Utilizing A Flexible, Deformable, Or Destructable Molding Surface Or Material Patents (Class 264/313)
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Patent number: 5167781Abstract: Continuous process and apparatus form products from thermoplastic materials between top and bottom mold carriages. A flexible silicone rubber mold adhered to a fiber belt continuously moves around each carriage frame. A surface of desired shape on one rubber mold mates with the desired shape of an opposed rubber mold surface forming a continuously moving mold channel into which is fed hot thermoplastic material at moldable temperature. After discharging the molded plastic product from the moving mold channel, localized surface heat in the molds resulting from contact with hot plastic is removed from the belt molds by blowing cold air onto mold surfaces. Each carriage frame includes a back-up plate coated with low friction coefficient material over which slides a continuously moving belt mold. These slippery plates have numerous air-bearing holes feeding high pressure air between them and the respective moving fiber belt for reducing friction and wear.Type: GrantFiled: April 6, 1990Date of Patent: December 1, 1992Assignee: Kemcast Partners-1989Inventors: W. James Kemerer, Clyde W. Vassar
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Patent number: 5160671Abstract: A method for regenerating a used mandrel made of a fluororesin, includes the steps of heating the mandrel under substantially unloaded conditions to a temperature above the temperature at which the fluororesin is crystallized and gradually cooling the mandrel to a temperature below the temperature at which the fluororesin is crystallized.Type: GrantFiled: October 16, 1991Date of Patent: November 3, 1992Assignee: The Yokohama Rubber Co., Ltd.Inventor: Hajime Satoh
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Patent number: 5160677Abstract: A method for supporting a piece which is to undergo a treatment process including embedding the piece in a particulate support medium, enclosing the support medium in a container, and pressurizing the support medium by applying pressure to the outside of the container or by applying a vacuum to the interior of the container. Various treatment processes may be employed, such as annealing.Type: GrantFiled: May 13, 1991Date of Patent: November 3, 1992Assignee: United States Surgical CorporationInventors: Roy D. Gravener, Ross R. Muth
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Patent number: 5160678Abstract: A method for supporting a piece which is to undergo a treatment process including embedding the piece in a particulate support medium, enclosing the support medium in a container, and pressurizing the support medium by applying pressure to the outside of the container or by applying a vacuum to the interior of the container. Various treatment processes may be employed, such as annealing.Type: GrantFiled: January 18, 1991Date of Patent: November 3, 1992Assignee: United States Surgical CorporationInventors: Roy D. Gravener, Ross R. Muth
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Patent number: 5154937Abstract: An elastic forming die with an aperture section through which a molding material is charged, including a main mold section in membrane form which acts as a female mold for the molded product; a conical section in membrane form which is connected to the aperture section and expands outwardly in the shape of a cone; and an aperture roll section provided at the outer peripheral edge of the cone section, and a method for manufacturing this elastic forming die. Because the elastic forming die is provided with the conical section which is connected to the aperture section and expands outwardly, the release of the molded product from the mold is extremely easy and the elastic forming die can be used to manufacture molded products such as chocolate, jelly, and the like. The molding method using the elastic forming die features the release of the molded product utilizing said cone section.Type: GrantFiled: October 26, 1990Date of Patent: October 13, 1992Assignees: Okamoto Industries, Fujino Syouko Co., Ltd., Toshiya FujishimaInventor: Toshiya Fujishima
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Patent number: 5151232Abstract: A mould for an injection moulding apparatus having two resilient mould inserts mate to form a mould cavity and which separate to permit removal of the moulded article. Each mould insert being inserted into opposed movable mould parts such that they abut to form the mould cavity before the movable mould parts abut one another. A process for forming the mould inserts by pressing bodies of mouldable material together around an article and curing the material to form the inserts.Type: GrantFiled: February 8, 1991Date of Patent: September 29, 1992Assignee: Games Workshop LimitedInventors: John B. Thornthwaite, Robert Naismith
