1984 to 1992 Table of Contents

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1984 to 1992 / DB reference years
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1984 to 1992 Table of Contents

1. Complex prototype assemblies from stereolithography and RTV tooling
2. Selective laser sintering of metals and ceramics
3. Stereolithography simplifies tooling for reinforced rubber parts
4. Process planning issues in freeform fabrication.
5. Quality Assurance Through Integration of Manufacturing Processes and Systems.
6. Studies of photopolymerization for stereolithography using optical diagnostics.
7. Tool-less rapid prototyping technologies. An overview.
8. Rapid prototyping in an integrated product development environment.
9. Stereolithography. A rapid way to prototype die castings.
10. Solid freeform manufacturing - possibilities and restrictions.
11. Rapid prototyping: Cornerstone of the new design process.
12. 3-D plotting of finite element sheet metal forming simulation results by laser stereolithography.
13. Development and application of optical stereolithography for the big size model--Introducing Solid Creation System of Sony.
14. Computer aided prosthetic and surgical rehabilitation of the ear.
15. Stereolithography. Fast model/prototype making with CADD.
16. Using computer-based tools and technology to improve jewellery design and manufacturing.
17. Saving time money and resources.
18. Laser-generated 3-D prototypes.
19. Real cost of rapid prototyping.
20. Scanning compound surfaces with no existing CAD model using touch probe of a coordinate measuring machine.
21. Photopolymer solid imaging process accuracy.
22. Selective laser sintering process. Applications of a new manufacturing technology.
23. Fast, precise, safe prototypes with FDM.
24. Intelligent Design and Manufacturing for Prototyping.
25. 3-D photolithography for composite development. Discontinuous reinforcements.
26. Material incress manufacturing by rapid prototyping techniques.
27. Automated production of custom bone replacements.
28. Advanced technology application in the production of spacesuit gloves.
29. Model of particle-vapor codeposition with application to ceramic materials synthesis.
30. Rapid prototyping.
31. Rapid prototyping. Parts without tools.
32. How to make stereolithography into a practical tool for tool production.
33. Stereolithography models - the keystone for limited production models.
34. Three-dimensional reconstruction of human body parts with stereolithography from computerized axial tomography and/or nuclear magnetic resonance imaging generated data.
