1997 Table of Contents

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1997 Table of Contents

1. Direct Selective Laser Sintering of high performance metals for containerless HIP
2. Laser Engineered Net Shaping (LENSTM) process: Optimization of surface finish and microstructural properties
3. Solid freeform fabrication of stainless steel
4. Rapid prototyping of powder binder mixtures using the Multiphase Jet Solidification (MJS) process
5. Laser Engineered Net Shaping (LENSTM): Beyond rapid prototyping to direct fabrication
6. Medical image-based design of an individualized surgical guide for pedicle screw insertion
7. Research on the hot melt adhesives for laminated object manufacturing
8. Forming energy field and freedom fabrication modeling
9. Data processing for additive fabricators
10. NSF supported engineering technology programs and institutional changes
11. Computer-aided manufacturing of laminated engineering materials (CAM-LEM) and its application to the fabrication of ceramic components without tooling
12. Manufacturing evaluation using resource-based, template-free features
13. Methods for layer-by-layer synthesis of three-dimensional patterns. Prospects for the foundry industry
14. Informational statistical thermodynamics and thermal laser stereolithography
15. Development of a cancellous bone structural model by stereolithography for ultrasound characterisation of the calcaneus
16. Modern market adaptable development and manufacturing of new modular sheet metal parts
17. Using geometric hashing to repair CAD objects
18. Integrated reverse engineering and rapid prototyping
19. Photopolymerization materials used in stereolithography and their recent advance
20. Comparison between zero and first order approximation algorithms for layered manufacturing
21. Material properties and fabrication parameters in selective laser sintering process
22. Parallel interactive virtual machining on shared memory multiprocessors
23. Repairing CAD models
24. Visualization of height field data with physical models and texture photomapping
25. Phase change manipulation for droplet-based solid freeform fabrication
26. Custom oxygen mask construction using computer assisted design and manufacturing (CAD/CAM) technologies
27. Taking the processing initiative
28. Photopolymerization of nematic liquid crystal monomers for structural applications: Molecular order and orientation dynamics
29. Axisymmetric delamination in deposited multi-layers
30. Rapid prototyping in Singapore: 1988 to 1997
31. Adaptive slicing with sloping layer surfaces
32. Optimal orientation with variable slicing in stereolithography
33. Rapid Prototyping and Solid Free Form Fabrication
34. Production of large rapid prototype tools using layer manufacturing technology
35. Interface between CAD and rapid prototyping systems. Part 2: LMI - an improved interface
36. Interface between CAD and rapid prototyping systems. Part 1: A study of existing interfaces
37. Development of a custom designed TAH using rapid prototyping
38. Automatic generation of parting surfaces and mold halves
39. Investment casting using stereolithography: Case of complex objects
40. University research in additive fabrication processes
41. Use of rapid prototyping in an ergonomic assessment of the relationship between hand anthropometry and mouse size preference
42. Virtual clay modeling system
43. Freeform powder molding: From CAD model to part without tooling
44. Virtual and real environments: Symbiosis
45. Solid freeforming of ceramics using a drop-on-demand jet printer
46. Rapid tooling provides molded parts early in development cycle
47. Comparison between zero and first order approximation algorithms for layered manufacturing
48. Rapid prototyping wins widespread acceptance
49. Robotic system for rapid prototyping
50. Proceedings of the 1997 IEEE International Conference on Robotics and Automation, ICRA. Part 3 (of 4)
51. Freeform fabrication of polymer-matrix composite structures
52. Selective area laser deposition of titanium oxide
53. Stereolithography of ceramic suspensions
54. Stereolithography for injection mould tooling
55. Accurate exterior, fast interior layered manufacturing
56. Volume modelling for emerging manufacturing technologies
57. Laminated object manufacturing, a new process for the direct manufacture of monolithic ceramics and continuous fiber CMCs
59. Design and manufacture of an orbital floor scaffold using image processing and rapid prototyping