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Patent number: 5151277Abstract: A reconfigurable fiber-forming resin transfer molding system including a sealed chamber with first and second spaced flexible diaphragms for holding a fiber workpiece and press and die mold surfaces for forming the fiber workpiece.Type: GrantFiled: March 27, 1991Date of Patent: September 29, 1992Assignee: The Charles Stark Draper Lab., Inc.Inventors: Edward Bernardon, Michael F. Foley
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Patent number: 5149483Abstract: A method of impregnating electric machinery (32) containing windings with a resin (46) in accordance with the invention includes providing a vessel (30) for containing the electric machinery and an impreganting resin with the vessel having an interior volume (40) in contact with an exterior surface (42) of the electric machinery to be contacted with resin to impregnate the windings; heating the vessel containing the electric machinery to a temperature sufficient to reduce viscosity of the resin upon contact with the machinery to promote flow of resin into contact with the windings; contacting the heated vessel and electric machinery with the resin with the heated electric machinery reducing the viscosity of the resin with the reduced viscosity resin flowing into contact with the windings to be impregnated; curing the resin within the vessel to cause the resin to be retained in contact with the windings and removing the electric machinery from the vessel.Type: GrantFiled: February 26, 1991Date of Patent: September 22, 1992Assignee: Sundstrand CorporationInventors: David W. Okey, Owen M. Briles, Francis T. Carriglitto
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Patent number: 5143817Abstract: An apparatus and method for fabricating integral three-dimensional objects from successive layers of photoformable compositions by exposing the layers of the composition through a detachable flexible transparent film, one side of the film being in contact with the composition and the other side of the film with a rigid transparent plate, which guides and supports the film.Type: GrantFiled: December 22, 1989Date of Patent: September 1, 1992Assignee: E. I. Du Pont de Nemours and CompanyInventors: John A. Lawton, Roxy N. Fan
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Patent number: 5137679Abstract: A method of molding utilizes an apparatus (10) for molding a thin-wall plastic shell which includes a powder box (12) and a mold box (14). The powder box (12) is positioned to an operative position wherein an opening (18) in the powder box (12) is brought in proximity to the mold surface (20) of the mold. A bellows member (34) having a gasket (42) about the end thereof is extended from the opening (18) to perfect a sealed passageway between the opening (18) and the periphery (22) of the mold surface (20).Type: GrantFiled: March 4, 1992Date of Patent: August 11, 1992Assignee: Davidson Textron Inc.Inventors: Robert Tibbetts, Stuart Kaiser
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Patent number: 5133920Abstract: A family of composite materials consisting of a mineral filler and a synthetic polymer are provided which are characterized by properties similar to natural ivory. The ivory-like composite material contains about 25 to about 75 percent by weight of the mineral filler, preferably a calcium phosphate. In addition, the composite material contains about 75 to about 25 percent by weight of the polyamino acid, preferably an .alpha.-amino acid such as poly(gamma-methyl L-glutamate). The composite material is formed using in situ polymerization techniques, thereby ensuring intimate and homogeneous blending of the mineral and polymer phases as well as facile preparation at ambient temperatures. In addition, the ivory-like composite material is molded using an isostatic compression molding technique. The composite material may be molded to form virtually any desired shape for decorative or practical purposes, or for subsequent carving.Type: GrantFiled: March 25, 1991Date of Patent: July 28, 1992Assignee: The Dow Chemical CompanyInventors: Linneaus C. Dorman, John A. Rice
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Patent number: 5131834Abstract: An isostatic pressurizing bag for consolidating a composite part has an outer flexible elastomer having a fixed resilient outside surface. The outer elastomer surrounds a closed chamber. A thermally expandable inner elastomer is located in the closed chamber. The inner elastomer is selected as an elastomer that can viscously flow or move in response to pressure. The outer elastomer is capable of flexure to relieve expansion of the inner elastomer. The bag is formed by curing plies of uncured silicone rubber around either a silicone gel or a particulated silicone rubber that is capable of phase change to a flowable gel in response to pressure. In use a composite prepreg is overlaid on a surface that defines the shape of a desired part. The isostatic pressurizing bag is located over the prepreg trapping the prepreg between the pressurizing bag and the surface.Type: GrantFiled: December 21, 1990Date of Patent: July 21, 1992Assignee: Northrop CorporationInventor: John E. Potter
