Patents by Inventor Scott Weil
Scott Weil has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20100297341Abstract: Methods of aluminizing the surface of a metal substrate. The methods of the present invention do not require establishment of a vacuum or a reducing atmosphere, as is typically necessary. Accordingly, aluminization can occur in the presence of oxygen, which greatly simplifies and reduces processing costs by allowing deposition of the aluminum coating to be performed, for example, in air. Embodiments of the present invention can be characterized by applying a slurry that includes a binder and powder granules containing aluminum to the metal substrate surface. Then, in a combined step, a portion of the aluminum is diffused into the substrate and a portion of the aluminum is oxidized by heating the slurry to a temperature greater than the melting point of the aluminum in an oxygen-containing atmosphere.Type: ApplicationFiled: May 21, 2009Publication date: November 25, 2010Applicant: BATTELLE MEMORIAL INSTITUTEInventors: Jung-Pyung Choi, Kenneth Scott Weil
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Patent number: 7794170Abstract: A joint for use in electrochemical devices, such as solid oxide fuel cells (SOFCs), oxygen separators, and hydrogen separators, that will maintain a hermetic seal at operating temperatures of greater than 600° C., despite repeated thermal cycling excess of 600° C. in a hostile operating environment where one side of the joint is continuously exposed to an oxidizing atmosphere and the other side is continuously exposed to a wet reducing gas. The joint is formed of a metal part, a ceramic part, and a flexible gasket. The flexible gasket is metal, but is thinner and more flexible than the metal part.Type: GrantFiled: April 22, 2005Date of Patent: September 14, 2010Assignee: Battelle Memorial InstituteInventors: K. Scott Weil, John S. Hardy
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Publication number: 20100218875Abstract: A method for joining two ceramic parts, or a ceramic part and a metal part, and the joint formed thereby. The method provides two or more parts, a braze consisting of a mixture of copper oxide and silver, a diffusion barrier, and then heats the braze for a time and at a temperature sufficient to form the braze into a bond holding the two or more parts together. The diffusion barrier is an oxidizable metal that forms either a homogeneous component of the braze, a heterogeneous component of the braze, a separate layer bordering the braze, or combinations thereof. The oxidizable metal is selected from the group Al, Mg, Cr, Si, Ni, Co, Mn, Ti, Zr, Hf, Pt, Pd, Au, lanthanides, and combinations thereof.Type: ApplicationFiled: April 5, 2010Publication date: September 2, 2010Applicant: BATTELLE MEMORIAL INSTITUTEInventors: Kenneth Scott Weil, John S. Hardy, Jin Yong Kim, Jung-Pyung Choi
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Patent number: 7754367Abstract: An interconnect system including: a separator plate to provide an anode gas flow space; a first metal interconnect disposed between the separator plate and an anode surface; a nickel oxide paste applied in a pattern over the surface of the anode and adjacent surface of the separator plate which when sintered results in a first conductive layer bonded to the anode and the first interconnect, and a second conductive layer bonded to the first interconnect and the separator plate; a second metal interconnect disposed between a cathode surface of the cell and the separator plate of an adjacent cell cassette; and a silver-containing paste applied over the surface of the cathode and the separator plate which when sintered results in a third conductive layer bonded to the cathode and the second interconnect, and a fourth conductive layer bonded to the second interconnect and the separator plate.Type: GrantFiled: June 28, 2007Date of Patent: July 13, 2010Assignees: Delphi Technologies, Inc., Battelle Memorial InstituteInventors: Karl J. Haltiner, Jr., Subhasish Mukerjee, Lawrence A. Chick, Kerry D. Meinhardt, Vincent L. Sprenkle, Kenneth Scott Weil, Jin Yong Kim
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Patent number: 7691488Abstract: A method for joining two ceramic parts, or a ceramic part and a metal part, and the joint formed thereby. The method provides two or more parts, a braze consisting of a mixture of copper oxide and silver, a diffusion barrier, and then heats the braze for a time and at a temperature sufficient to form the braze into a bond holding the two or more parts together. The diffusion barrier is an oxidizable metal that forms either a homogeneous component of the braze, a heterogeneous component of the braze, a separate layer bordering the braze, or combinations thereof. The oxidizable metal is selected from the group Al, Mg, Cr, Si, Ni, Co, Mn, Ti, Zr, Hf, Pt, Pd, Au, lanthanides, and combinations thereof.Type: GrantFiled: June 11, 2007Date of Patent: April 6, 2010Assignee: Battelle Memorial InstituteInventors: Kenneth Scott Weil, John S. Hardy, Jin Yong Kim, Jung-Pyung Choi
