Affiliation:
1. Dalian Jiao Tong University
Abstract
A two freedom flexure system is presented. All the constraints are selected in Case 2, type 1 and Case 2, type 2 in FACT chart. The locations of the non-redundant constraints are optimizated by change laws of the three order natural frequency with the position of constraint. All the redundant constraints are selected to increase the add symmetry to the flexure system. Results of Simulation of static calibration dominates that the flexure system is decoupled. The synthesis process of the two freedom flexure system proposes important reference for design of the flexure system.
Publisher
Trans Tech Publications, Ltd.
Reference11 articles.
1. S.C. Chen, M.L. Culpepper: Prec. Eng. Vol. 30 (2006), p.314.
2. T.J. Teo, I. M. Chen, G. Yang, W. Lin: Nanotechnology Vol. 31 (2008), p.315501.
3. S. Awtar, A.H. Slocum: Proc. of ASME Design Engineering Technical Conf. & Computers and Information in Engineering Conf., Long Beach, CA, USA(2005).
4. C.M. DiBiasio, M.L. Culpepper, R. Panas, L.L. Howell, S.P. Magleby: J. Mech. Des. Vol. 130 (2008), p.042308.
5. Y. Yue, F. Gao, X. Zhao, Q.J. Ge: Mech. Mach. Theory Vol. 45(2010), p.756.