To Degas Or Prevent Gas Entrapment Patents (Class 264/102)
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Patent number: 6759002Abstract: A method of manufacturing a composite uses a hybrid tool which serves both as a form on which constituent materials are applied for bonding or curing into a part in a desired configuration, and as a fixture for holding the bonded or cured materials in the originally applied position during subsequent machining of a peripheral edge of the part. The method includes fabricating a face sheet of composite material having a facing surface configured to the reverse of a desired shape of one surface of a part to be made on the tool. The materials for the part are applied on the face sheet, debulked, bonded or cured, and edge trimmed thereon, all while on the face sheet in the originally applied position.Type: GrantFiled: September 29, 1999Date of Patent: July 6, 2004Assignee: The Boeing CompanyInventors: Dwight L. Engwall, Chris J. Morrow, Kevin J. Steen, Roger A. Johnson
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Publication number: 20040113306Abstract: Methods and devices for manufacturing a conduit for placing a target vessel in fluid communication with a source of blood, such as a heart chamber containing blood. The conduit includes first and second portion adapted to be placed in fluid communication with a heart chamber and a target vessel. The conduit lies on the exterior of the myocardium between the blood source and the target vessel and delivers blood in multiple directions within the lumen of the target vessel. The conduit, which may be formed of any suitable synthetic vascular graft material, is generally T-shaped with the leg having two free ends disposed in the target vessel, preferably being secured thereto via a suture-free attachment. The conduit comprises vascular graft material and may be manufactured various ways, such as molding a conduit from any suitable biocompatible material or fabricating a conduit from one or more pieces of vascular graft material.Type: ApplicationFiled: September 29, 2003Publication date: June 17, 2004Inventors: Alan R. Rapacki, Dean F. Carson, A. Adam Sharkawy
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Publication number: 20040104501Abstract: The invention relates to a process for producing mouldings by injection moulding the steps in the process being a) melting and mixing of a (meth)acrylate copolymer composed of from 85 to 98% by weight of C1-C4-alkyl (meth)acrylates capable of free-radical polymerization and from 15 to 2% by weight of (meth)acrylate monomers having a quaternary ammonium group in the alkyl radical, with from 10 to 25% by weight of a plasticizer, and also from 10 to 50% by weight of a dryers [sic] and/or from 0.1 to 3% by weight of a release agent, and, where appropriate, with other conventional pharmaceutical additives or auxiliaries and/or with an active pharmaceutical ingredient, b) devolatilizing the mixture at temperatures of at least 120° C., thus reducing the content of the low-boiling constituents with a vapour pressure of at least 1.9 bar at 120° C. to not more than 0.5% by weight, and c) injecting the devolatilized mixture at a temperature of from 80 to 160° C.Type: ApplicationFiled: June 27, 2003Publication date: June 3, 2004Inventors: Hans-Ulrich Petereit, Thomas Beckert, Manfred Assmus, Werner Hoess, Wolfgang Fuchs, Hartmut Schikowsky
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Patent number: 6743385Abstract: A method for manufacturing a wear-resistant three-dimensional foamable structure includes the steps of: a) preparing a retractable heat deformable wear-resistant substrate; b) working the substrate by a forming mold to form a housing having a three-dimensional shape, the housing having an inside formed with a receiving space; c) placing or directly forming a foamable body in the receiving space of the housing, so that the foamable body is combined with the substrate integrally, so that the wear-resistant substrate is mounted on an outer layer of the foamable body, thereby protecting the foamable body and enhancing an outer appearance of the foamable body; and d) cutting and trimming an edge of the substrate or the foamable body, thereby forming a foamable product.Type: GrantFiled: May 22, 2002Date of Patent: June 1, 2004Inventor: Swei Mu Wang
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Patent number: 6726865Abstract: A composite material for vehicle hulls and a hull molding process comprising a gel coat, a skin coat, a bulk fiberglass layer and adhesive applied to a top mating surface and a bottom mating surface within a top mold and a bottom mold, wherein the adhesive forms a connector. The two molds are placed together, and after the adhesive sets, foam is introduced into at least one cavity formed when the molds are brought together. The molds remain closed while the foam is introduced.Type: GrantFiled: January 10, 2001Date of Patent: April 27, 2004Assignee: Boston Whaler, Inc.Inventors: Dan Mielke, Scott Wood
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Publication number: 20040075185Abstract: The invention relates to molding a right cylindrical body from a settable loose granular composition in a mold cavity, in which a mold cavity (4) is fed with successive charges of the composition in the loose state and each new charge is thrust by means of thrust surfaces (11) into the surface S of the molded composition in order to cause the new charge and the molded composition to interpenetrate in such a manner as to densify the molded composition. The invention is applicable to making a pipe, in particular out of a cement composition.Type: ApplicationFiled: October 24, 2003Publication date: April 22, 2004Inventors: Jerome Dugat, Alain Louge, Philippe Hatton, Yves Van De Caveye