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Patent number: 5129813Abstract: A vacuum bag including a non-porous material having impressed therein a three-dimensional pattern which defines a plurality of interconnected channels, methods for producing the vacuum bag, molding methods using the vacuum bag, and improved composite articles produced by the molding method, are disclosed.Type: GrantFiled: February 11, 1991Date of Patent: July 14, 1992Inventor: G. Maury Shepherd
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Patent number: 5125993Abstract: Fiber reinforced resin composite structures are cured and fully consolidated while compensating for incomplete initial compaction of prepreg between cores, and the mandrel's thermal growth which spreads the cores apart by forming the structure around a metal alloy form fastened to a mandrel wherein the coefficient of thermal expansion of the metal alloy is greater than that of the mandrel.Type: GrantFiled: July 25, 1991Date of Patent: June 30, 1992Assignee: E. I. Du Pont de Nemours and CompanyInventor: Frank S. Principe
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Patent number: 5125813Abstract: A composite material for use as a molding plate in a method of shaping molding compounds in the repair and restoration of damaged surfaces. In the preferred embodiment, a layer of expanded metal is bonded to a plurality of perforated plastic strips.Type: GrantFiled: July 12, 1991Date of Patent: June 30, 1992Inventor: Jerome R. Roestenberg
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Patent number: 5124105Abstract: In the manufacture of a wax pattern for use in the lost wax casting of a bladed rotor of the radial flow type, the bladed region of a master pattern is enclosed by a curable epoxy resin/aluminium powder composition. Sufficient of the cured resin composition is then machined away so that a plurality of resin composition segments are defined, one segment being interposed between adjacent blades on the master pattern. The segments are then removed from the master pattern and placed in an appropriately configured die member so as to define a complete die for the production of a wax pattern in the form of the master pattern.Type: GrantFiled: January 29, 1991Date of Patent: June 23, 1992Assignees: Rolls-Royce plc, Rolls-Royce Business Ventures LimitedInventors: James Broughton, Graham J. Marklew, Mark H. Griffiths, Hubert D. Sellars
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Patent number: 5123784Abstract: A method of sealing a concrete joint formed between a pair of concrete castings by creating an injection hole wherein a removable frame member can be attached to the bottom surface of the first concrete casting so as to form obtuse angles with the concrete casting surface. The other concrete casting is then cast around the frame member. The frame member is then removed to form the injection hole of the desired configuration, and sealing material can then be inserted into the injection hole for feeding into, and sealing of, the joint.Type: GrantFiled: November 9, 1990Date of Patent: June 23, 1992Assignee: Takenaka CorporationInventor: Yoshifumi Takahei
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Patent number: 5122176Abstract: A method of densifying glass-composite structures using a superplastically deformed foil to partially encapsulate a glass-composite part and a part holding die. The die and part are contained in a rigid box held in a press. The foil is deformed over the die and part. Heat and pressure are applied to the die and part, through the rigid box, to soften the glass matrix of the part and to cause the glass to flow into the voids of the part.Type: GrantFiled: January 17, 1990Date of Patent: June 16, 1992Assignee: McDonnell Douglas CorporationInventor: Richard W. Goettler
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Patent number: 5122323Abstract: A method for rapidly forming composites by rotating an alterable male mold to wrap a plurality of continuous and intermittent layers of uncured laminate around the male mold when in a closed position and allowing the male mold to be moved into a female mold and to thereafter sever all layers on the male mold into an open position which thereafter transfers the resin matrix composite to a female mold which shapes the composite in a desired configuration and thereafter heat cures the composite lay-up material while being subjected to a vacuum. A second embodiment of the invention uses a non-rotatable male mold.Type: GrantFiled: April 24, 1991Date of Patent: June 16, 1992Inventor: Fletcher R. Sullivan, Sr.
