Abstract: Simulated stone texture products are obtained when specially selected materials are properly admixed and formed via rotational molding. These products are manufactured from suitable molds according to a prescribed process methodology using synthetic polymeric materials instead of stone materials. Prerequisite surface textures are produced that effectively simulate the corresponding actual stone products.
Abstract: 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.
Abstract: The biodegradable acting material is made from starch with various additives such as nucleators and plasticizer. The blowing agent used for foaming of the starch material may be alcohol or water. The material is made by mixing a charge of starch, nucleator and plasticizer to form a flowable mass which is then injected on the fly with the blowing agent, i.e. alcohol and/or water. Thereafter, the flowable mass is extruded through a dye and is either cooled to form a latent-foaming material or is allowed to expand into a foamed state. The starch which is used may be a corn starch, potato starch or the like.
Type:
Grant
Filed:
June 2, 1997
Date of Patent:
April 20, 2004
Inventors:
Harry Bussey, Jr., Buddy Harry Bussey, III
Abstract: A method of making an interior trim panel for attachment to structure of a vehicle includes the steps of placing a trim insert into a cavity of an apparatus and over a first seal thereof. The method also includes the steps of loading a retainer over the trim insert to sandwich the trim insert between the retainer and the first seal and closing the apparatus. The method further includes the steps of filling the cavity with a plastic material and introducing steam into the apparatus to expand the plastic material to form a substrate and bonding the substrate against the trim insert to form an interior trim panel.
Type:
Grant
Filed:
September 25, 2001
Date of Patent:
April 20, 2004
Assignees:
Delphi Technologies, Inc., JSP Licenses, Inc.
Inventors:
David Wayne Whitehead, Carl Henry Visconti, Arthur Carl Stein, David M. White, Thomas W. Gibson, Ismael Rodriguez
Abstract: The present invention pertains to a process for the rotational molding of polyurethane composite articles. The process is carried out by placing a polyurethane composite precursor composed of a hardener, a resin and a filler, wherein the hardener comprises one or more organic di- or polyisocyanates, and the resin comprises of one or more compounds containing at least two isocyanate-reactive groups, the filler is about 15% to about 50% by weight, or alternatively, about 15% to about 35% by weight, or, in a preferred embodiment, about 25% by weight, the % weight being based upon total weight of the mixture, and either the hardener or the filler optionally contains additives and/or catalysts in a rotational mold, and rotating said mold until at least the first cure time of the molded article is completed. The invention a also pertains to the articles produced by use of this method.
Abstract: A method and apparatus for making a densified skin polymer foam plank comprising providing a polymer foam having a plurality of cells and heating an outer surface of the foam at a heating station. The heating step collapses and melts the cells adjacent the outer surface to form the densified skin having a density greater than a density of the foam before the heating step. Additionally, the method and apparatus may further include extruding the polymer foam from an extruder.
Type:
Grant
Filed:
February 3, 2000
Date of Patent:
April 6, 2004
Assignee:
Pactiv Corporation
Inventors:
Jeffrey J. Stimler, David P. Zettel, Said K. Farha
Abstract: A process for cross-linking/expanding at least one cross-linkable, expandable blank, which is intended to form all or part of an elastomeric safety support for a tire in which: the cross-linking consists of curing the expandable or expanded blank in a bath of fluid at excess pressure which is contained in an enclosure, such that the blank interacts with the bath independently of the enclosure, the temperature of the bath having a maximum value of between 110° C. and 210° C. and the absolute pressure of said bath having at least a value equal to or greater than 14 bar, and the expansion consists of curing the cross-linkable or cross-linked blank in the bath, the temperature of the bath having a maximum value of between 110° C. and 210° C., and the absolute pressure of the bath having at least a value equal to or greater than 5 bar and a final pressure-relief value substantially equal to 1 bar, for expanding the blank such that its increase in volume is unlimited with respect to the enclosure.
Type:
Grant
Filed:
May 17, 2001
Date of Patent:
April 6, 2004
Assignee:
Michelin Recherche et Technique S.A.
Inventors:
Pierre Durif, Noel Morel, Georges Peyron, Gilbert Menard
Abstract: A method of manufacturing a wrist pad, comprising the steps of: a. Knead and stir a mixture having natural rubber and foaming agent repeatedly to make it well mixed. b. Press the well mixed mixture into a plank element. c. Form an arched portion on the plank element. d. Foam the plank element with the arched portion so that a chemical reaction will occur between the natural rubber and the foaming agent to produce an air pressure for forming the plank element to a wrist pad, and e. Cool the foamed wrist pad and cut the wrist pad into a predetermined shape.
Abstract: 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.
Abstract: A method of molding a plastic shell having an outer pliable skin layer and a foam backing layer comprises casting a first skin layer portion from wear resistant material in a first casting sequence for those areas of the panel susceptible to high wear and in a second casting sequence casting self-skinning foamable material against the remaining portion of the mold surface and over the first-cast skin layer portion to develop, simultaneously, the remaining outer skin layer portion of the shell and a foam backing layer which extends across the entire skin layer.
Type:
Grant
Filed:
February 19, 2001
Date of Patent:
March 16, 2004
Assignee:
Textron Automotive Company, Inc.
Inventors:
Michael J. Gallagher, Bruce A. Batchelder
Abstract: An object constructed of a thermoplastic polymer foam is heated above the polymer softening temperature, compacted to a desired reduced volume and reduced to a temperature below the critical softening temperature for storage. On the object being subjected again to a temperature above the polymer softening temperature, it assumes its original shape and volume. The object can additionally include flexible polymer sheets, fabrics or liners.