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Patent number: 7691174Abstract: A feedstock composition and a method of forming metal articles using powder metallurgy techniques comprise mixing metal powders and a novel aromatic binder system. The composition of the novel feedstock comprises an aromatic binder system and a metal powder. The aromatic binder system comprises an aromatic species and can further comprise lubricants, surfactants, and polymers as additives. The metal powder comprises elemental metals, metal compounds, and metal alloys, particularly for highly-reactive metals. The method of forming metal articles comprises the steps of providing and mixing the metal powder and the aromatic binder system to produce a novel feedstock. The method further comprises processing the novel feedstock into a metal article using a powder metallurgy forming technique. Metal articles formed using the present invention have an increase in carbon and oxygen contents each less than or equal to 0.2 wt % relative to the metal powder used to fabricate the article.Type: GrantFiled: March 8, 2004Date of Patent: April 6, 2010Assignee: Battelle Memorial InstituteInventors: Eric A. Nyberg, Kenneth Scott Weil, Kevin L. Simmons
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Publication number: 20100081026Abstract: Solid-oxide fuel cell (SOFC) stack assembly designs are consistently investigated to develop an assembly that provides optimal performance, and durability, within desired cost parameters. A new design includes a repeat unit having a SOFC cassette and being characterized by a three-component construct. The three components include an oxidation-resistant, metal window frame hermetically joined to an electrolyte layer of a multi-layer, anode-supported ceramic cell and a pre-cassette including a separator plate having a plurality of vias that provide electrical contact between an anode-side collector within the pre-cassette and a cathode-side current collector of an adjacent cell. The third component is a cathode-side seal, which includes a standoff that supports a cathode channel spacing between each of the cassettes in a stack. Cassettes are formed by joining the pre-cassette and the window frame.Type: ApplicationFiled: September 30, 2008Publication date: April 1, 2010Inventors: K. Scott Weil, Kerry D. Meinhardt, Vincent L. Sprenkle
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Patent number: 7585348Abstract: A feedstock composition and a method of forming metal articles using powder metallurgy techniques comprise mixing metal powders and a novel aromatic binder system. The composition of the novel feedstock comprises an aromatic binder system and a metal powder. The aromatic binder system comprises an aromatic species and can further comprise lubricants, surfactants, and polymers as additives. The metal powder comprises elemental metals, metal compounds, and metal alloys, particularly for highly-reactive metals. The method of forming metal articles comprises the steps of providing and mixing the metal powder and the aromatic binder system to produce a novel feedstock. The method further comprises processing the novel feedstock into a metal article using a powder metallurgy forming technique. Metal articles formed using the present invention have an increase in carbon and oxygen contents each less than or equal to 0.2 wt % relative to the metal powder used to fabricate the article.Type: GrantFiled: November 17, 2006Date of Patent: September 8, 2009Assignee: Battelle Memorial InstituteInventors: Eric A. Nyberg, Kenneth Scott Weil, Kevin L. Simmons
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Patent number: 7585458Abstract: A feedstock composition and a method of forming metal articles using powder metallurgy techniques comprise mixing metal powders and a novel aromatic binder system. The composition of the novel feedstock comprises an aromatic binder system and a metal powder. The aromatic binder system comprises an aromatic species and can further comprise lubricants, surfactants, and polymers as additives. The metal powder comprises elemental metals, metal compounds, and metal alloys, particularly for highly-reactive metals. The method of forming metal articles comprises the steps of providing and mixing the metal powder and the aromatic binder system to produce a novel feedstock. The method further comprises processing the novel feedstock into a metal article using a powder metallurgy forming technique. Metal articles formed using the present invention have an increase in carbon and oxygen contents each less than or equal to 0.2 wt % relative to the metal powder used to fabricate the article.Type: GrantFiled: November 17, 2006Date of Patent: September 8, 2009Assignee: Battelle Memorial InstituteInventors: Eric A. Nyberg, Kenneth Scott Weil, Kevin L. Simmons
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Publication number: 20090130458Abstract: A seal formed between a metal part and a second part that will remain gas tight in high temperature operating environments which experience frequent thermal cycling, which is particularly useful as an insulating joint in solid oxide fuel cells. A first metal part is attached to a reinforcing material. A glass forming material in the positioned in between the first metal part and the second part, and a seal is formed between the first metal part and the second part by heating the glass to a temperature suitable to melt the glass forming materials. The glass encapsulates and bonds at least a portion of the reinforcing material, thereby adding tremendous strength to the overall seal. A ceramic material may be added to the glass forming materials, to assist in forming an insulating barrier between the first metal part and the second part and to regulating the viscosity of the glass during the heating step.Type: ApplicationFiled: January 26, 2009Publication date: May 21, 2009Inventors: K. Scott Weil, Lawrence A. Chick, Christopher A. Coyle, John S. Hardy, Guanguang Xia, Kerry D. Meinhardt, Vincent L. Sprenkle, Dean M. Paxton
