Computer Interfacing for SFF
A Flexible File Format for Solid Freeform Fabrication 1
Steven J. Rock and Michael J. Wozny
Inverse Geometry for Stereolithographic Manufacturing 13
Don R. Brown, Venkatesh Subramanyan and Samuel Drake
Software Testbed for Selective Laser Sintering 21
Richard H. Crawford, Suman Das, and J. J. Beaman
Utilizing Topological Information to Increase Scan Vector Generation Efficiency 28
Steven J. Rock and Michael J. Wozny
Solid Freeform Fabrication Laser Tracking Control 37
Ying-Jeng Engin Wu and Joseph J. Beaman
Polymers
A Model for Partial Viscous Sintering 46
Ming-shen Sun, M. J. Christian Nelson, Joseph J. Beaman and Joel W. Barlow
The Relationship of Process Characteristics of Stereolithography to Prototype Dimensions 56
V. Cariapa, S. K. Liang and W. E. Brower, Jr.
Models for the Prediction of the Thermal Conductivities of Powders 62
Samuel X. Xue and Joel W. Barlow
Polymeric Powder Material Technology for Selective Laser Sintering: The Overall View 70
Biing-Lin
Post-Processing Selective Laser Sintered Polycarbonate Parts 78
J. Nelson, N. K. Vail, M. M. Sun and J. W. Barlow
Modeling of SFF
A Finite Element Model of Multi-Layered Laser Sintered Parts 86
E. M. Weissman and M. B. Hsu
Rapid Prototyplng for Foundry Tool Making: Curriculum and Industrial Projects 95
Unny Menon and Martin Koch
A Three Dimensional Model for Selective Laser Sintering 102
Ming-shen M. Sun and Joseph J. Beaman
SFF Techniques
Accurate Rapid Prototyplng by the Solid Ground Curing Technology 110
Haim Levi
Fast, Precise, Safe Prototypes with FDM 115
Robin Wales and Bill Walters
Laminated Object Manufacturing (LOM): A Simpler Process 123
Michael Feygin and Brian Hsieh
Selective Laser Sintering as a Rapid Prototyplng and Manufacturing Technique 131
Kent Nutt
Advances In Stereolithography Accuracy 138
Paul F. Jacobs and Jan Richter
Fabrication of Prosthetic Sockets by Selective Laser Sintering 158
W. Rogers, R. H. Crawford, J. J. Beaman and N. E. Walsh
Design of a High Temperature Workstation for the Selective Laser Sintering Process 164
Suman Das, John McWilliams, Benny Wu and J. J. Beaman
The Electrostatic Application of Powder for Selective Laser Sintering 171
Lawrence S. Melvin, III and J. J. Beaman
Ceramics
A Framework for Thermal Spray Shape Deposition: The MD* System 178
Lee E. Weiss, Fritz B. Prinz and Daniel P. Siewiork
Three Dimensional Printing: Form, Materials, and Performance 187
Michael J. Cima and Emanuel M. Sachs
Effect of Polymer Coatings as Intermediate Binders on Sintering of Ceramic Parts 195
N. K. Vail and J. W. Barlow
Microstructural and Mechanical Properties of Al203/P205 and Al203/B205 Composites Fabricated by Selective Laser Sintering 205
Uday Lakshminarayan and H. L. Marcus
Metals
Controlling the Microstructure of Arc Sprayed Shells 213
P. S. Fussell, H. O. K. Kirchner, F. B. Prinz and L. Weiss
Selective Laser Sintering of Cu-Pb/Sn Solder Powders 236
J. A. Manriquez-Frayre and D. L. Bourell
Selective Laser Sintering of a Copper-PMMA System 245
B. Badrinarayan and J. W. Barlow
Selective Laser Sintering to Produce Ni-Sn Intermetallic Parts 251
Wendy Weiss and D. L. Bourell
Selective Area Laser Deposition -A Method of Solid Freeform Fabrication 259
W. Richards Thissell, Guisheng Zong, James Tompkins, Britton R. Birmingham and H. L. Marcus
Processing Problems Associated with Gas Phase Solid Freeform Fabrication Using Pyrolytic Selective Area Laser Deposition 271
Guisheng Zong, James Tokins, W. Richards Thissell, E. Sajot and Harris L. Marcus
Moving Boundary Transport Phenomena In Selective Area Laser Deposition Process 279
Guisheng Zong and Harris L. Marcus
Selective Area Laser Deposition from Acetylene and Methane to Increase Deposition Control 288
Britton R. Birmingham, G. Zong, J. V. Tompkins and H. L. Marcus