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Patent number: 6723273Abstract: The inventive method concerns a process of transferring resin into reinforcing fiber material used in the manufacture of composite articles. A first step in the method involves positioning at least one layer of the reinforcing fiber material on the surface of an open mold. The reinforcing fiber material typically consists of glass, carbon, linear polyethylene, polypropylene, and polyester fibers. Subsequently, a sealant layer is applied in liquid form over the reinforcing fiber material to create an airtight chamber encapsulating the reinforcing fiber material between the sealant layer and the mold. After the sealant layer is allowed to cure, a vacuum pressure is applied to the airtight chamber to draw resin through the reinforcing fiber material. For example, the resin can be an epoxy, polyester or vinyl ester resin.Type: GrantFiled: September 11, 2002Date of Patent: April 20, 2004Inventors: Keith Johnson, Scott Lewit
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Patent number: 6723272Abstract: A method of moulding articles from layers of composite material being fibres impregnated with uncured resin, includes draping at least one layer of the composite material over a moulding tool, applying over the composite material layer or layers a membrane, and establishing an at least partial vacuum between the membrane and the moulding tool to consolidate the composite material, and wherein the membrane is made of a resilient material, and the method includes applying a force to the membrane to stretch the membrane over the moulding tool and maintaining the force whilst the at least partial vacuum is established.Type: GrantFiled: June 7, 2001Date of Patent: April 20, 2004Assignee: Westland Helicopters LimitedInventors: Keri Jane Montague, Dennis Winston Pugsley
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Patent number: 6723271Abstract: A method of making a composite part includes the steps of placing a first section of a fibrous pre-form in a mold and infusing the first section of the fibrous pre-form with a resin so as to produce a resin-infused portion and a non-resin-infused portion. Next, the method includes coupling the non-resin-infused portion to a second section of the fibrous pre-form to create a coupled non-resin-infused portion. Then, the coupled non-resin-infused portion is infused with resin to create a second resin-infused portion and a second non-resin-infused portion. These steps are repeated to separately infuse different sections of the part until the part is complete. The corresponding apparatus preferably employs a rigid mold having a shape defining only a portion of the composite part to be made. And, the method is particularly adapted to making both cored and non-cored structures that are large or unconventionally shaped.Type: GrantFiled: May 1, 2001Date of Patent: April 20, 2004Inventors: W. Scott Hemphill, Carmen G. Hunter, George E. Green, Philip M. DeNardo, Kemal Hayati Catbas
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Patent number: 6713005Abstract: A composite structure having first and second layers which are wrapped about one another to form a cylinder. The first layer is formed from an expandable film or foaming adhesive. The second layer is formed from a reinforcing member. The second layer is overlaid onto the first layer. The first and second layers are then rolled together in a jelly roll fashion. The roll is then cured to expand the film. The structure may thereafter be incorporated into a panel and drilled to receive a fastener. The composite structure is generally lightweight having a high compressive strength-to-density ratio. The physical properties of the composite structure may be tailored to a particular application. For example, the physical properties of the composite structure may be tailored to provide improved energy absorption or a reduced initial peak compressive strength. A method for forming a composite structure from an expandable film member and a reinforcing member is also provided.Type: GrantFiled: February 19, 2002Date of Patent: March 30, 2004Assignee: The Boeing CompanyInventor: Gerald Mitchell Omichinski
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Patent number: 6713001Abstract: A method of imaging a vehicle occupant's body position at the interface between the vehicle occupant and a vehicle seating surface includes positioning a pressure-actuated, controlled-rigidity support bag at the interface between the vehicle occupant and the vehicle seating surface. A vacuum pressure is then created within the pressure-actuated, controlled-rigidity support bag to conform the bag to the contour of the interface between the vehicle occupant and the vehicle seating surface. The conformed bag is then imaged to determine the contour of the interface, thereby determining the vehicle occupant's body position on the vehicle seating surface. With this method, comfort studies may be more efficiently performed, and vehicle seat shells for race car drivers more efficiently manufactured.Type: GrantFiled: December 29, 1997Date of Patent: March 30, 2004Assignee: Lear CorporationInventors: Carter Cannon, John P. Slaven
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Patent number: 6713004Abstract: A process for producing an article of resin made from at least about 50% by weight of methyl methacrylate is provided, which comprises a step of melt-processing the resin with an extruder, wherein an oxygen concentration of a gaseous phase in a resin feed zone of the extruder falls within a range of from about 0.7% by volume to about 10% by volume. The article is excellent in curbing the coloring in melt processing.Type: GrantFiled: April 11, 2001Date of Patent: March 30, 2004Assignee: Sumitomo Chemical Company, LimitedInventors: Tomohiro Maekawa, Kenji Manabe
