abstract: A method for making a porous material, includes melt-blending two or more non-miscible polymers to obtain a co-continuous melt, solidifying the melt to obtain a solid mass consisting of two co-continuous polymer phases, and selectively extracting one of the co-continuous phases thereby creating within the solid mass an essentially continuous pore network having an internal surface. The method further includes replicating the internal surface of the pore network within the solid mass by coating the internal surface with successive layers of materials, and selectively extracting the solid mass without extracting the layers of materials, to thereby yield the product porous material, formed of the layers of materials. The material has a void fraction higher than about 75%, and mainly having essentially fully interconnected sheath-like non-spherical pores and essentially non-fibrous walls.Type: ApplicationFiled: November 14, 2006Publication date: April 2, 2009Inventors: Basil D. Favis, Pierre Sarazin, Xavier Roy
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Publication number: 20090057940Abstract: This invention provides a method for recompressing expanded or exfoliated graphite to produce a less anisotropic, flexible graphite foil having a thickness-direction electrical conductivity no less than 15 S/cm. In one preferred embodiment, the method comprises: (a) providing a mixture of expanded or exfoliated graphite flakes and particles of non-expandable graphite or carbon, wherein the non-expandable graphite or carbon particles are in the amount of between about 3% and 70% by weight based on the total weight of the particles and the exfoliated graphite; (b) compressing the mixture in at least a first direction to a pressure within the range of from about 0.04 MPa to about 350 MPa into a first cohered mixture; and (c) compressing this first cohered mixture in a second direction, different from the first direction, to a pressure sufficient to produce said flexible graphite foil having a bulk density within the range of from about 0.1 g/cm2 to about 2.0 g/cm2.Type: ApplicationFiled: September 4, 2007Publication date: March 5, 2009Inventors: Aruna Zhamu, Jinjun Shi, Jiusheng Guo, Bor Z. Jang
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Patent number: 7479300Abstract: A composite polyamide reverse osmosis membrane and method of producing same. In a preferred embodiment, the membrane is made by coating a porous polysulfone support with an aqueous solution containing 2 wt % m-phenylenediamine (MPD), and 0.1 wt % di(ethylene glycol) hexyl methyl ether. Next, the excess solution is removed, and the coated support is dipped in 0.1 wt % organic solvent solution of trimesoyl chloride (TMC) in a mixture of alkanes having from 8 to 12 carbon atoms. After draining the TMC solution off, the resulting composite membrane is air dried and then rinsed in a basic aqueous solution. The resultant membrane exhibits a flux of 21.3 gfd and a salt rejection of 98.9% when used at 225 psi for an aqueous solution containing 2000 ppm of NaCl.Type: GrantFiled: March 30, 2005Date of Patent: January 20, 2009Assignee: Woongjin Chemical Co., Ltd.Inventors: Ja-Young Koo, Sung Pyo Hong, Jong Hwa Lee, Jun Suk Kim
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Publication number: 20090010823Abstract: The present invention provides new microreactor systems, catalysts, and chemical processes. Methods of making novel catalysts and reaction apparatus are also described.Type: ApplicationFiled: January 15, 2008Publication date: January 8, 2009Applicant: Velocys Corp.Inventors: Terry J. Mazanec, Yong Wang, Laura J. Silva, David P. Vanderwiel
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FILLER-DISPERSED MELT-KNEADED PRODUCTS, MOLDED RESIN PRODUCTS THEREOF, AND PRODUCTION METHOD THEREOF
Publication number: 20080318318Abstract: A melt-kneading method for filling material-containing resin or elastomer includes: a step of preparing a filling material as a filler and a resin or elastomer comprising an incompatible blend; and a step of introducing the filling material-containing resin or elastomer into a material feed part provided at an end of a cylindrical melt-kneading part having a heater and provided with a screw, and then melt-kneading the filling material-containing resin or elastomer under conditions where the rotation speed of the screw is about 600 rpm to about 3,000 rpm and its shear rate is about 900 to about 4,500 sec?1, thereby forming a co-continuous structure comprising the incompatible blend.Type: ApplicationFiled: May 9, 2008Publication date: December 25, 2008Inventors: Hiroshi Shimizu, Yongjin Li, Li Zhao -