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Patent number: 5114654Abstract: For forming a resin-impregnated, fiber reinforced composite material sheet having laminated meshes of fibers into a U-shaped cross section, the sheet is placed onto a stationary forming die and an auxiliary forming die with the fibers of the sheet forming angles of approximately 45.degree. relative to opposite edges of an upper reference forming surface of the stationary die. Then, the sheet is pressed from above by a pneumatically expandable, elastic depressing die, whereby the auxiliary forming die is lowered against a resilient force relative to the stationary forming die. As the sheet is pressed further downwardly by the depressing die, the parts of the sheet which are to form flanges of the product are firmly held between the depressing die and the auxiliary forming die and bent downwards while the parts are subjected to extending forces in directions to prevent creases and lines from being formed by means of auxiliary forming ridges on the auxiliary forming die.Type: GrantFiled: August 21, 1990Date of Patent: May 19, 1992Assignee: Fuji Jukogyo Kabushiki KaishaInventor: Masanori Hosoi
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Patent number: 5110531Abstract: Method and apparatus of casting silicon produced by the reaction between SiF.sub.4 and an alkaline earth metal into thin wafer-shaped articles suitable for solar cell fabrication.Type: GrantFiled: December 27, 1982Date of Patent: May 5, 1992Assignee: SRI InternationalInventor: Leonard Nanis
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Patent number: 5108671Abstract: A formwork for a draft tube which includes ganged precast forms, each precast form corresponding to a curved segment of the draft tube. The precast forms are molded with continuous side plates extending thereabout and anchored in the precast concrete form and projecting beyond the surface opposite to the contact surface to provide a flange. A fastening means for attaching adjacent forms with a space therebetween to allow for stripping. A method includes determining the outline of the inner surface of the draft tube and dividing it into segments and preparing molds to make precast forms corresponding to each segment. The precast forms are assembled and shored to provide the draft tube ganged formwork, and concrete is poured about the draft tube formwork and is cured. The precast forms are stripped from the set concrete structure and reused in another draft tube formwork.Type: GrantFiled: August 7, 1991Date of Patent: April 28, 1992Assignee: Kiewit Construction Group Inc.Inventor: Louis Chapdelaine
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Patent number: 5106568Abstract: A method and apparatus for vacuum bag molding of composite materials which eliminates the need for a porous release sheet. Prepregs are placed on a forming tool and overlayed with at least one sheet of nonporous material and a breather sheet and then enclosed within an impermeable membrane. The volume enclosed by the membrane is evacuated, the resin in the prepregs is outgassed, and the prepregs are coalesced to mold the prepregs to the shape of the forming tool. After curing the resin, the temperature is reduced and the resultant article is removed from the forming tool.Type: GrantFiled: November 15, 1991Date of Patent: April 21, 1992Assignee: McDonnell Douglas CorporationInventor: Paul J. Honka
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Patent number: 5104597Abstract: A longitudinal multi-component frame element is formed by positioning at least one longitudinal member to form a first component of the frame element within a longitudinal mold. A second component of the frame element is formed by introducing into the mold a foamable and curable material such as polyurethane which cures to form a rigid plastic component connected to the longitudinal member. Before formation of the rigid plastic component, the longitudinal mold is bent in a direction opposite to a direction of anticipated warping of the frame element that would be caused by internal stresses therein. Thus, the frame element initially is formed within the mold to be of a bent configuration, and after removal of the frame element from the mold, the internal stresses transform such initial bent configuration into a straight or rectilinear configuration.Type: GrantFiled: December 11, 1989Date of Patent: April 14, 1992Assignee: Masco Industries, Inc.Inventor: Hans-Dieter Paulsen
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Patent number: 5102604Abstract: A process for curing a polymeric article formed from a fiber material inpregnated with uncured phenolics, unsaturated polyesters, epoxides, or silicones. The process involves placing the uncured article into a non-gas tight pressure chamber, packing the chamber with lubricated beads, and heating the article under pressure. Additionally, fiber-reinforced thermoplastics may be heat shaped in the presence or absence of a mold.Type: GrantFiled: May 17, 1990Date of Patent: April 7, 1992Assignee: The B.F. Goodrich CompanyInventors: James Sidles, Brian Sarvas