35. Telltale gestures.
36. Solid models for CT/MR image display. Accuracy and utility in surgical planning.
37. StereoLithography.
38. Make fiction fact fast.
39. Quick path to prototype tooling.
40. Stereolithography automates prototyping.
41. Make it in a minute.
42. Optics for vector scanning.
43. Rapid part manufacturing.
44. Precise individualized armature for ear reconstruction.
45. Display of 3-D anatomy with stereolithographic models.
46. Photolithography for composites manufacturing. Continuous glass fiber/polycrylate composites.
47. Photofabrication.
48. Design environment for rapid prototyping.
49. Rapid prototyping from 3D scanned data through automatic surface and solid generation.
50. Kinetic analysis of laser-induced reactions in polymer films.
51. Issues in Design/Manufacture Integration.
52. Rapid prototyping. Uphill, but moving.
53. Computers and the aerospace engineer.
54. Solid freeform fabrication. Powder processing.
55. Rapid prototyping shapes up as low-cost modeling alternative.
56. New options in aerodynamic modelling. CAD, CFD, stereolithography and shading in a workstation environment.
57. Concurrent Engineering. Enabling a new material supplier/customer relationship.
58. From computer to component in 15 minutes. The integrated manufacture of three-dimensional objects.
59. Rapid tool manufacturing system based on stereolithography and thermal spraying.
60. Looking at lasers.
61. Reduced distortion in optical freeform fabrications with UV lasers.
62. Stereolithography.
63. Laser surface finishing.
64. Excitement of technology trends.
65. StereoLighography: fast model making.
66. Complex parts made in photochemical process.
67. Process and control issues in selective laser sintering.
68. Is 'desktop manufacturing' for you?.
69. Automatic production of P/M parts directly from a computer aided design model.
70. StereoLithography: Plastic prototypes from CAD data without tooling.
71. DESIGN OF SOLIDS WITH FREE-FORM SURFACES.
72. Rapid prototyping: beyond the wet look.
73. Architecture with photopolymerization.
74. Rapid prototyping using FDM (Fused Deposition Modeling).
75. Slashing time and money from art to part.
76. Tips for concurrent engineering.
77. Rapid prototyping offers three-dimensional model design.
78. Desktop artisans; personal manufacturing weds design with part fabrication.
79. Rapid prototyping: a taste of production.
80. New approach in rapid prototyping.
81. Conference: now's the time for rapid prototyping.
82. Rapid prototyping draws widening foundry interest.
83. The real cost of rapid prototyping.
84. A part image reconstruction system for reverse engineering of design modifications.
85. Measurements of the refractive-index variations with temperature of a photomonomer.
86. Modelling at the push of a button.
87. 3D mathematics in wood and stone.
88. Rapid prototyping slices time-to-market.
89. Rapid prototyping build method, software improve speed and accuracy (Weave technique).
90. More rapid prototyping systems reach commercialization.
91. New tools speed products to market (Laminated Object Manufacturing system, Model LOM-1015).
92. Desktop prototyping.
93. Rapid prototyping systems.
94. Fast prototyping makes models sooner and better.
95. Rapid prototyping; growing field means more technological options for designers.
96. Lasers prove integral to desktop manufacturing.
97. Stereolithography: a primer.
98. Producing three-dimensional shapes by laser milling.
99. Discrete cosine transforms, digital sine-wave generator, more video compression, Santa Claus machine update, and an audiovisual switcher circuit.
100. Optical-scanner design impacts rapid laser prototyping.
101. Cubital claims advantages over stereolithography (Cubital Solider 5600).
102. Stereolithography: an introduction.
103. Stereolithography services proliferate.
104. Desktop manufacturing process.
105. New modeling system makes parts in minutes instead of hours (Fused Deposition Modeling (FDM)).
106. Software enables laser stereolithography.
107. Growing pains and making models (Lasercad).
108. Laser sintering for desktop manufacturing.
109. How to bring CAD to life.
110. Throwing away the mold.
111. Same-day prototyping blossoms.
112. The desk-top entrepreneurs.
113. Laser modeling reduces engineering time.
114. Automatic model building cuts design time, costs.
115. Stereo-lithographic process builds parts without the need for tooling.
116. Instant prototypes.
117. 3-D hard copier creates models directly from CAD data.
118. Prototypes in a snap.
119. Stereolithography creates prototypes.
120. Make instant models after design.
121. From image to part painlessly (Laminated Object Manufacturing process).
122. Manufacturing magic. (computer graphics, stereolithography)
123. Rapid prototyping for an 'instant' part. (Design-to-Market Speedup)
124. Rapid prototyping slices time-to-market.
125. Stereolithography: automakers and suppliers sing the praises of computerized model-making technology. (Automotive News Insight)
126. CAD-based system creates physical models quickly. (Cubital America Inc.'s Solider 5600 - computer aided design system that produces solid prototypes)
127. From designer's concept to solid model - fast. (stereolithography)
128. Bringing mock-ups to life - in a flash; a startup's system turns out 3-D product models in hours.
129. At last! Something from nothing (well, almost). (stereolithography)
130. Making prototypes faster with stereolithography.
131. CAD helps doctors mend bad breaks. (computer-aided design)
132. From art to part. (desktop CAD manufacturing)
133. Desktop manufacturing flavors: finding the right method is not always easy. Here are six techniques, including pros and cons of each. (includes rapid prototyping equipment and approaches from six vendors)
134. Cubital America will move to new HQ.
135. Firm markets rapid prototyping system. (Cubital Ltd.; Cubital America Inc.)
136. Model making goes high tech. (Protogenic Inc.'s stereolithography, a laser technology) (Company Profile)
137. 'Desktop prototyping' experiment produces ceramic blade.