60. Rapid prototype modeling for three-dimensional photoelastic stress analysis in orthopaedics
61. Rapid prototyping of trabecular bone for mechanical testing
62. In-process control in thermal rapid prototyping
63. Characteristics of photopolymeric material used in rapid prototypes. Part I. Mechanical properties in the green state
64. Integrated reverse engineering approach to reconstructing free-form surfaces
65. Virtual reality prototyping - a framework for the development of electronics and telecommunication products
66. Reducing the surface deviation of stereolithography using in-process techniques
67. Variable beam size SLS workstation and enhanced SLS model
68. Development of a droplet-based manufacturing process for free-form fabrication
69. Experimental study of the basic process mechanism for direct selective laser sintering of low-melting metallic powder
70. Automated fabrication of structural polymer and ceramic matrix composites via Laminated Object Manufacturing (LOM)
71. Automated fabrication of nonresorbable bone implants using laminated object manufacturing (LOM)
72. Rapid prototyping & solid freeform manufacture
73. Processing of piezocomposites by fused deposition technique
74. Solid freeform fabrication: Novel manufacturing opportunities for electronic ceramics
75. Surface processing techniques for the rapid model building with photosensitive resin
76. What's new in rapid prototyping and tooling
77. Wall thickness control in layered manufacturing
78. Data front-end for layered manufacturing
79. Spatial partitioning of solids for solid freeform fabrication
80. Approach to modeling multi-material objects
81. Processing of CAD-data - conversion, verification and repair
82. Proceedings of the 1997 13th Annual Symposium on Computational Geometry
83. Proceedings of the 1997 4th Symposium on Solid Modeling and Applications
84. Towards particle-by-particle deposition of ceramics using electrostatic atomization
85. Processing of piezocomposites by fused deposition technique
86. Influence of process parameters on stereolithography part shrinkage
87. New challenges in computer aided solid model design for rapid prototyping of vehicle components
88. Rapid prototyping: new lasers make better parts, faster
89. Reducing the lead time of model car body designs
90. Temperature distribution in rapid tooling cavities - how close are injection molded prototypes to series parts?
91. Research on refrigerative stereo-lithography
92. BWR steam separator swirler optimization
93. Numerical modeling of fused deposition processing
94. Study and experiment on solidified depth of photopolymer resin for rapid prototyping
95. Rapid transit - the search for shorter time to market
96. Laser forming of metallic components using particulate materials
97. Proceedings of the 1995 ASME International Mechanical Engineering Congress and Exposition
98. Proceedings of the 1996 ASME International Mechanical Engineering Congress and Exposition
99. Study of resin based materials using CO2 laser stereolithography
100. Determination of optimal orientation based on variable slicing thickness in layered manufacturing
101. CNC cutter path generation in shape deposition manufacturing
102. Laser Engineered Net Shaping (LENSTM) for the fabrication of metallic components
103. Geometric tolerances in cast complex aluminum alloy components fabricated using stereolithography patterns
104. Novel process modeling paradigm for Solid Freeform Fabrication processes
105. Intelligent control of material quality in thermal desktop manufacturing techniques
106. Distributed-parameter design of virtual source thermal processing methods
107. Section CAD: a tool for rapid prototyping
108. Rapid stereolithography tooling for injection molding: The effect of cooling channel geometry
109. Photoactive suspensions for stereolithography of ceramics
110. Composite tooling via laminated object manufacturing, a rapid and affordable method
111. Preliminary experience with medical applications of rapid prototyping by selective laser sintering
112. Freeform fabrication of polymers and composites
113. Rapid prototyping a solid concept
114. Exploratory investigation of solid freeform construction
115. Medical plastics: An update on the latest materials, equipment, and processes
116. Innovative technique for rapidly prototyping parts of polymers, metals, ceramics, composites and functionally graded materials