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Publication number: 20090016953Abstract: High-temperature air braze filler materials composed of various ternary metal alloys are described. Noble metals (M) are added as a ternary constituent to a silver-copper oxide (Ag—CuOx) system. The silver (Ag) component is directly substituted with the noble metal to form a series of alloys. Addition of the noble metal increases the solidus and liquidus temperatures of the resulting air braze filler metals and increases temperatures under which seals and other sealing components formed from these filler metals can be employed.Type: ApplicationFiled: July 10, 2008Publication date: January 15, 2009Inventors: Kenneth Scott Weil, John S. Hardy, Jin Yong Kim
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Publication number: 20090004545Abstract: An interconnect system for connecting adjacent fuel cells in a fuel cell stack. The system comprises five elements: a separator plate to provide an anode gas flow space when joined to a mating cell frame; a first metal interconnect disposed between the separator plate and the anode surface; a nickel oxide paste applied in a pattern over the surface of the anode and adjacent surface of the separator plate which when sintered results in a conductive layer bonded to the anode and to the separator plate; a second metal interconnect disposed between the cathode surface of the cell and the separator plate of the adjacent cell cassette; and a silver-containing paste applied over the surface of the cathode and the separator plate which when sintered results in a conductive layer bonded to the cathode and to the separator plate.Type: ApplicationFiled: June 28, 2007Publication date: January 1, 2009Inventors: Karl J. Haltiner, JR., Subhasish Mukerjee, Lawrence A. Chick, Kerry D. Meinhardt, Vincent L. Sprenkle, Kenneth Scott Weil, Jin Yong Kim
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Publication number: 20080305356Abstract: A method for joining two ceramic parts, or a ceramic part and a metal part, and the joint formed thereby. The method provides two or more parts, a braze consisting of a mixture of copper oxide and silver, a diffusion barrier, and then heats the braze for a time and at a temperature sufficient to form the braze into a bond holding the two or more parts together. The diffusion barrier is an oxidizable metal that forms either a homogeneous component of the braze, a heterogeneous component of the braze, a separate layer bordering the braze, or combinations thereof. The oxidizable metal is selected from the group Al, Mg, Cr, Si, Ni, Co, Mn, Ti, Zr, Hf, Pt, Pd, Au, lanthanides, and combinations thereof.Type: ApplicationFiled: June 11, 2007Publication date: December 11, 2008Inventors: Kenneth Scott Weil, John S. Hardy, Jin Yong Kim, Jung-Pyung Choi
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Publication number: 20080217382Abstract: A method for joining together two or more ceramic and/or metal parts by providing a braze consisting of a mixture of copper oxide, silver, and ceramic particulate. The braze is placed upon the surfaces of the parts, which are then held together for sufficient time and at a sufficient temperature to cause the braze to form a bond between the parts. The addition of the ceramic particulate increases the viscosity of the braze, decreasing squeeze out, decreasing the formation of air pockets, decreases the formation of brittle phases by providing nucleation sites and increases the flexural strength of the joint.Type: ApplicationFiled: March 7, 2007Publication date: September 11, 2008Inventors: Jin Yong Kim, Kenneth Scott Weil, Jung-Pyung Choi
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Patent number: 7422819Abstract: In assembling an SOFC fuel cell stack from a plurality of cassettes, the mounting plate of one cassette is attached to, and insulated from, the separator plate of the next-adjacent cassette by a peripheral dielectric seal consisting of a ceramic coating and a metal braze. Materials suitable for the ceramic coating include yttrium stabilized zirconia (YSZ), zirconia toughened alumina, magnesium silicates such as the mineral forsterite, magnesium aluminates, magnesium aluminosilicates and lanthanum zirconate. The ceramic coating may be applied to the cassette's outer surface in known fashion as by physical vapor deposition, chemical vapor deposition, sputtering, and various methods of plasma spray. An underlayer of alumina may also be used to provide a redundant layer of electrical insulation.Type: GrantFiled: June 22, 2005Date of Patent: September 9, 2008Assignee: Delphi Technologies, Inc.Inventors: Gary F. Reisdorf, Joseph M. Keller, Karl J. Haltiner, Jr., Subhasish Mukerjee, Kenneth Scott Weil, John S. Hardy