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Patent number: 5098620Abstract: A method and apparatus for injection molding of ceramic suspension is disclosed wherein an elastomeric bladder is disposed within a mold cavity of a mold. The elastomeric bladder, in a relaxed state, can be tubular or can be formed by bonding together sheets of material. A ceramic suspension is injected into the elastomeric bladder, whereby the elastomeric bladder is distended. Distention of the elastomeric bladder applied a significant force to the ceramic suspension for preventing jetting and formation of knit lines within the ceramic suspension. The ceramic suspension distends the elastomeric bladder until the mold cavity is filled. The ceramic suspension is then exposed to conditions sufficient to cause the injected ceramic suspension to form a molded ceramic greenware composite. The molded ceramic greenware composite can then be removed from the mold for drying and for debindering and densification to form a finished ceramic part.Type: GrantFiled: June 7, 1990Date of Patent: March 24, 1992Assignee: The Dow Chemical CompanyInventors: Norbert L. Bradley, Virgil W. Coomer
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Patent number: 5094796Abstract: An elastically deformable die includes two or more die members formed of materials exhibiting different degrees of elastic deformation under the same stress which are combined and arranged such that the elastic deformation thereof under the pressure received from a workpiece during a forming operation causes the surface of the die in contact with the workpiece to be formed to a prescribed configuration. In die forming the composite die is brought in contact with a surface of the workpiece, the die is elastically deformed at the surface of contact by the pressure received from the workpiece during the forming process, and the workpiece is formed to the prescribed configuration by this deformation.Type: GrantFiled: March 12, 1991Date of Patent: March 10, 1992Assignees: Agency of Industrial Science and Technology, Ministry of International Trade and IndustryInventors: Masahito Katoh, Kenichi Hibino
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Patent number: 5092023Abstract: A process for the production of, in particular, ceramic parts having a cavity by press molding or pressing sealed sheaths.The core used for defining the cavity and preventing subsequent machining operations is initially more voluminous than the desired cavity and has an adequate ductility to allow partial extrusion during pressing. This avoids often excessive mechanical stresses, which can lead to a bursting or shattering of the densified part when the sheath is removed. This process has, application to the hot isostatic pressing of fragile materials.Type: GrantFiled: November 21, 1990Date of Patent: March 3, 1992Assignee: Commissariat a l'Energie AtomiqueInventors: Marcel Boncoeur, Frederic Valin
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Patent number: 5091127Abstract: Dimples can be produced in the surfaces of cast ceramic pieces by casting these pieces in a mold which contains as the dimple producing pattern a layer of bubble pack. In another embodiment of the invention, there is described the mold which incorporates bubble pack to produce dimpled effects in cast ceramic pieces.Type: GrantFiled: July 16, 1990Date of Patent: February 25, 1992Assignee: Magneco/Metrel, Inc.Inventor: Madjid Soofi
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Patent number: 5091136Abstract: In a method of making relief structures on mother-of-pearl layers removed from the shells of mollusks a portion of the layer is disposed on a negative mold having a relief shape formed therein, a modelling material is disposed on the layer portion and the layer portion is pressed into engagement with the negative mold by way of a planar stamp pressing onto the modelling material thereby relief-shaping the mother-of-pearl layer.Type: GrantFiled: June 19, 1991Date of Patent: February 25, 1992Assignee: Bock & Schupp GmbH & Co. KGInventors: Jurgen Bock, Karola Metzger-Pegau, Wolfgang Zeller
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Patent number: 5087187Abstract: An apparatus for molding hollow composite articles having a plurality of internal webs. A mandrel assembly apparatus includes slidable sidewall members, an inflatable pressure membrane surrounding the length of the slidable sidewall members and actuator means mounted on the interior of the sidewall members for lateral displacement thereof together with the inflatable membrane. Adjacent mandrel assemblies accurately position the internal webs of the composite article mechanically, while the inflatable membranes serve to compact the web laminates. The expandable sidewall members also prevent bridging or tearing of the pressure membrane associated with the formation of inner corner radii.Type: GrantFiled: March 9, 1990Date of Patent: February 11, 1992Assignee: United Technologies CorporationInventors: Richard J. Simkulak, Terry M. Boustead, Robert L. Folts, George N. Sepe