117. Biomimetic processing of gel glasses and organic-inorganic hybrids
118. Assessment of data formats for layered manufacturing
119. Freeforming ceramics
120. Thermal analysis and design of scanned rapid prototyping
121. Rapid prototyping: State-of-the-art manufacturing
122. Experimental design and analysis of in-plane processing accuracy for SSM process
123. From CAD art to rapid metal tools
124. Rapid prototyping - A user's experience
125. The faster, the better.
126. The production of large structural titanium castings.
127. The two-week tool: making injection molds directly from stereolithographic models.
128. Direct shell sand rapid prototyping: from CAD to casting in days.
129. Beyond appearance models.
130. Quick off the mark.
131. The bright ideas department.
132. Reconstruction of volume boundary from layers by triangulation.
133. Optimizing stereolithography throughput.
134. Computational quality measures for evaluation of part orientation in freeform fabrication.
135. Shape deposition manufacturing of heterogeneous structures.
136. Cut and paste your way to a powerful prototype.
137. Fast forms.
138. Rapid prototyping processes give industry the potential to break with accepted practices, and an opportunity for firms to innovate.
139. CNC machining keeps pace with new technologies.
140. Tales of rapid prototypes.
141. Routing out the details saves time and money.
142. Concurrent design, prototyping & tooling speed hockey helmet to market.
143. Processing of piezocomposites by fused deposition technique.
144. Partners in time.
145. Miniature mechanical components fabricated using semiconductor technology.
146. A decade of rapid prototyping.
147. The direct metal deposition of H13 tool steel for 3-D components.
148. The laser forming of metallic components using particulate materials.
149. Injection molds 'to go'? No, but lead time is dropping fast.
150. Computed tomography: a versatile technology.
151. Anatomy lessons in medical device machining.
152. What is 3D printing?.
153. RIM molder eyes new business opportunities.
154. Rapid response.
155. The third dimension.
156. Laser rapid prototyping of photonic band-gap microstructures.
157. Where the growth is in business equipment.
158. Machining from STL files.
159. Chrysler's new V6 engine family.
160. Cast-fab--and its customer--are prototype production winners.
161. Molded prototypes: past, present and future.
162. Using holography to design in thin air. (holography for prototyping)
163. Rapid prototyping plays key role in development of Ford high-output V8.
164. Lights shine on Chrysler's new LH; chrome bezels catch the eye and smooth, sleek lines draw attention up the low nose to a raking windshield.
165. Rapid prototyping at Ford saves time & money.
166. Making massive molds.
167. Assembly lines go cordless: screwdriver's rolling-element clutch allows precise torque control. (Black & Decker 2920 screwdriver)(includes related article on B&D's use of rapid prototyping and computer modeling)
168. This year's model. (rapid prototyping machines)
169. State of the Arrk. (Arrk prototyping service)(Company Profile)
170. In safe hands. (child car safety seat design)
171. Ceramic bones, made to order.(3-D X-ray imaging and rapid prototyping could lead to faster, cheaper ceramic bone and joint replacements)(Brief Article)
172. Rapid prototyping gets faster.(Stratasys Inc. develops the FDM2000 prototyping system that reportedly can increase production time 45%)(Brief Article)
173. Rapid prototyping and solid free form fabrication.
174. Fabrication and characterization of truly 3-D diffuser/nozzle microstructures in silicon. (three-dimensional)
175. Goodrich's Texas Subsidiary Places 3 Million Shares of Stock on the Market.(Originated from Akron Beacon Journal, Ohio)
176. SLA machine improves part resolution. (stereolithography-apparatus)
177. Rapid tooling technology: a new competitor.
178. The rapid tooling alternative. (3D Keltool)
179. Success breeds new RP technologies. (rapid prototyping)(Virtual Lab)(Brief Article)
180. Fast forward to model stage.(Kira develops new approach to rapid prototyping)
181. DTM Corp.(Equity Offerings) Companies: DTM Corp. - Securities
182. Displaying 3D pictures in a 2D world.
183. Helisys Inc. (Who's News) Companies: Helisys Inc. - Officials and employees People: Lay, B. Allen - Selection, appointment, resignation, etc. Delmonico, Louis A. - Selection, appointment, resignation, etc.
184. Stock price plunges 38.9% on operating loss forecast. (DTM Corp.) (Business Brief)
185. DTM unit plans offering of 2.8 million of its shares. (Business Brief)
186. 3D Systems Corp. (Who's News)
187. Loss of at least $4 million is expected for the year. (DTM Corp. third quarter earnings) (Business Brief)

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