Abstract: A process for the preparation of a porous composite product. The process steps are forming a homogeneous mixture having one or more insoluble polymers, one or more soluble or calcinable polymers and one or more fillers, in particular with a high specific surface; extruding the mixture to form an extruded precursor product; removing the soluble or calcinable polymer or polymers from the extruded precursor product, in order to form pores, and recovering the porous composite product.
Type:
Grant
Filed:
September 20, 2001
Date of Patent:
March 9, 2004
Assignee:
Bollore
Inventors:
Jean-François Penneau, François Capitaine, Philippe Le Goff
Abstract: Methods of rapidly prototyping microstructures such as HARMs are disclosed. A high precision process uses polymeric microstructure replication techniques and sacrificial layer etching techniques to mass produce high aspect ratio metallic and polymer micromold inserts. In one embodiment, after fabrication of an initial micromold insert, high aspect ratio replications are created by casting replication material, such as PDMS, directly onto the initial micromold insert. The replicated HARM is coated with a sacrificial layer and then electroplated to replicate another set of micromold inserts. After the electroplating process is completed, the sacrificial layer is etched away to release the replicated micromold inserts.
Type:
Grant
Filed:
October 3, 2001
Date of Patent:
February 17, 2004
Assignee:
Board of Supervisors of Louisiana State University and
Agricultural and Mechanical College
Inventors:
Jeong-Bong Lee, Harish Manohara, Kabseog Kim, Sang-Won Park
Abstract: The present invention relates to foamed thermoplastic resin moldings which can be used, for example, as food product containers which can contain retort food products, etc., household electrical appliance parts and automotive interior parts, and to a process for producing the same, said foamed thermoplastic resin molding prepared by shaping a foamed thermoplastic resin sheet, the molding comprising a general part and a thick part wherein these parts differ from each other in thickness wherein the mean expansion ratio of the thick part is not less than 1.2 times the mean expansion ratio of the general part and wherein the maximum thickness of the thick part is not less than 1.5 times the thickness of the general part.
Abstract: This invention is directed to golf balls including one or more foamed, microcellular materials. The invention also encompasses methods of controlling or adjusting one or more material properties or the weight distribution of a golf ball, and methods of forming golf balls including such microcellular materials.
Type:
Grant
Filed:
May 10, 2002
Date of Patent:
January 13, 2004
Assignee:
Acushnet Company
Inventors:
Kevin M. Harris, Murali Rajagopalan, Christopher Cavallaro
Abstract: The present invention revolutionizes a scale modelers ability to quickly and easily create realistic scale roads or paved surfaces by allowing the said user to create said road or road system in any size, shape or configuration. This work is to be performed on a work bench thus saving much back and muscle ache(s) from the necessity to lean over a layout or scale model scene to create a road or road system in place. The present invention will remain flexible in it's completed form allowing for placement onto varying ground elevations and hill grades.
Abstract: 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:
Grant
Filed:
May 16, 2001
Date of Patent:
January 6, 2004
Assignee:
International Business Machines Corporation
Inventors:
Tricia L. Breen, Laura L. Kosbar, Michael P. Mastro, Ronald W. Nunes
Abstract: A method of making a porous biodegradable polymer is disclosed, which comprises (a) placing a biodegradable polymer and a solvent in a chamber; (b) adding a supercritical fluid to the chamber and maintaining the chamber at a predetermined temperature for a sufficient period of time to allow the supercritical fluid to dissolve into the biodegradable polymer with the help of the solvent; and (c) venting the supercritical fluid and the solvent by reducing the pressure in the chamber, thereby obtaining a porous biodegradable polymer.
Type:
Grant
Filed:
September 4, 2001
Date of Patent:
January 6, 2004
Assignee:
Industrial Technology Research Institute
Abstract: 3-D biodegradable porous, polymer (natural or synthetic) scaffolds with well-controlled, interconnected pores, and method for forming the porous materials. Hydrophilic and/or hydrophobic porogen materials were fabricated into 3-D negative replicas of the desired macroporous architectures. Biodegradable polymers (PLLA and PLGA) were dissolved in a solvent and cast onto the negative replica. After dissolving/leaching out the porogen materials, a porous polymer scaffold was formed. The skeletal structure of PLLA foams consisted of small platelets or nano-fibers, while PLGA foams had homogeneous skeletal structure. To improve the cell seeding, distribution, mass transport, and new tissue organization and vascularization, 3-D macroporous architectures are built in the nano-fibrous matrices. The method tailors polymer scaffolds for a variety of potential tissue engineering applications due to the well-controlled architecture, inter-pore connectivity, and mechanical properties.
Type:
Grant
Filed:
May 11, 2001
Date of Patent:
January 6, 2004
Assignee:
The Regents of the University of Michigan
Abstract: The invention concerns a process for producing a mold, wherein a hollow space is formed within a rigid mold frame (2) which corresponds to the shape of the component to be produced. According to the invention one fills the mold frame, with the exception of an area which surrounds and is in close proximity to the hollow space, with a plurality of filler elements (6), which are formed into at least an essentially incompressible shape. Subsequently, a model (8) of the component to be produced is introduced into the mold and the interstitial space between the model and the filler elements is filled with a masking material or mold shell forming material (4).