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Patent number: 5084219Abstract: A method of fabricating structures formed from composite materials by positioning the structure about a high coefficient of thermal expansion material, wrapping a graphite fiber overwrap about the structure, and thereafter heating the assembly to expand the high coefficient of thermal expansion material to forcibly compress the composite structure against the restraint provided by the graphite overwrap. The high coefficient of thermal expansion material is disposed about a mandrel with a release system therebetween, and with a release system between the material having the high coefficient of thermal expansion and the composite material, and between the graphite fibers and the composite structure. The heating may occur by inducing heat into the assembly by a magnetic field created by coils disposed about the assembly through which alternating current flows. The method permits structures to be formed without the use of an autoclave.Type: GrantFiled: September 5, 1990Date of Patent: January 28, 1992Assignee: The United States of America as represented by the Administrator of the National Aeronautics and Space AdministrationInventor: Wanda A. Sigur
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Patent number: 5080854Abstract: A method of die forming using an elastically deformable die is characterized by using a die provided in advance with a prescribed pattern of thickness variation, allowing the die to be elastically deformed by the pressure it receives from the material being formed during the forming operation, and forming the material to the configuration resulting from the deformation.Type: GrantFiled: November 9, 1990Date of Patent: January 14, 1992Assignee: Agency of Industrial Science & Technology, Ministry of International Trade & IndustryInventors: Masahito Katoh, Kenichi Hibino
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Patent number: 5080850Abstract: The present invention consists of a collapsible hollow core, having a circumferentially variable wall thickness, for use in a method of forming a hollow article. The core is manufactured by extruding a hollow parison into an open core forming mould, closing this mould, expanding the parison against the inner walls of the core forming mould by injecting pressure into the parison, and opening the mould to remove the core. The core thus formed is used in a method of forming a hollow article of a resin reinforced with fibers. The method consists of winding reinforcing fibers tightly around a hollow core having a circumferentially variable wall thickness and placing the wound core in a mould. A differential pressure is then provided between the interior and exterior of the core to cause a thinner wall portion thereof to initiate collapse of the core, and this collapse is continued to an extent necessary to relax the fibers.Type: GrantFiled: July 20, 1989Date of Patent: January 14, 1992Inventor: James Holloway
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Patent number: 5059377Abstract: A method of forming a three-dimensional composite structure. Uncured portions of the composite structure are first assembled between a initially rigid heat-softening inner layer of ABS plastic and a hard outer mold surface. Prior to curing of the composite structure, pressure and heat is applied to the ABS layer to soften the layer. Thereafter, pressure is applied to the side of the ABS layer opposite from the composite structure, thereby to compact the uncured portions of the composite structure against the hard outer mold. Stiffening beams may be incorporated into the composite structure, so as to yield a lightweight, strong composite structure that can be used as a pressure vessel in an aerospace vehicle.Type: GrantFiled: July 21, 1989Date of Patent: October 22, 1991Assignee: Aerotrans CorporationInventors: Larry J. Ashton, Todd H. Ashton
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Patent number: 5057258Abstract: Segments of tire tread are utilized as patterning elements to produce elastomeric form liners useful for creating designs on poured concrete structures. The segments of tire tread are arranged in the interior of an open-faced mold box, and liquified elastomeric material is poured into the mold box and allowed to solidify. An elastomeric form is then separated from the mold box. This form may be used itself as a form liner, but is preferably used as a mold to produce further generations of forms and form liners. The form liners are used to line the interior of a concrete form, and the tread patterns are thereby imparted to the surface of the resulting concrete structure.Type: GrantFiled: September 22, 1989Date of Patent: October 15, 1991Inventor: Vicki B. Scuri
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Patent number: 5056211Abstract: A ball screw system has a screw (1, 2) and a nut (3) mounted thereon by means of balls (5). Redirecting portions (6) which delimit redirecting channels for circulating balls running in thread grooves of the screw and the nut are formed in openings extending transversely in the nut. The openings in the nut are filled with an initially liquid, solidifiable or curable material. The redirecting ball or recirculating channels are thereby cast therein.Type: GrantFiled: March 26, 1990Date of Patent: October 15, 1991Assignee: NEFF GmbHInventor: Karl-Heinz Hauser
