Patents by Inventor Joseph J. Beaman
Joseph J. Beaman 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: 20030069638Abstract: A process for making bone implants from calcium phosphate powders is disclosed. This process involves selectively fusing layers of calcium powders that have been coated or mixed with polymer binders. The calcium powder mixture may be foamed into layers and the polymer fused with a laser. Complex three-dimensional geometrical shapes can be automatically replicated or modified using this approach.Type: ApplicationFiled: September 26, 2002Publication date: April 10, 2003Inventors: Joel W. Barlow, Goonhee Lee, Richard H. Crawford, Joseph J. Beaman, Harris L. Marcus, Richard J. Lagow
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Patent number: 6540784Abstract: A process for making bone implants from calcium phosphate powders is disclosed. This process involves selectively fusing layers of calcium powders that have been coated or mixed with polymer binders. The calcium powder mixture may be formed into layers and the polymer fused with a laser. Complex three-dimensional geometrical shapes can be automatically replicated or modified using this approach.Type: GrantFiled: January 19, 2001Date of Patent: April 1, 2003Assignee: Board of Regents, The University of Texas SystemInventors: Joel W. Barlow, Goonhee Lee, Richard H. Crawford, Joseph J. Beaman, Harris L. Marcus, Richard J Lagow
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Publication number: 20020015654Abstract: A method of fabricating a fully dense, three dimensional object by direct laser sintering is disclosed. In a chamber with a partial pressure atmosphere, a beam of directed energy melts metallic powder in order to form a solid layer cross section. Another layer of powder is deposited and melted, along with a portion of the previous layer. The energy beam typically is in the form of a laser, scanning along a path resembling a parametric curve or another, arbitrary piecewise parametric curve. In another embodiment, the previous layer is not remelted, thus creating an oxide film that acts as a clean stop to prevent unwanted downward growth.Type: ApplicationFiled: June 1, 2001Publication date: February 7, 2002Inventors: Suman Das, Joseph J. Beaman
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Publication number: 20010005797Abstract: A process for making bone implants from calcium phosphate powders is disclosed. This process involves selectively fusing layers of calcium powders that have been coated or mixed with polymer binders. The calcium powder mixture may be formed into layers and the polymer fused with a laser. Complex three-dimensional geometrical shapes can be automatically replicated or modified using this approach.Type: ApplicationFiled: January 19, 2001Publication date: June 28, 2001Inventors: Joel W Barlow, Goohee Lee, Richard H. Crawford, Joseph J. Beaman, Harris L. Marcus, Richard J. Lagow
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Patent number: 6183515Abstract: A process for making bone implants from calcium phosphate powders is disclosed. This process involves selectively fusing layers of calcium powders that have been coated or mixed with polymer binders. The calcium powder mixture may be formed into layers and the polymer fused with a laser. Complex three-dimensional geometrical shapes can be automatically replicated or modified using this approach.Type: GrantFiled: April 4, 1997Date of Patent: February 6, 2001Assignee: Board of Regents, The University of Texas SystemInventors: Joel W. Barlow, Goonhee Lee, Richard H. Crawford, Joseph J. Beaman, Harris L. Marcus, Richard J. Lagow
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Patent number: 6115404Abstract: An apparatus and method of controlling a remelting process by providing measured process variable values to a process controller; estimating process variable values using a process model of a remelting process; and outputting estimated process variable values from the process controller. Feedback and feedforward control devices receive the estimated process variable values and adjust inputs to the remelting process. Electrode weight, electrode mass, electrode gap, process current, process voltage, electrode position, electrode temperature, electrode thermal boundary layer thickness, electrode velocity, electrode acceleration, slag temperature, melting efficiency, cooling water temperature, cooling water flow rate, crucible temperature profile, slag skin temperature, and/or drip short events are employed, as are parameters representing physical constraints of electroslag remelting or vacuum arc remelting, as applicable.Type: GrantFiled: February 3, 1999Date of Patent: September 5, 2000Assignee: Sandia CorporationInventors: Lee A. Bertram, Rodney L. Williamson, David K. Melgaard, Joseph J. Beaman, David G. Evans
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Patent number: 5930284Abstract: A method and apparatus for controlling vacuum arc remelting (VAR) furnaces by estimation of electrode gap based on a plurality of secondary estimates derived from furnace outputs. The estimation is preferably performed by Kalman filter. Adaptive gain techniques may be employed, as well as detection of process anomalies such as glows.Type: GrantFiled: January 15, 1997Date of Patent: July 27, 1999Assignee: Sandia CorporationInventors: Christopher L. Hysinger, Joseph J. Beaman, David K. Melgaard, Rodney L. Williamson