138. Listen, it's stereolithography. (Emerging Technology: Fabrication)
139. Machine provides one-step 3-D modeling. (Hydronetics Inc.'s laser-based laminated object manufacturing system) (product announcement)
140. Ciba-Geigy to sell most electronics units. (Ciba-Geigy Inc.)
141. Look and feel. (new model-making technology aids brain surgeons)
142. Instant gratification. (making manufacturing prototypes using computers)
143. Technology's hits and misses of the 1980's.
144. Technalysis offers a solution to building prototypes. (Supplement to Indianapolis Business Journal: Computers & Software) (company profile)
145. Rapid prototyping: designing a new industrial revolution. (desktop manufacturing; Profiles in Technology, part 6)
146. Solid model generated from a CAD 3D design. (DTM Corp. Selective Laser Sintering desktop prototyping model) (product announcement)
147. A model technology for the future: 'stereolithography' employs a Star Wars approach toward creating industrial prototypes.
148. 3D released a new version of its model assembly product. (3D Systems Inc.'s LSA-500 computer-aided design system) (Around Los Angeles County) (product announcement)
149. Losses spur executive suite shakeup at 3-D Systems Inc. (Around the Southland)
150. DTM Corp. (1992 Corporate Reports) (Company Profile)
151. CAD-CAM software helps polymer technology make objects in plastic.
152. Desktop manufacturing can materialize what you visualize. (three-dimensional lithography)(Looking Forward) (column)
153. 3-D printers. (laser-modeling technology)
154. Dun-Morr local rep for stereolithography service. (Dun Morr Inc. markets stereolithography apparatus)
155. New technology promises big gains in prototyping. ('stereolithography')
156. Presto! "Growing" parts from liquid plastic. (stereolithography uses computer-guided laser to "grow" 3-D prototype parts from photosensitive liquid plastic)
157. Transforming images into reality. (includes related articles on the cost of three dimensional design systems, types of users, and who should run design systems)
158. Rapid prototyping extends to prosthetics. (R&D News)
159. Hot rumors, blue light, and modern art shake up Frisco. (highlights from the Materials Research Society's spring meeting in San Francisco: 180 K superconductor, light-emitting property of silicon, laser replication of rare art with "rapid prototyping")
160. Technology allows engineers to make solid objects from computer designs.
161. Solid geometry. (three-dimensional fax transmissions)
162. Computer imaging to produce models cuts time, expense. (Focus on Computers & Technology)
163. Behind the jitters at 3-D Systems. (Market Place) (column)
164. New on computers: easy designs. (computer-aided product design)
165. 3-D Systems Inc. (Executive Changes) Companies: 3D Systems Corp. - Officials and employees People: Sims, Arthur B. - Selection, appointment, resignation, etc.
166. Making a model and doing it fast. (stereo lithography, rapid prototype systems) (Technology) (column)
167. 3-D Systems chief, R.S. Freed, to retire; Fletcher will fill in. (Raymond S. Freed; Robert B. Fletcher) (Who's News)
168. Orders for design aid higher than expected. (device that converts computer designs into plastic models) (column)
169. 3-D Systems receives credit line from firm. (Lionheart Capital Corp.)
170. Ciba-Geigy to reduce electronics holdings, focus on core lines. (Spectra-Physics Inc. and Gretag Ltd. divestiture)
171. Ciba-Geigy's interest in 3-D. (to retain ownership interest in 3-D Systems Inc.) Companies: Ciba-Geigy AG - Investments 3D Systems Corp. - Securities
172. New machine has possibilities as a speedy prototype maker. (includes a related article on improvements on computer-aided design on PCs) (technology)
173. Desktop manufacturing gains bigger following. (column)
174. 3-D Systems Inc. (Financing Business)
175. 3-D Systems Inc. (Who's News) Companies: 3D Systems Corp. - Officials and employees People: Sims, Arthur B. - Selection, appointment, resignation, etc.

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