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Patent number: 5057267Abstract: A parison forming device is disclosed for forming hollow polymer extrudes of variable wall thickness in either the circumferential or longitudinal directions, or in any combination thereof. The parison forming device consists of a die-head assembly and mandrel assembly, concentrically arranged, creating an annual opening. The inner or outer circumferential perimeter of the annular opening may be selectively modified at specific radial locations through radially displaceable slides positioned about the annular opening. The slides, attached to either the die-head assembly or mandrel assembly, may be actuated during parison formation via hydraulic or other methods so as to provide suitable wall thickness profiles for later finished polymer products.Type: GrantFiled: January 10, 1990Date of Patent: October 15, 1991Assignee: Solvay Automotive, Inc.Inventors: Robert D. Seizert, James R. Osborne
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Patent number: 5055251Abstract: Forming process, during vulcanization on a mandrel, of the end portions of rubber tubes, using a tool having a radially deformable skirt in the form of a corolla, made of vulcanized rubber which encloses the end portions of rubber tubes using solely the action of the circumferential elasticity of its corolla. The disengagement of the part after vulcanization is accomplished by a simple axial thrust on the corolla. An upturned position of the radially deformable skirt makes possible the installation of the rubber tubes and other preparation operations.Type: GrantFiled: February 28, 1990Date of Patent: October 8, 1991Assignee: Caoutchouc Manufacture et Plastiques S.A.Inventors: Armand Lebarbier, Michel Deschamps
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Patent number: 5055242Abstract: A process for continuously forming reinforced articles (24) which includes producing a reinforcing material (13) having a plurality of superimposed layers (1-6), stitching together said layers (1-6), wetting said reinforcing material (13) with a matrix material (7, 8 or 19), forming the wetted reinforcing material and curing or consolidating the matrix material. Each layer (1-6) of the reinforcing material (13) includes a plurality of unidirectional non-woven yarns or threads (10) laid side-by-side, the yarns or threads (10) in at least some of the different layers (1-6) extending in different directions. Forming of the wetted reinforcing material may be effected by moulding, pultrusion or by wrapping wetted reinforcing material around a mandrel or former (25).Type: GrantFiled: September 25, 1989Date of Patent: October 8, 1991Assignee: Tech Textiles LimitedInventor: Jeffrey A. Vane
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Patent number: 5051224Abstract: There is disclosed a trapped polymer method for molding composite articles at temperatures of at least 535.degree. C., comprising heating to a temperature of at least 535.degree. C. a mold containing a master tool, a pre-preg and a trapped polymer comprising a depolymerization-resistant silicone crumb rubber which is resistant to depolymerization of the polymer backbone at a temperature of at least 535.degree. C. to form and cure said pre-preg into the desired composite member.Type: GrantFiled: April 17, 1990Date of Patent: September 24, 1991Assignee: Dow Corning CorporationInventors: Joan M. Donatelli, Godfrey C. Mhah, Sam A. Brady
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Patent number: 5051226Abstract: A method for curing fiber-reinforced resin matrix composite materials (22) includes the steps of providing a form (14) and positioning uncured composite material (22) on the form (14) substantially into a desired shape. The composite material (22) is then cured by providing a fluid bath (10) heated to a predetermined temperature, and heating the composite material (22) by immersing the positioned composite material (22) on the form (14) into the fluid bath (10) for a predetermined time. The predetermined time is sufficient to allow the composite material (22) to become cured and to heat the composite material (22) at a rate sufficient to provide resin flow prior to hardening. Compressive pressure is provided on the composite material (22) while it is immersed in the fluid bath (10).Type: GrantFiled: September 18, 1989Date of Patent: September 24, 1991Assignee: The Boeing CompanyInventors: Val G. Brustad, Richard V. Phillips, William L. Rodman
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Patent number: 5037928Abstract: A process for preparing an ultrahigh molecular weight linear polyethylene (UHMWLPE) exhibiting a combination of properties including a creep resistance of less than 1% demonstrated under exposure to a temperature of 23.degree. C. (+ or -1.degree. C.) and a relative humidity of 50 (+ or -2% for 24 hours under a compression of 1000 psi) without sacrificing excellent tensile and flexural properties. The invention includes the use of an inert gas and a prescribed pattern of heating and cooling including a further heat and cooling treatment to create the superior properties of the UHMWLPE. Also included is the product of the process invention.Type: GrantFiled: March 23, 1990Date of Patent: August 6, 1991Assignee: E. I. Du Pont de Nemours and CompanyInventors: Stephen Li, Edward G. Howard, Jr.