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Patent number: 6709617Abstract: The device and method of the invention utilizes a vacuum pump, a casting device, first and second CIR Connectors, a connector cuff, a casting balloon, a heating chamber or oven, a supracondylar wedge, and a CIR alignment/vacuum forming jig to create a prosthetic device under field conditions.Type: GrantFiled: August 3, 2001Date of Patent: March 23, 2004Assignee: Physicians Against Land MinesInventor: Yeongchi Wu
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Publication number: 20040046274Abstract: A method for preparing a wear-resisting outsole for a shoe, which mixes polyol polyurethane oligomer and prepolymer isocyanate together to form a mixed material. Then, the mixed material is poured into a shaping mold and coagulated by heating to form a TPU polymer outsole. Lastly, a substrate covers the mold and is bonded with the TPU outsole by a heat-pressure forming process to achieve a wear-resisting outsole.Type: ApplicationFiled: September 6, 2002Publication date: March 11, 2004Inventor: Chi-Kung Wu
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Patent number: 6703005Abstract: A deodorant or antiperspirant soft solid composition is filled into dispensing containers by injection moulding, i.e. under pressure, preferably in the vicinity of its normal setting temperature. The deodorant or antiperspirant composition is preferably continuously produced in a screw extruder, especially a twin screw extruder, controlled to deliver the composition in a suitably viscous state under low shear and particularly for formulations in which a particulate antiperspirant is suspended in a fluid carrier. The pressure in the injection head at the point of injection is greater than 120 kPa and in many instances from 800 to 2000 kPa. The combined process offers benefits for controlled fill of dispensing containers, particularly for formulations incorporating sensitive ingredients and offers tolerance in composition temperature at the time of fill.Type: GrantFiled: April 5, 2001Date of Patent: March 9, 2004Assignee: Unilever Home & Personal Care USA, division of Conopco, Inc.Inventors: Peter Stewart Allan, Michael Andrew Browne, Elfriede Maria Langeveld, Paul Lloyd, Reginald Manley, Paul Reissen Rennie, Frederick Edmund Stocker, Karnik Tarverdi, Jacqueline Marie Thorpe
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Patent number: 6685858Abstract: The present invention is a continuous in-line compounding and extrusion system that does not require pre-dried wood flour or pelletized feed stock of cellulosic/polymer composite materials in order to produce net shapes from cellulosic/polymer composite materials. An exemplary embodiment of the present invention utilizes automated loss-in-weight feeders to dispense wood flour and all of the other cellulosic/polymer composite materials into a compounder. The compounder blends the cellulosic/polymer composite materials into a composite melt. The composite melt is continuously devolitalized as it travels through the compounder, a transition chute, and a finish extruder. The composite melt is then forced through a profile die which is fitted to the finish extruder in order to achieve a net shape.Type: GrantFiled: September 25, 2002Date of Patent: February 3, 2004Assignee: Crane Plastics Company LLCInventor: Arthur F. Korney, Jr.
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Patent number: 6686034Abstract: A new process for producing a fiber-reinforced thermoplastic resin molded product with a high mechanical strength and no heat substantial deterioration of the resin, by an efficient heating without applying shear stress to the fiber-reinforced thermoplastic resin base material and a molded product, for example, a tiptoe core for a safety shoe produced by said process are provided. The fiber-reinforced thermoplastic resin base material P1 in a string form or a tape form is scattered and accumulated in a vessel such as tube 11, and a heating gas passed to the accumulated base material to melt heat, and preferably press by a plunger 15, the base material P1, whereby a molten mass P2 is formed, and then the molten mass P2 is dislocated to a mold to be press-mold. Said base material preferably satisfies the following formula: {fraction (1/100)}≦&rgr;1/&rgr;0≦½, wherein &rgr;0 means a density where said base material is scattered and accumulated and &rgr;0 means a true density of said base material.Type: GrantFiled: February 28, 2001Date of Patent: February 3, 2004Assignee: Asahi Fiber Glass Company, LimitedInventors: Toru Mizukami, Kengo Ozaki, Masahiko Tominaga, Yuji Yokoo
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Patent number: 6676886Abstract: An improved pipe belling process is shown which features a mandrel having a specially designed backup or forming collar. The backup collar has an exposed lip portion which forms a complimentary angle with the outer sloped surface of the gasket which it abuts. The complimentary angles of the backup collar and gasket form a wedge shaped contact area which serves to retain the gasket in its initial circumferential position on the working surface of the mandrel as the heated pipe is forced over the mandrel and gasket.Type: GrantFiled: September 26, 2001Date of Patent: January 13, 2004Assignee: S&B Technical Products, Inc.Inventor: Bradford Corbett, Jr.
