1995 Table of Contents

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1995 Table of Contents

1. Proceedings of the 1995 6th International Symposium on Micro Machine and Human Science
2. EOS rapid prototyping concept
3. Economic efficiency analysis of complex CAD/CAM systems demonstrated by an integrated design/SFM system
4. Materials for solid freeform manufacturing processes
5. Rapid prototyping of functional metallic parts
6. Solid freeform manufacturing technologies as an important step in the product development process
7. Intelligent production technology future-oriented vision or industrial reality
8. Layer position accuracy in powder-based rapid prototyping
9. Multi-objective optimization of part-building orientation in stereolithography
10. Rapid prototyping is coming of age
11. Rapid developments in rapid prototyping
12. Analytical engine design tools
13. Justifying rapid prototyping
14. Conditions for layer-by-layer selective contour sintering of metallopolymeric composites under laser effect
15. Origin of shrinkage, distortion and fracture of photopolymerized material
16. International seminar
17. Fused deposition of ceramics: a new technique for the rapid fabrication of ceramic components
18. Computer-aided manufacturing software
19. Stereolithography-based prototyping: case histories of applications in product development
20. Computer-aided design and rapid tool development in injection molding processes
21. Direct laser metal deposition process fabricates near-net-shape components rapidly
22. Tools for rapid prototyping in the biosciences
23. Voxel-based modeling for layered manufacturing
24. Removing zero-volume parts from CAD models for layered manufacturing
25. Tele-Manufacturing: Rapid prototyping on the Internet
26. Computer graphics in rapid prototyping technology
27. Concurrent intelligent rapid prototyping environment
28. Interactive robot joint design, analysis and prototyping
29. Residual stress-driven delamination in deposited multi-layers
30. Fabrication and microstructural control of advanced ceramic components by three dimensional printing
31. Custom oxygen mask development using rapid prototyping technologies
32. Error compensation strategy for replication by rapid prototyping
33. Application of laser stereolithography in FE sheet-metal forming simulation
34. 3D painting: paradigms for painting in a new dimension
35. Direct dynamic testing of scaled stereolithographic models
36. Rapid metal tooling
37. Investigation into the influence of material and process on part distortion
38. Recoating issues in stereolithography
39. Large mesh generation from boundary models with parametric face representation
40. Designing-in plastics, polymers, and novel materials in your electronics products
41. Silicon carbide from laser pyrolysis of polycarbosilane
42. Modeling the impact load buffering characteristics of footwear midsoles
43. Reverse engineering and rapid prototyping for solid free-form fabrication
44. Research developments in rapid prototyping
45. 3D visualisation - time to suspend our disbelief?
46. Selective laser sintering of alumina using aluminum binder
47. Material characterization of photo-fabrication process
48. Cost comparison between stereolithography and computer numerical control machining for rapid commercializing
49. Rapid tooling for compression molding of a thermoset
50. Benchmarking of rapid prototyping techniques in terms of dimensional accuracy and surface finish
51. Model route to faster profits
52. Improvement of the UV curing process for the laser lithography technique
53. New moldmaking systems slice art-to-part cycles
54. Post-processing of selective laser sintered metal parts
55. Selective laser sintering of alumina with polymer binders
56. Numerical analysis of stereolithography processes using the finite element method
57. Direct slicing of CAD models for rapid prototyping
58. Rapid product realization
59. Piezoelectric-driven stereolithography-fabricated micropump
60. Ultimate bead counter: efficient massively parallel simulation of ballistic deposition
61. Lower your time to market with stereolithography
62. Stereolithography: speeding time to market
63. Selective laser sintering of polymer-coated silicon carbide powders
64. Model making takes on a new dimension
65. Three-dimensional storage and stereolithography using a tomographic device fitted with a photonic calculator
66. Speedy 3-D laser modeling
67. Thermal spray approach to rapid prototyping-An extended abstract