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Patent number: 5678162Abstract: A mold useful for injection molding, comprising: a porous network of metal and oxidized metal and a cured epoxy resin dispersed in the porous network. The mold can be prepared by a process comprising the sequential steps of (a) forming a mixture of a metal powder and a polymer binder; (b) heating the mixture at a temperature in the range from about 100.degree. C. to about 300.degree. C. to remove a majority of the polymer binder from the mixture; (c) heating the mixture resulting from step (b) at a temperature greater than about 300.degree. C. and less than the melting point of the metal in the presence of oxygen to oxidize at least a portion of the metal to form a self-adhering porous network of metal and oxidized metal; (d) contacting the self-adhering porous network with an epoxy resin to fill at least a portion of the porous network with epoxy resin; and (e) curing the body resulting from step (d) to form the mold. The shape of the mold can be performed by selective laser sintering of the mixture.Type: GrantFiled: November 14, 1994Date of Patent: October 14, 1997Assignee: Board of Regents, Univ. of Texas SystemInventors: Joel W. Barlow, Balasubramanian Badrinarayan, Joseph J. Beaman, David L. Bourell, Richard H. Crawford, Harris L. Marcus, James R. Tobin, Neal K. Vail
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Patent number: 5639402Abstract: Bone implants are made from calcium phosphate powders by selectively fusing layers of calcium powders that have been coated or mixed with polymer binders. The calcium powder mixture may be formed into layers and the polymer fused with a laser. Complex three-dimensional geometrical shapes can be automatically replicated or modified using this approach.Type: GrantFiled: August 8, 1994Date of Patent: June 17, 1997Inventors: Joel W. Barlow, Goonhee Lee, Richard H. Crawford, Joseph J. Beaman, Harris L. Marcus, Richard J. Lagow
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Patent number: 5640667Abstract: A method of fabricating a fully-dense three-dimensional metal article is disclosed. According to a first embodiment of the invention, the interior portion of the article is formed by way of selective laser sintering, in a cross-section of a layer of powder. After formation of the layer of powder, the laser is directed to form a gas-impervious skin around the interior portion of the article in that layer. The process is repeated, until the article is completed. The article surrounded by the skin is then subjected to hot isostatic pressing to densify the article; the skin, which serves as the "can" for the hot isostatic pressing, may or may not be removed from the article, as desired. According to a second embodiment of the invention, the can is formed first by way of laser generation, and is then filled with the metal powder, prior to hot isostatic pressing.Type: GrantFiled: November 27, 1995Date of Patent: June 17, 1997Assignee: Board of Regents, The University of Texas SystemInventors: Douglas W. Freitag, Joseph J. Beaman, David L. Bourell
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Patent number: 5382308Abstract: A method and apparatus for selectively sintering a layer of powder to produce a part comprising a plurality of sintered layers. The apparatus includes a computer controlling a laser to direct the laser energy onto the powder to produce a sintered mass. The computer either determines or is programmed with the boundaries of the desired cross-sectional regions of the part. For each cross-section, the aim of the laser beam is scanned over a layer of powder and the beam is switched on to sinter only the powder within the boundaries of the cross-section. Powder is applied and successive layers sintered until a completed part is formed. Preferably, the powder comprises a plurality of materials having different dissociation or bonding temperatures. The powder preferably comprises blended or coated materials.Type: GrantFiled: March 21, 1994Date of Patent: January 17, 1995Assignee: Board of Regents, The University of Texas SystemInventors: David L. Bourell, Harris L. Marcus, Joel W. Barlow, Joseph J. Beaman, Carl R. Deckard
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Patent number: 5352405Abstract: A method and apparatus for fabricating three-dimensional objects according to the selective laser sintering process are disclosed. In order to reduce inconsistencies in structural and textural integrity, and in thermal effects that can cause distortion, methods for ensuring that overlapping laser scans are accomplished in a consistent manner relative to the thermal flow from the sintered locations are utilized. Methods are disclosed for achieving this by limiting the extent to which the laser scans object areas in the powder layers so that the time-to-return for adjacent overlapping scans is minimized; such minimization results in significantly less variation in the time-to-return overall.Type: GrantFiled: December 18, 1992Date of Patent: October 4, 1994Assignee: DTM CorporationInventors: Joseph J. Beaman, Joseph C. McGrath, Frost R. R. Prioleau
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Patent number: 5155324Abstract: An apparatus and method for producing parts by selective laser sintering are disclosed. The disclosed method selectively sinters a first layer of heat-fusible powder by directing a laser beam so that it scans the first layer in a first direction to sinter a first cross-section of the part. A second layer of the heat-fusible powder is then disposed over the first layer, and the next cross-section of the part is selectively sintered by the laser being scanned in a different direction from the first direction, for example in a direction perpendicular to the first direction. The cross-scanning resulting from scanning in different directions provides parts with structural strength which is not dependent upon orientation, with more uniform surfaces and textures, and with reduced distortion. In addition, each of the layers may have its outlined traced prior to the scanning, to further define the edges of the cross-section.Type: GrantFiled: November 9, 1990Date of Patent: October 13, 1992Inventors: Carl R. Deckard, Joseph J. Beaman, James F. Darrah