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Patent number: 6673288Abstract: A multi element moving vacuum chamber (MEMVC) for rotational casting includes a mold having a predefined shape and an axis of rotation, and a box containing casting material. The MEMVC further includes a first vacuum element mounted to an outer mold surface and a second vacuum element mounted to an outer box surface. The mold and the box are detachably engageable with each other to define an engaged configuration in which air present in an enclosed area defined by the outer mold surface and an inner surface of the first vacuum element, by an inner mold surface and an inner box surface, and by the outer box surface and an inner surface of the second vacuum element, is removed to create a vacuum. Alternatively, the mold and/or the box may be constructed with vacuum loading capability, thereby eliminating the need for the first and/or the second vacuum elements.Type: GrantFiled: June 7, 2002Date of Patent: January 6, 2004Assignee: Intertec SystemsInventors: Andrew L. Dargavell, Gregg S. Evans
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Patent number: 6673287Abstract: A method of exposing a composite organic/inorganic master to alkylchlorosilanes in the vapor phase. Chlorosilanes participate in facile reactions with hydroxyl groups existing on the surface of inorganic oxides (such as glass or the native oxides on silicon, aluminum, tin, etc.); or those in organics-containing phenolic or alcoholic groups, such as photoresists. The alkyl group on the silane can be chosen from a large selection of aliphatic or aromatic organic groups that have substituents with varying polarity and reactivity.Type: GrantFiled: May 16, 2001Date of Patent: January 6, 2004Assignee: International Business Machines CorporationInventors: Tricia L. Breen, Laura L. Kosbar, Michael P. Mastro, Ronald W. Nunes
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Publication number: 20030236313Abstract: Methods for making foamed elastomer gels are disclosed. Chemical foaming agents may be incorporated or gas may be injected into a molten gel and then using heating and cooling techniques and/or additives, gas bubbles are formed and preserved in the cooled and solidified elastomer gel.Type: ApplicationFiled: February 11, 2003Publication date: December 25, 2003Applicant: EdiZONE, LCInventor: Terry V. Pearce
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Publication number: 20030227103Abstract: A multi element moving vacuum chamber (MEMVC) for rotational casting includes a mold having a predefined shape and an axis of rotation, and a box containing casting material. The MEMVC further includes a first vacuum element mounted to an outer mold surface and a second vacuum element mounted to an outer box surface. The mold and the box are detachably engageable with each other to define an engaged configuration in which air present in an enclosed area defined by the outer mold surface and an inner surface of the first vacuum element, by an inner mold surface and an inner box surface, and by the outer box surface and an inner surface of the second vacuum element, is removed to create a vacuum. Alternatively, the mold and/or the box may be constructed with vacuum loading capability, thereby eliminating the need for the first and/or the second vacuum elements.Type: ApplicationFiled: June 7, 2002Publication date: December 11, 2003Inventors: Andrew L. Dargavell, Gregg S. Evans
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Patent number: 6656396Abstract: For the production of a particularly dimensionally stable cable set, the single conductors (22) of the cable set are initially inserted into a cavity (8) of a foam tool (2) and a foaming material is subsequently filled in. To dispense with involved and expensive hydraulic equipment, a vacuum is generated to press a top half (6) and a bottom half (4) of the foaming tool (2) against each other. For this, vacuum channels (6) are preferably provided, which extend along sides of the cavity (8).Type: GrantFiled: August 16, 2001Date of Patent: December 2, 2003Assignee: Leoni Bordnetz-Systeme GmbH & Co.Inventor: Gerhard Reichinger
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Publication number: 20030218267Abstract: According to one embodiment of the invention, a co-cured resin transfer molding manufacturing method includes providing a tool having one or more tooling details and disposing one or more preforms proximate the one or more tooling details. The one or more preforms are either dry or binderized. The method further includes disposing a high permeability medium outwardly from the one or more tooling details, disposing a prepreg skin panel outwardly from the high permeability medium, disposing the one or more tooling details and the prepreg skin panel within the tool, injecting a resin into the one or more preforms, and curing the one or more preforms and the prepreg skin panel.Type: ApplicationFiled: May 22, 2002Publication date: November 27, 2003Applicant: Northrop Grumman CorporationInventors: Christopher H. Husmann, Chi H. Sheu, Denise M. Shimazu