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Patent number: 5035766Abstract: Die plates for forming moisture seals about the junctions of wire harnesses afford improved wire separation and contact between the sealant material in a sealant pad and the wires if the opposed die plates have an elastomeric surface, and the opposed surface of at least one plate is radiused causing the sealant material to separate the wires and flow between and around each wire.Type: GrantFiled: September 22, 1989Date of Patent: July 30, 1991Assignee: Minnesota Mining and Manufacturing CompanyInventors: James R. More, Arnold T. Olsen, John S. Young
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Patent number: 5028368Abstract: A method for making concrete pipe. Vinyl liners are held by an expandable liner carrying device. The carrying device is expanded so as to hold the liner in engagement with the outer surface, forming a liner/carrier assembly. Concrete reinforcing bars are placed around the liner/carrier assembly. The liner/carrier assembly and reinforcing bars are surrounded by a dry-cast concrete form. Then, the form is placed on a forming module, and the module is actuated into engagement with the inside surface of the core forcing the liner/carrier assembly to assume a predetermined, usually cylindrical, shape. The form is filled and immediately taken off of the module. The form is immediately stripped, but the core, held immobile by the dry cast concrete, which sets quickly, continues to hold the liner in engagement with the concrete until a complete bond is established. Finally, the core is retracted from engagement with the liner and removed from the finished lined pipe.Type: GrantFiled: July 11, 1989Date of Patent: July 2, 1991Assignee: International Pipe Machinery CorporationInventor: Thomas D. Grau
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Patent number: 5028364Abstract: A process for forming a concrete wall having a projecting portion such as those formed at a door, windows or the like, including installing two spaced apart opposite form boards which confine a cavity for receiving concrete, one of which has a groove for forming the projecting portion, lining the wall segments with a cushion member which is made of a flexible and compressible material, pouring concrete into the cavity, and moving simultaneously the form board from the formed concrete in a direction similar to the direction of the projecting portion utilizing a hydraulic drive mechanism.Type: GrantFiled: June 23, 1989Date of Patent: July 2, 1991Inventor: Yuan-Ho Lee
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Patent number: 5023042Abstract: Sailboards having a tucked rail are made from a flexible, resilient mold so that the seam of the board is along its bottom edge instead of at its point of greatest breadth. A flexible mold part having the contour of the sailboard to be produced has an opening smaller than the greatest breadth of the board. The mold is first flexed so that its opening is sufficiently wide to receive the blank that forms the body of the sailboard. Secondly, the blank is inserted into the flexed mold, and thirdly, the mold is released and its resiliency returns it to its original shape. A conventional rigid mold part closes the open end, and a vacuum is applied to form the final product. The flexible mold part is flexed a second time to remove the product.Type: GrantFiled: June 29, 1989Date of Patent: June 11, 1991Inventor: Gary Efferding
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Patent number: 5022845Abstract: A segmented mandrel is adapted for use in fabricating large diameter, light weight articles (such as aircraft component structures) made of thermosetting composite materials by placing fiber on the external surface of the mandrel followed by autoclave curing of the composite materials. The segmented mandrel is composed of a center shaft extending lengthwise through the mandrel, four mandrel segments mating together along a seam between their respective adjacent edges, T-stiffeners for fastening the mandrel segments together, and bulkheads rigidly mounted around the shaft and connected to the stiffeners. This segmented mandrel is reusable, is easily assembled and disassembled, and has a system that creates a vacuum seal between mandrel sections while at the same time retains the functions of support and alignment of the mandrel segments carrying the parts being cured.Type: GrantFiled: April 25, 1989Date of Patent: June 11, 1991Assignee: Hercules IncorporatedInventors: Sandra M. Charlson, Steven J. Kotula, Michael R. McCloy
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Patent number: 5022838Abstract: Multi-axis rotational polymeric mixture distributing apparatus includes a raw material supplying portion, a supporting portion, a raw material mixing portion, a polymeric mixture distributing portion, a polymeric mixture accepting portion and a control portion. The raw material supplying portion includes a plurality of reservoirs, each connected independently with the mixing portion. The supporting portion includes a plurality of driven frame members each with a large open central area being disposed between parallel spaced upstanding end sections and rotatably supported thereon, each being progressively smaller in size than the next larger frame member and disposed within the open central area thereof. Alternate frame members are rotatable about aligned axes with frame members therebetween rotatable about axes generally perpendicular thereto. The smallest frame member includes rotatable holding sections.Type: GrantFiled: October 5, 1989Date of Patent: June 11, 1991Inventor: LeRoy Payne
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Patent number: 5019307Abstract: A method and apparatus for the manufacture of hollow ceramic beams are described using a plurality of substantially parallel spaced mandrels mounted within a flexible mold bag which is filled with ceramic forming powder and compressed within an isostatic press to produce a compressed body of powder. A sliding spacer shoe slides along the mandrels during filling as the powder is vibrated for compaction to maintain the mandrels in a predetermined spaced relationship. The mandrels are removed from the compressed body and it is machined to the proper dimensions before firing in a kiln to sinter the body into a hollow ceramic beam. The ceramic beam includes internal support partitions formed integral with the outer walls of the beam by web portions of the body produced between the mandrels.Type: GrantFiled: March 3, 1989Date of Patent: May 28, 1991Assignee: Coors Ceramic CompanyInventors: John R. Brewer, Joseph M. Swenson, Reginald R. Maas