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Patent number: 5155321Abstract: A radiant heater, and an apparatus for performing selective laser sintering using the same, are disclosed. The radiant heater is ring-shaped with its dimensions and distance from the target surface preferably defined to provide radiant energy to a target surface, with the rate of energy received per unit area of the target surface being substantially uniform. A frusto-conical ring-shaped radiant heater is also disclosed, which may be disposed closer to the surface to provide improved efficiency of heat transfer in a uniform fashion. A cooling element similarly shaped is also disclosed, which operates in the same manner to uniformly transfer radiant heat from the target surface. Zoning of the ring-shaped radiant heaters, to allow for non-uniform radiant energy emission to the target surface, is also disclosed. Monitoring of the temperature of the target surface is done by way of infrared sensors.Type: GrantFiled: November 9, 1990Date of Patent: October 13, 1992Assignee: DTM CorporationInventors: Kris W. Grube, Joseph J. Beaman
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Patent number: 5076869Abstract: A method and apparatus for selectively sintering a layer of powder to produce a part comprising a plurality of sintered layers. The apparatus includes a computer controlling a laser to direct the laser energy onto the powder to produce a sintered mass. The computer either determines or is programmed with the boundaries of the desired cross-sectional regions of the part. For each cross-section, the aim of the laser beam is scanned over a layer of powder and the beam is switched onto sinter only the powder within the boundaries of the cross-section. Powder is applied and successive layers sintered until a completed part is formed. Preferably, the powder comprises a plurality of materials having different dissociation or bonding temperatures. The powder preferably comprises blended or coated materials.Type: GrantFiled: July 30, 1990Date of Patent: December 31, 1991Assignee: Board of Regents, The University of Texas SystemInventors: David L. Bourell, Harris L. Marcus, Joel W. Barlow, Joseph J. Beaman, Carl R. Deckard
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Patent number: 5053090Abstract: A method and apparatus for selectively sintering a layer of powder to produce a part comprising a plurality of sintered layers. The apparatus includes a computer controlling a laser to direct the laser energy onto the powder to produce a sintered mass. The computer either determines or is programmed with the boundaries of the desired cross-sectional regions of the part. For each cross-section, the aim of the laser beam is scanned over a layer of powder and the beam is switched on to sinter only the powder within the boundaries of the cross-section. Powder is applied and successive layers sintered until a completed part is formed. Preferably, the powder is deposited to the target area of the laser and attains high bulk density during sintering.Type: GrantFiled: July 2, 1990Date of Patent: October 1, 1991Assignee: Board of Regents, The University of Texas SystemInventors: Joseph J. Beaman, Carl R. Deckard
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Patent number: 4944817Abstract: A method and apparatus for selectively sintering a layer of powder to produce a part comprising a plurality of sintered layers. The apparatus includes a computer controlling a laser to direct the laser energy onto the powder to produce a sintered mass. The computer either determines or is programmed with the boundaries of the desired cross-sectional regions of the part. For each cross-section, the aim of the laser beam is scanned over a layer of powder and the beam is switched on to sinter only the powder within the boundaries of the cross-section. Powder is applied and successive layers sintered until a completed part is formed. Preferably, the powder comprises a plurality of materials having different dissociation or bonding temperatures. The powder preferably comprises blended or coated materials.Type: GrantFiled: September 5, 1989Date of Patent: July 31, 1990Assignee: Board of Regents, The University of Texas SystemInventors: David L. Bourell, Harris L. Marcus, Joel W. Barlow, Joseph J. Beaman, Carl R. Deckard
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Patent number: 4938816Abstract: A method and apparatus for selectively sintering a layer of powder to produce a part comprising a plurality of sintered layers. The apparatus includes a computer controlling a laser to direct the laser energy onto the powder to produce a sintered mass. The computer either determines or is programmed with the boundaries of the desired cross-sectional regions of the part. For each cross-section, the aim of the laser beam is scanned over a layer of powder and the beam is switched on to sinter only the powder within the boundaries of the cross-section. Powder is applied and successive layers sintered until a completed part is formed. Preferably, the powder is deposited to the target area of the laser and attains high bulk density during sintering.Type: GrantFiled: September 5, 1989Date of Patent: July 3, 1990Assignee: Board of Regents, The University of Texas SystemInventors: Joseph J. Beaman, Carl R. Deckard