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Publication number: 20030214067Abstract: The invention is extrusion equipment and a process. The extrusion equipment links two extruders (11, 15) together. The first extruder (11) is, desirably, a counter-rotating twin screw extruder. The first extruder (11) receives organic filler, preferably wood particles or fiber, having a variable moisture content. Moisture is withdrawn from the extruder barrel. A polymer is fed from a second extruder (15) into the barrel of the first extruder (11) after the polymer is heated, mixed, and melted in the second extruder (15). The second extruder (15) can be a single screw or twin screw extruder. The combined mixture of organic filler and polymer is further mixed alone or with optional additives. The mixture is vacuum vented to remove moisture and volatiles and then extruded through a die. Additional processing steps are optional depending upon the extruded product or profile being produced.Type: ApplicationFiled: April 29, 2003Publication date: November 20, 2003Inventors: David E Murdock, Dale K Snead, Darrell S Dardenne, Ian W Mills
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Patent number: 6649097Abstract: A gasket is provided on a porous sheet in one body. The gasket is thin and has an excellent sealability, and processability when the gasket is built in layer-built fuel cells. The gasket is made of liquid rubber and has a hardness not more than 60 (JIS A). Liquid perfluoro rubber and liquid silicone rubber is preferably used for the gasket. And gasket can be made by injection molding.Type: GrantFiled: October 19, 2001Date of Patent: November 18, 2003Assignee: Nok CorporationInventors: Yasunori Sasaki, Kazuhisa Senda, Osamu Nagai, Shigeo Wakamatsu, Osamu Ando, Tasashi Fujimoto
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Patent number: 6644238Abstract: The present invention provides a method and apparatus for dispensing onto a substrate. In one embodiment, the apparatus includes an injector having an injecting outlet and an air inlet, a fixture for receiving a substrate in communication with the injecting outlet and the air inlet and having a gasket forming a seal around the injecting outlet and air inlet, and a sheet of substantially taut film disposed between the injector and a substrate placed in the receptacle of the fixture such that, when the injector is in a position for dispensing encapsulant to a process area on the substrate, at least the injectng tip and the inlet tip of the injector project through the substantially taut film to the process area.Type: GrantFiled: December 1, 2000Date of Patent: November 11, 2003Assignee: Speedline Technologies, Inc.Inventors: Hal Watts, Jules Gordon, Walter Dziegel
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Publication number: 20030201580Abstract: Cure and consolidation of a viscous thermoplastic resin, especially one that softens and melts at a high temperature, is improved by assisting autoclave pressurized momentum transport for compaction of the composite using high frequency, low amplitude acoustic vibration within the resin. The vibration induces shear thinning in the resin which promotes resin flow, achieves filling or collapse of voids, and assists consolidation of the composite preform.Type: ApplicationFiled: May 9, 2003Publication date: October 30, 2003Inventors: Stephen Christensen, Eric J. Stober
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Patent number: 6639005Abstract: A thermoplastic molding composition that exhibits antistatic properties and improved color stability is disclosed. The composition contains a major amount of resinous component that contains A) 0 to 100 % by weight of one or more graft polymers B) 100 to 0 % by weight of a thermoplastic vinyl (co)polymer, and a minor amount of a mixture of a) a modified or unmodified polyalkylene ethers and b) a phenolic oxidant wherein the weight ratio (a):(b) is 20:1 to 1:1.Type: GrantFiled: October 12, 2001Date of Patent: October 28, 2003Assignee: Bayer AktiengesellschaftInventors: Bernd Willenberg, Herbert Eichenauer, Heinrich Alberts
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Patent number: 6635200Abstract: Polyurethane molded articles are produced from a flowable polyol-polyisocyanate reaction mixture on a shot-wise basis. The flowable reaction mixture is formed by combining the components of that mixture in the mixing chamber of a mixhead. The contents of the mixhead are introduced (preferably via an outlet pipe) into a mold in a manner such that the mixing chamber is substantially emptied in each case. Any ambient gas in the mixing chamber is then removed before the respective next shot is initiated.Type: GrantFiled: August 29, 2001Date of Patent: October 21, 2003Assignee: Hennecke GmbHInventors: Hans-Michael Sulzbach, Reiner Raffel, Helmut Duschanek
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Patent number: 6630095Abstract: A method for fabricating fiber reinforced plastic structures includes a mold surface upon which can be supported a lay-up of one or more layers of a fibrous material, and over which can be placed a fluid impervious outer sheet with an inlet port and having its edges marginally sealed upon the mold surface to form a chamber. A vacuum outlet is connected to the chamber for drawing a vacuum there from. A resin distribution system is positioned between the lay-up and the fluid impervious sheet. The resin distribution system includes a resin distribution medium for receiving resin from the inlet port and a resin containment layer between the resin distribution medium and lay-up for preventing resin flowing from the resin distribution medium into the lay-up until the resin distribution medium is substantially filled with resin.Type: GrantFiled: August 1, 2001Date of Patent: October 7, 2003Assignee: Lockheed Martin CorporationInventors: Steve Slaughter, John C. Fish