68. Rapid prototyping for pattern and foundry tooling
69. Alice: rapid prototyping for virtual reality
70. Change and stability
71. Formation of multicolor polymeric objects by laser-initiated photopolymerization
72. Study on the improvement of surface roughness of complex model created by three dimensional photofabrication (1st report) - proposal of lift up irradiation method
73. Direct selective laser sintering of metals
74. Rapid prototyping technologies
75. Rapid foundry tooling system: integrated product-process design for sand casting patterns
76. One-day redesign: anything but child's play
77. Thermal three-dimensional lithography in thermoset resins using CO2 laser
78. Firming designs
79. Speeding up rapid prototyping by offset
80. Gradient and curvature from the photometric-stereo method, including local confidence estimation
81. Rapid prototyping in medicine
82. Studies on solid formation mechanism of three dimensional photofabrication (1st report) - investigation of solidified unit shape -
83. High Tc dual phase Ag-YBa2Cu3O7 minus x composites prepared by selective laser sintering and infiltration
84. Generating topological structures for surface models.
85. Molecules at your fingertips.
86. Laser sharp.
87. Laser-driven movement of three-dimensional microstructures generated by laser rapid prototyping.
88. Surface modelers are more than skin deep.
89. Design for manufacturing with generative production processes and a neutral test environment.
90. Communicating intent.
91. Stereolithography for a perfect part.
92. Rapid prototyping: the state of the technology.
93. Rubber tools stretch their limits.
94. Rapid prototyping gives productivity a boost.
95. In search of a model system.
96. Quick march.
97. CNC machining as a rapid prototyping technique.
98. Path planning with offset curves for layered fabrication processes.
99. 'Rapid tooling' gains swift acceptance.
100. From paper drawing to CAD screen.
101. Rapid prototyping slashes operating time.
102. Driving force.
103. Tailor-made materials.
104. Faster design cycles.
105. Inventor who saw the light (Chuck Hull).
106. Quick fixes.
107. Making the leap to rapid tool making.
108. Virtual prototyping on personal computers.
109. Personal Modeler creates 3-D parts from CAD designs.
110. Quick work.
111. Rapid prototyping for under $35K (deskside rapid-prototyping system from BPM Technology).
112. Principles of open-architecture manufacturing.
113. Software package makes 3-D mechanical CAD affordable (CADKEY for Windows from Cadkey Inc.).
114. Software development: a small matter of programming.
115. Foundry industry's second shift.
116. Stereolithography + cast ceramic = tooling in record time.
117. A process model for nonisothermal photopolymerization with a laser light source. II: behavior in the vicinity of a moving exposed region.
118. A process model for nonisothermal photopolymerization with a laser light source. I: basic model development.
119. Rapid prototyping goes 2D.
120. Rapid prototyping directly from the vapor phase.
121. Reducing the time to market through rapid prototyping.
122. High-tech tools speed low-tech products.
123. Get set for desktop prototyping.
124. Closer reality that's rapidly shaping up.
125. The NC Society's 1994 Jacquard Award (for Charles W. Hull).
126. Customers, technology steer GM's casting operations.
127. World Center of Engineering and Technology. (Spicer Driveshaft Div.'s facility in Toledo, OH)
128. Rapid prototyping: applications in academic institutions and industry.(Proceedings of the 17th International Conference on Computers and Industrial Engineering)
129. 3D Systems sets $53 million stock offering. (3D Systems Corp.)
130. New rapid prototyping file format. (stereolithography contour)
131. Modelmaking: a model of practice.(computer-aided design, manufacturing speeds architectural model construction)
132. Chemistry by touch: blind scientist fashions new models of molecules.(chemist William J. Skawinski)
133. What's the best way to develop your product?
134. The next wave of computer modeling: San Diego supercomputer center makes complex, 3-dimensional objects - fast.
135. A mould breaker. (use of rapid prototyping in manufacturing)
136. Profit to nearly double for year to $8.9 million. (3D Systems Corp.) (Business Brief)
137. 3D Systems reverse stock split. Companies: 3D Systems Corp. - Securities
138. Concurrent engineering: thinking fast, free-form and in virtual reality.

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