Patent number: 7445735Abstract: A method for producing a microporous material comprising the steps of: providing an ultrahigh molecular weight polyethylene (UHMWPE); providing a filler; providing a processing plasticizer; adding the filler to the UHMWPE in a mixture being in the range of from about 1:9 to about 15:1 filler to UHMWPE by weight; adding the processing plasticizer to the mixture; extruding the mixture to form a sheet from the mixture; calendering the sheet; extracting the processing plasticizer from the sheet to produce a matrix comprising UHMWPE and the filler distributed throughout the matrix; stretching the microporous material in at least one direction to a stretch ratio of at least about 1.5 to produce a stretched microporous matrix; and subsequently calendering the stretched microporous matrix to produce a microporous material which exhibits improved physical and dimensional stability properties over the stretched microporous matrix.Type: GrantFiled: December 7, 2004Date of Patent: November 4, 2008Assignee: Daramic LLCInventors: Eric H. Miller, Joseph G. Yaritz, Mark T. Demeuse, J. Kevin Whear
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Publication number: 20080260980Abstract: The present invention provides a porous resinous oil-retaining article, containing lubricating oil, which is excellent in the utilization efficiency of the lubricating oil, has a high mechanical strength, and further allows the resin and the lubricating oil to be combined with each other according to a use and a specification. The present invention also provides a method of producing the resinous oil-retaining article. The resinous oil-retaining article comprises a resinous porous article having interconnected holes which are open to a surface of the resinous porous article; and an oil impregnated into the resinous porous article. The interconnected holes are formed by molding a resin containing a pore-forming substance into a molding and extracting a part of the pore-forming substance from the molding with a solvent which dissolves the pore-forming substance and does not dissolve the resin. An interconnected hole porosity of the resinous porous article is not more than 30%.Type: ApplicationFiled: March 1, 2006Publication date: October 23, 2008Applicant: NTN CORPORATIONInventors: Masakazu Hirata, Hideyuki Tsutsui
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Patent number: 7425288Abstract: A method for preparing an open pourous polymer material, comprises forming of a polymer solution, addition of a porogen to the polymer solution and precipitation with water of polymer from the polymer solution, and the method then comprises removal of solvent and porogen from the polymer material wherein the precipitation is homogenous through that the water is in form of crystal water and that the crystal water is bonded to the porogen, wherein the porogen is a sugar hydrate. An open porous polymer material, a mixture comprising a sugar hydrate and a polymer solution, and a designed material, and uses thereof are also disclosed.Type: GrantFiled: December 21, 2001Date of Patent: September 16, 2008Assignee: Artimplant ABInventors: Per Flodin, Carl-Johan Aurell
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Patent number: 7393483Abstract: A polymetaphenylene isophthalamide porous hollow fiber membrane is produced by extruding a film-forming solution comprising polymetaphenylene isophthalamide, polyvinylpyrrolidone and an inorganic salt through a concentric double annular spinning nozzle while keeping the film-forming solution at 70° C. or higher, thereby conducting dry-and-wet spinning, followed by moisture retention treatment, where it is preferable to subject the resulting porous hollow fiber membrane obtained by dry-and-wet spinning to heat treatment in water at 80° C. or higher before the moisture retention treatment. The polymetaphenylene isophthalamide porous hollow fiber membrane resulting from wet heat treatment under wet heat conditions at the temperature of 100° C.Type: GrantFiled: August 29, 2003Date of Patent: July 1, 2008Assignee: NOK CorporationInventor: Toru Uda
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Patent number: 7381331Abstract: A membrane is provided, which may include a microporous base membrane; and a cross-linkable coating disposed on a surface of the membrane. The coating may include polyvinyl nucleophilic polymer and a urethane or a blocked isocyanate. The coating may be cross-linked. Also provided is a method of making the membrane.Type: GrantFiled: September 30, 2005Date of Patent: June 3, 2008Assignee: General Electric CompanyInventors: Hieu Minh Duong, Hongyi Zhou, Rainer Koeniger, Daniel Joseph Brunelle, Daniel Robert Olson, Karmin Lorraine Olson