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Patent number: 6627142Abstract: An apparatus for fabricating fiber reinforced plastic structures is provided. The apparatus includes a mold surface upon which can be supported a lay-up of one or more layers of a fibrous material, and over which can be placed a fluid impervious outer sheet with an inlet port and having its edges marginally sealed upon the mold surface to form a chamber. A vacuum outlet is connected to the chamber for drawing a vacuum therefrom. A resin distribution system is positioned between the lay-up and the fluid impervious sheet. The resin distribution system includes a distribution sheet for receiving resin from the inlet port and at least one flat resin distribution line connected to the inlet port.Type: GrantFiled: August 1, 2001Date of Patent: September 30, 2003Assignee: Lockheed Martin CorporationInventors: Steve Slaughter, John C. Fish
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Publication number: 20030176239Abstract: An apparatus for making a golf ball is disclosed. The apparatus is a molding assembly for making a golf ball which includes a mold body that defines a molding cavity. The molding cavity is adapted to accommodate and preferably retain a golf ball core during a molding operation of one or more layers about the core. The molding assembly includes at least one material flow inlet, at least one material flow channel extending between and providing fluid communication with a material flow inlet and the molding cavity. At least one portion of the material flow channel has a plurality of bends and at least one branching intersection adapted to promote turbulence in a liquid flowing therethrough. A method of making a golf ball is also disclosed. A golf ball made from the disclosed molding apparatus and/or process is also disclosed.Type: ApplicationFiled: March 17, 2003Publication date: September 18, 2003Applicant: Spalding Sports Worldwide, Inc.Inventors: Michael John Tzivanis, Eric G. Johnston, Mario Jarmuzewski, Gary P. Mendrala, Thomas J. Kennedy, Viktor Keller
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Patent number: 6620355Abstract: A method of compacting aerogels into larger aerogel particles is disclosed. The method provides for molding small aerogel particles into larger aerogel particles and selecting a desired granular range of the molded aerogel particles. Additives, fillers, and binders may be added to the aerogel particles to achieve specific desired properties of the molded aerogel particles.Type: GrantFiled: November 1, 1999Date of Patent: September 16, 2003Assignee: Cabot CorporationInventor: Marc Schmidt
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Patent number: 6620357Abstract: There is now provided a method for producing a product comprising plastic foam in an automatic molding machine. The method comprises providing a woven fabric on at least one surface of the mold cavity, with the woven fabric comprising a fabric having a fine-mesh woven fabric ply that faces the interior of the mold cavity upon assembly and a coarse-mesh woven fabric ply that is disposed adjacent at least one surface of the mold cavity and beneath the fine-mesh woven ply upon assembly to support the fine-mesh woven ply. The method further provides for introducing beads comprising plastic foam into the mold cavity; contacting the beads with a gaseous heat transfer medium, such as superheated steam; introducing the gaseous heat transfer medium into the mold cavity; flowing the gaseous heat transfer medium along a first surface of the mold cavity; and removing gaseous heat transfer medium along a second surface of the mold cavity; and removing the finished product from the mold.Type: GrantFiled: August 20, 2001Date of Patent: September 16, 2003Assignee: Gefinex Polymerschaume GmbHInventors: Jürgen Bruning, Eberhard Lang
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Patent number: 6616886Abstract: Methods and apparatus for eliminating or reducing a surface skin when producing a flexible polyurethane foam slab are disclosed. The top surface of the chemically reactive polyurethane foaming mixture is heated during and/or after the foaming mixture expands. The heating preferably is conducted so as to prevent a significant temperature gradient from forming between the internal temperature of the foaming mixture and the top surface of that mixture. Preferably, heat is applied so as to heat from the top surface of the foaming mixture in an escalating fashion to higher temperatures as the foam is conveyed along a conveying path away from the foaming mixture dispensing device.Type: GrantFiled: January 31, 2001Date of Patent: September 9, 2003Assignee: Foamex L.P.Inventors: Bruce W. Peterson, Theodore J. Bartsch
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Patent number: 6613258Abstract: A process is proposed for the fabrication of parts with large dimensions formed of a skin (10) and stiffeners (12, 16) such as aircraft fuselage segments made of a composite material with a thermoplastic matrix. After stiffeners have been made separately by lay-up, consolidation and shaping, these stiffeners are placed on a tooling (23) and the skin (10) is simultaneously fabricated and assembled to the stiffeners (12, 16) by diffusion welding. More precisely, the skin (10) is laid up and continuously consolidated by the lay-up head (36) such that the required part is obtained directly.Type: GrantFiled: May 3, 2000Date of Patent: September 2, 2003Assignee: Aerospatiale Societe Nationale IndustrielleInventors: Serge Maison, Serge Meunier, Cédric Thibout, Luc Mouton, Hervé Payen, Philippe Vautey, Carole Coiffier-Colas, Joël Delbez
