Development of a Reconfigurable Fixture for the Automated Assembly and Disassembly of High Pressure Rotors for Rolls-Royce Aero Engines
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Publisher
Springer Berlin Heidelberg
Link
http://link.springer.com/content/pdf/10.1007/978-3-642-11598-1_33
Reference11 articles.
1. Al-Habaibeh, A., Gindy, N., Parkin, R.M.: Experimental Design and Investigation of a pin-type reconfigurable clamping system for manufacturing aerospace components. Journal of Engineering and Manufacture - Proceedings of the Institution for Mechanical Engineers Part B 217, 1771–1777 (2003)
2. Chakraborty, D., De Meter, E.C., Szuba, P.S.: Part location algorithms for an intelligent fixturing system part 1: system description and algorithm development. Journal of Manufacturing Systems 20, 124–134 (2001)
3. Chakraborty, D., De Meter, E.C., Szuba, P.S.: Part location algorithms for an Intelligent Fixturing System Part 2: algorithm testing and evaluation. Journal of Manufacturing Systems 20, 135–148 (2001)
4. Chan, K., Benhabib, B., Dai, M.: A reconfigurable fixturing system for robotic assemble. Journal of Manufacturing Systems 9, 206–221 (1990)
5. Du, H., Lin, G.C.I.: Development of an automated flexible fixture for planar objects. Robotics and Computer-Integrated Manufacturing 14, 173 (1998)
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