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Use of hydrophobically modified copolymers based on N-vinyl monomers for the production of membranes
Patent number: 7347938Abstract: The present invention relates to the use of copolymers A containing a) from 50 to 99% by weight of at least one N-vinyllactam or N-vinylamine selected from the group consisting of N-vinylpyrrolidone, N-vinylpiperidone, N-vinylcaprolactam, N-vinylimidazole, methylated N-vinylimidazole, and N-vinylformamide, and b) from 1 to 50% by weight of at least one monomer selected from the group consisting of b1) C8-C30-alkyl esters of monoethylenically unsaturated C3-C8 carboxylic acids; b2) N—C8-C30-alkyl-substituted amides of monoethylenically unsaturated C3-C8 carboxylic acids; b3) N,N—C8-C30-dialkyl-substituted amides of monoethylenically unsaturated C3-C8 carboxylic acids; b4) vinyl esters of aliphatic C8-C30 carboxylic acids; and b5) C8-C30-alkyl vinyl ethers to produce membranes.Type: GrantFiled: April 11, 2003Date of Patent: March 25, 2008Assignee: BASF AktiengesellschaftInventors: Tanja Schneider, Frank Dietsche, Axel Sanner, Stefan Stein, Karin Neubecker -
Patent number: 7300022Abstract: A porous polymeric membrane formed from a blend of a polymeric membrane forming material, such as polyvinylidene fluoride or polysulfone and a polymeric reactivity modifying agent adapted to modify the surface active properties of the porous polymeric membrane. The reactivity modifying agent is preferably a linear polymeric anhydride, such as poly(alkyl vinyl ether/maleic anhydride). The surface activity modifications include modification of the hydrophilicity/hydrophobicity balance of the membrane, or hydrolysis followed by reaction with a polyamine to form a crosslinked polyamide layer. Such modified membranes have use as reverse osmosis membranes.Type: GrantFiled: July 30, 2004Date of Patent: November 27, 2007Assignee: Siemens Water Technologies Corp.Inventor: Heinz-Joachim Muller
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Patent number: 7284668Abstract: The present invention provides porous media or membranes having a surface coating that includes a first coating of a cross-linked terpolymer and a second coating comprising a copolymer or a terpolymer modified with a hydrophilic or hydrophobic functional group which has a superior combination of properties, including heat stable biomolecule resistant adsorptive properties, resistance to strong alkaline solutions, and low levels of extractable matter.Type: GrantFiled: February 8, 2005Date of Patent: October 23, 2007Assignee: Millipore CorporationInventor: John Charkoudian
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Patent number: 7276191Abstract: A method and device for forming a cross-linked foam and a cross-linked foam are provided. The method includes the steps of preparing at least one foaming material for cross-linked foaming, the foaming material processed to have a plane or three-dimensional shape; forming at least one interfacing pattern on a surface of at least one of the foaming material using at least one interfacing material that prevents chemical and physical interaction between the foaming materials; and forming a cross-linked foam by foaming the foaming material having the interfacing pattern thereon, the cross-linked foam having a foam body and an internally-formed surface.Type: GrantFiled: July 20, 2004Date of Patent: October 2, 2007Inventor: Jang Won Park
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Patent number: 7273551Abstract: In a polyimide molded body, in particular a polyimide membrane which is functionalized with a chemical group and a method for production thereof, a molded body or membrane is obtained, whereby a pre-prepared polyimide body, as starting material, is brought into contact with an aqueous modifier solution for a period of 1 second to 1 hour. The modifier solution contains at least one modifier substance at least partially dissolved therein, which comprises a primary or secondary amino group, or a similar amino group and additionally at least one further functional group per molecule. The polyimide molded body is brought to an elevated temperature, either during the contact period with the modifier solution or thereafter and then purified and dried. The membrane obtained according to the invention may be functionalized in a targeted adjustable manner and has a high functionalization degree. The functionalization may be achieved simply and economically in an aqueous medium.Type: GrantFiled: September 8, 2003Date of Patent: September 25, 2007Assignee: GKSS-Forschungszentrum Geesthacht GmbHInventors: Wolfgang Albrecht, Lars-Ingemar Dahms, Karola Lützow, Thomas Weigel, Roland Hilke, Dieter Paul