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Patent number: 6613128Abstract: An aromatic polycarbonate extruder which is a twin screw extruder for kneading components into a molten aromatic polycarbonate, the extruder having at least one module consisting of a kneading unit, a material seal unit, a back kneading unit and full-flight unit which are arranged from an upstream side to a downstream side and a method of kneading components into an aromatic polycarbonate by using the above extruder. The present invention also provides a kneading apparatus and method for producing an aromatic polycarbonate which has an extremely small content of foreign matter and is free from residence deterioration such as coloration, crosslinking or gelation when the aromatic polycarbonate is to be kneaded with various components.Type: GrantFiled: April 4, 2000Date of Patent: September 2, 2003Assignee: Teijin LimitedInventors: Masasi Simonaru, Toru Sawaki, Katsushi Sasaki, Kazuki Hatono, Eiji Ito
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Patent number: 6607681Abstract: A process for forming a coating layer on the surface of a molded product by boiling a coating solution in a closed metal mold. The molding process includes depressurizing the cavity of the metal mold, boiling a coating solution in the cavity and injecting a urethane material into the cavity under reduced pressure.Type: GrantFiled: March 9, 2000Date of Patent: August 19, 2003Assignee: Toyoda Gosei, Co., Ltd.Inventors: Takayuki Ito, Toshihiko Asaya
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Publication number: 20030151171Abstract: A method of manufacturing hollow, fiber reinforced thermoplastic composite articles, such as a pressure vessel, is disclosed. The thermoplastic binder is chosen to bind the reinforcing fibers together, to provide strength, and to provide ease of manufacture. The method includes placing a preform with an inflatable core into a mold, pressurizing the inflatable core, and heating the mold to enable the thermoplastic binder to melt and distribute throughout the preform, binding the reinforcing fibers. The article is then cooled and removed from the mold, resulting in a hollow molded article. The inflatable core may be removed from the article and reused, or the core may become an integral part of the finished article.Type: ApplicationFiled: February 13, 2002Publication date: August 14, 2003Inventors: Edward T. LeBreton, Koen Vanherck
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Patent number: 6604848Abstract: In the case of thickening a feed resin without pre-drying, a device is taught to enhance the thickening effect. The device includes a chamber 4 having a mixing rotor therein for continuously mixing a resin between a feed port 2 and a discharge port 3. A plurality of vent ports 7 connected to vacuum pumps 8, 9 are provided for reducing the pressure in the chamber. An element, e.g. a screw feeder 10, is provided for introducing a viscosity-increasing chemical agent into the chamber. The screw feeder is isolated from the reduced pressure areas of the chamber by elements 35, e.g. reverse screw flights of the rotor. In operation, feed resin from a hopper 6 enters the chamber through port 2 and is dehydrated while being continuously mixed in a drying section 14 via vents 7. After addition of the chemical agent, the resin is continuously mixed in a thickening section 15 while being deaerated.Type: GrantFiled: April 2, 2002Date of Patent: August 12, 2003Assignee: Kabushiki Kaisha Kobe Seiko ShoInventors: Tatsuya Tanaka, Kazuhisa Fujisawa, Kazuko Saka, Tomoji Takahashi, Koichi Fukushima, Yasuaki Yamane
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Patent number: 6602452Abstract: A system and method for molding the shell of a medical device or other molded article is provided. The system includes a multi-axis rotational molding machine in which a mold is mounted. The mold has a cavity in the shape of the article to be molded. The mold seals to hold a vacuum. In operation, silicone or other molding material is inserted into the mold, vacuum is applied to the mold, the mold is rotated about at least two axes and a molding material coats the inside walls of the mold to form the shell or other desired article. A rotationally molded medical article is also provided.Type: GrantFiled: July 18, 2001Date of Patent: August 5, 2003Assignee: McGhan Medical CorporationInventor: David J. Schuessler
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Patent number: 6596058Abstract: A flow-through vacuum degassing unit for degassing a mobile phase in liquid chromatography applications includes a relatively flat self-supporting thin membrane disposed in a compact degassing component, whereby the thin membrane is gas-permeable and liquid-impermeable to selectively degas a mobile phase. The self-supporting thin membrane is disposed on a permeable substrate through which a vacuum is drawn by a connected vacuum source. In a particular embodiment, the self-supporting membrane may be directly cast on the permeable substrate through a solvent-free thermal process.Type: GrantFiled: July 16, 2001Date of Patent: July 22, 2003Assignee: Systec, Inc.Inventors: Yuri Gerner, Carl W. Sims