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Patent number: 7306872Abstract: A modular fuel cell cassette for use in assembling a fuel cell stack comprising a metal separator plate and a metal cell-mounting plate joined at their edges to form a hollow cassette. A fuel cell subassembly is attached to the mounting plate and extends through an opening in the mounting plate. The plates include openings to form chimney manifolds for supply and exhaust of fuel gas to the anode and air to the cathode. A conductive interconnect element extends from the fuel cell subassembly to make contact with the next cassette in a stack. The anode openings in the mounting plate and separator plate are separated by spacer rings such that the cassette is incompressible. A fuel cell stack comprises a plurality of cassettes, the mounting plate of one cassette being attached to, and insulated from, the separator plate of the next-adjacent cassette by a dielectric seal surrounding the interconnect.Type: GrantFiled: December 30, 2004Date of Patent: December 11, 2007Assignees: Delphi Technologies, Inc., Battelle Memorial InstituteInventors: Karl J. Haltiner, Jr., Subhasish Mukerjee, Lawrence A. Chick, Kerry D. Meinhardt, Dean M. Paxton, Vincent L. Sprenkle, K. Scott Weil, John E. Deibler, Paul E. George, II, Kurtis P. Recknagle
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Patent number: 7055733Abstract: A method of joining metal and ceramic parts, wherein an alumina forming metal part and a ceramic part are provided. A braze material in placed between the alumina forming metal part and the ceramic part, and the combination is then heated in an oxidizing atmosphere, preferably in air at a temperature of between 500° C. and 1300° C. The alumina forming metal parts are selected from the group consisting of high temperature stainless steels, such as Durafoil (alpha-4), Fecralloy, Alumina-coated 430 stainless steel and Crofer-22APU, and high temperature superalloys such as Haynes 214, Nicrofer 6025, and Ducraloy. The braze material is selected as a metal oxide-noble metal mixture, preferably Ag—CuO, Ag—V2O5, and Pt—Nb2O5, and more preferably between 30.65 to 100 mole % Ag in CuO.Type: GrantFiled: December 30, 2002Date of Patent: June 6, 2006Assignee: Battelle Memorial InstituteInventors: K. Scott Weil, John S. Hardy, Jin Yong Kim
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Patent number: 7037309Abstract: Self-tapping screw for small-bone surgery, includes a threaded proximal head (2), a threaded distal shank with greater pitch and an internal cannula (4), characterized in that the distal shank (3) is threaded over its entire length in that the end of the shank has, apart from milled portions forming self-tapping faces on the first distal threads, at least two milled faces and which with the cannula, determine at least two notches (11), and at least two self-boring edges at the distal end of the screw, and in that the thread of the head has, aside from milled portions forming self-tapping faces on the first threads of the proximal screw thread, chamfered faces (16–19), determining boring edges (12b–15b) preceded by a short groove.Type: GrantFiled: July 2, 2002Date of Patent: May 2, 2006Assignees: Depuy (Ireland) LimtedInventors: Lowell Scott Weil, Louis Samuel Barouk, Thierry Souillat
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Publication number: 20040265666Abstract: A cassette for a SOFC stack formed by stamping a separator plate, stamping a frame, attaching a PEN cell to the frame, and attaching the frame to the separator plate. An insulating seal, preferably formed of glass, is provided between the PEN cell and the frame to provide electrical isolation between the frame and the separator plate. Electrical isolation is further provided by forming an insulating seal, preferably formed of glass, between the frame and the separator plate. A plurality of cassettes formed may be formed into a SOFC stack by sealing successive cassettes on top of one and another so that the anode side of each cassette is in electrical communication with the cathode side of each adjacent cassette, and forming an electrically isolated and gas tight seal between the frame of each cassette and the separator plate of each adjacent cassette.Type: ApplicationFiled: June 27, 2003Publication date: December 30, 2004Inventors: K. Scott Weil, Dean M. Paxton, Kerry D. Meinhardt
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Publication number: 20040249381Abstract: Device for securing bits of bone together, particularly small-sized bits of bone, for example bits of metatarsal head, in the form of a spindle comprising an elongate shank (1) followed, after a breakable region (2), by a fixator element (3) extending frustoconically to reduce in diameter in the direction of the anterior end (4), with a screw thread the pitch of which decreases progressively from the anterior end and of which the crests of the thread lie inside a coaxial geometric cylinder (D), the anterior end forming a self-drilling end.Type: ApplicationFiled: July 8, 2004Publication date: December 9, 2004Applicant: DEPUY FRANCEInventors: Lowell Scott Weil, Anne Celine Godest