2000 (and backfills for previous years) / DB reference years
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Author Chen, Liang-Chia. Lin, Grier C I. Institution Univ of South Australia, Mawson Lakes, Aust
Source Robotics & Computer-Integrated Manufacturing. v 16 n 2 2000. p 161-167.
Abstract This paper presents a case study on the reverse engineering of turbine blades used in nuclear power generators. Reverse engineering has been widely recognized as a crucial step in the product design cycle. However, major problems with current reverse engineering technology are the inefficient surface reconstruction process, lack of digitizing accuracy control in the data digitization process, and bottlenecks resulted from huge amounts of digitized surface points in the surface modeling process. Moreover, under this limitation, modern concurrent engineering concepts are difficult to implement to obtain optimal product design. This study applies a developed reverse engineering approach - the modified adaptive model-based digitizing process (MAMDP) to the 3D geometric design of turbine blades. The approach integrates surface digitizing and modeling processes of turbine blades into a single surface reconstruction process. Using the approach, accurate product CAD models can be efficiently generated a nd the product design cycle of turbine blades can be successfully linked. (Auth abstract) [References: 9] XX