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Publication number: 20030135197Abstract: Various coupling agents are disclosed to form lap joints between metallic and polymeric surfaces within catheters and other medical devices. The coupling agents disclosed in the present invention can be applied directly to a metallic surface, or the coupling agents may be incorporated within a polymeric material. In certain circumstances, the mere application of the coupling agent between the two dissimilar materials provides sufficient adhesive strength to form a fatigue-free lap joint bond. Alternative methods utilize coupling agents as primers for later thermal bonding and laser welding procedures that form lap joint bonds.Type: ApplicationFiled: January 15, 2002Publication date: July 17, 2003Applicant: SciMed Life Systems, Inc.Inventors: Lixiao Wang, Dachuan Yang, Joe Randall, (Bruce) Yiqun Wang
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Patent number: 6592799Abstract: Cure and consolidation of a viscous thermoplastic resin, especially one that softens and melts at a high temperature, is improved by assisting autoclave pressurized momentum transport for compaction of the composite using high frequency, low amplitude acoustic vibration within the resin. The vibration induces shear thinning in the resin which promotes resin flow, achieves filling or collapse of voids, and assists consolidation of the composite preform.Type: GrantFiled: December 9, 1996Date of Patent: July 15, 2003Assignee: The Boeing CompanyInventors: Stephen Christensen, Eric J. Stober
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Patent number: 6589470Abstract: A process for forming molded articles from particulate thermoplastic material, the process comprising: (a) providing a track having a plurality of process stations, (b) providing a mold assembly comprising a base, at least one hollow mold upstanding from the base, and guide means on the base for moving the mold assembly on the track, (c) preheating the mold assembly at a preheat station on the track, (d) moving the mold assembly from the preheat station to a transfer station on the track, (e) transferring the mold assembly from the transfer station to a molding station, (f) forming the molded articles by fusing particulate material to the at least one mold at the molding station, (g) transferring the mold assembly with the molded articles thereon from the molding station back to the transfer station, (h) moving the mold assembly from the transfer station to a cooling station on the track, (i) moving the mold assembly from the cooling station to an unloading station on the track, (j) removing the molType: GrantFiled: May 11, 2001Date of Patent: July 8, 2003Inventors: Robert P. Fried, Bernard Rottman
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Patent number: 6583261Abstract: Polyethyleneterephthalate extrusion equipment of material in granule form, still humid, coming from both ground recovered products and also virgin material, comprising a chassis (29), containing a co-rotating, oil-thermoregulated extruder with two screws (31, 32), which comprises a first zone (A), equipped with an opening (34) where there is an aspiration hood (35) for a first “open top” degassing, a second zone (C) where there is at least one stack (37, 38) for a further degassing, between the two zones (A, C), there being a tight zone (B), and a carrying and loading zone (E) activated by the screws (31, 32).Type: GrantFiled: January 25, 2002Date of Patent: June 24, 2003Assignee: Costruzioni Meccaniche Luigi Bandera S.p.A.Inventors: Franco Bandera, Enrico Venegoni
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Patent number: 6576174Abstract: A method and apparatus for reducing residual gases from a foamed polymer material by subjecting the foamed polymer material to a vacuum.Type: GrantFiled: January 27, 2000Date of Patent: June 10, 2003Assignee: Industrial Thermo Polymers LimitedInventors: Hermann David Hartman, Steven David Hartman
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Publication number: 20030102590Abstract: A method and apparatus for vacuum assisted venting of an injection mold. The apparatus includes a main body structured to be mounted around an outer circumference of the injection mold and configured to facilitate application of a vacuum pressure therein. The method and apparatus are particularly directed towards preventing the accumulation of residual material inside an injection mold and reducing the frequency of disassembly and cleaning required for the injection mold.Type: ApplicationFiled: January 9, 2003Publication date: June 5, 2003Applicant: WEA Manufacturing Inc.Inventors: Edward Pickutoski, Joseph Bistran, Lewis Gensel, William Mueller
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Patent number: 6572811Abstract: A method is provided for rapidly forming a cementitious panel. A cementitious mixture is introduced into a mold configured to provide the desired surface appearance and profile of the cementitious panel. The cementitious mixture is then subject to an accelerated curing process by applying microwave energy to the cementitious mixture for a predetermined time period. After a relatively short resting or cooling period, the resulting cementitious panel is ready to be removed from the mold.Type: GrantFiled: September 21, 1999Date of Patent: June 3, 2003Assignee: Custom Building Systems, Inc.Inventor: William C. Heirich