Fessler et al., “Laser Deposition of Metals for Shape Deposition Manufacturing,” Stanford University et al., 8 pp. |
Beardsley, “Making Light Work, ” Scientific American, Aug. 1997, 1 p. |
“Selective Laser Sintering,” Laboratory for Freeform Fabrication, University of Texas at Austin, from web site http://lff.me.utexas.edu/sls.html, 2 pp. |
Birmingham et al., “Development of a Selective Laser Reaction Sintering Workstation,” Center for Materials Science and Engineering, University of Texas at Austin, pp. 147-153. |
“A Process With Material Advantages,” DTM Corporation, 1996, 4 pp. |
Zong et al., “Direct Solid Freeform Fabrication of High Temperature Materials Using Selective Laser Sintering,” Processing And Fabrication Of Advanced Materials For High Temperature Applications II, The Minerals, Metals & Materials Society, 1993, pp. 503-518. |
“Laser Sintering” bibliography listing, compiled by Chuck Drew, NERAC, Tolland, Connecticut, 12 pp. |
Jeantette et al., “Method and System for Producing Complex-Shape Objects,” IBM web site excerpts of U.S. Pat. No. 6,046,426, 6 pp. |
deAngelis, “Method of Three-Dimensional Rapid Prototyping Through Controlled Layerwise Deposition/Extraction and Apparatus Therefor,” IBM web site excerpts of U.S. Pat. No. 5,398,193, 3 pp. |
Marcus et al., “Method of Producing Parts By Selective Beam Interaction of Powder With Gas Phase Reactant,” IBM web site excerpts of U.S. Pat. No. 5,182,170, 4 pp. |
Whitlow et al., “Energy Beam Casting of Metal Articles,” IBM web site excerpts of U.S. Pat. No. 4,927,992, 3 pp. |
Dickens et al., “Rapid Prototyping Using 3-D Welding,” Department of Manufacturing Engineering and Operations Management, University of Nottingham, UK, pp. 280-290. |
Definitions of “Shape Melting”and Three-Dimensional Printing, from web site http://mtiac.hq.iitri.com/MTIAC/pubs/rp/rp49.htm, 2 pp. |
Marcus et al., “Solid Freeform Fabrication Proceedings,” SFF Symposium, University of Texas at Austin 1992, 6 pp. |
Wozny, “Systems Issues in Solid Freeform Fabrication,” Rensselaer Polytechnic Institute, New York, pp. 1-15. |
Agarwala et al., “FDC, Rapid Fabrication of Structural Components,” The American Ceramic Society Bulletin, vol. 75, No. 11, 1996, pp. 58-65. |
Kochan, “Rapid Developments in Rapid Prototyping,” [source publication unknown], 2 pp. |
Michaels et al., “Metal Parts Generation By Three Dimensional Printing,” Massachusetts Institute of Technology, pp. 244-250. |
Beck et al., “Manufacturing Mechatronics Using Thermal Spray Shape Deposition,” Engineering Design Research Center, Carnegie Mellon University, pp. 272-279. |
Hartmann et al., “Robot-Assisted Shape Deposition Manufacturing,” The Robotics Institute and The Engineering Design Research Center, Carnegie Mellon University, 11 pp. |
Alta Vista web search result listings for “free form fabrication software,” 6 pp. |
Alta Vista web search result listings for “solid+ free+ form+ fabrication software,” 2 pp. |
Listing of “Commerical Vendors,” Rapid Prototyping Directory, from web site http://mtiac.hq.iitri.com/mtiac/pubs/rp/rp6.htm, 11 pp. |
“Applications” of rapid prototyping web article, from web site http://mtiac.hq.iitri.com/MTIAC/pubs_/rp/rp5.htm, 2 pp. |
Kietzman et al., “Layered Manufacturing Material Issues for SDM of Polymers and Ceramics,” Proceedings of the 1997 Solid Freeform Fabrication Symposium, The University of Texas at Austin, 9 pp. |