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Abstract

This paper presents a theoretical and experimental study on the vibration suppression of the elastodynamic response of high-speed flexible linkage mechanisms by incorporating smart materials featuring piezoceramic actuators and sensors into the mech anism systems. A mixed variational principle is developed to provide the basis for the deri vation of the finite element equations governing the dynamic responses of the flexible links, the behaviors of the piezoelectric materials and their coupling relationships. The mathematical models of the piezoelectric sensors and actuators are then developed and employed in the finite element analysis and the control system design. To ensure the robust stability, the classical control approach is utilized to design the control system for actively suppressing the vibratory motions of the flexible links. An experimental study on a four- bar linkage mechanism with one flexible link is performed in order to verify the mathe matical model and the results of computer simulation, and evaluate the robustness of the control system.

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References

Rogers, C.A. , O.K. Barker and C.A. Jaeger 1988. "Introduction to Smart Materials and Structures ", in Smart Materials, Structures, and Mathematical Issues C A. Rogers , ed Lancaster, PA

Technomic Publishing Co , Inc

Bailey, T. and J.E. Hubbard, Jr. 1985 "Distributed Piezoelectric-Polymer Active Vibration Control of a Cantilever Beam", Joumal of Guidance, Control, and Dynamics, 8(5):605-611.

Burke, S.E. and J.E. Hubbard, Jr 1988 "Distributed Actuator Control Design for Flexible Beams", Automatica, 24.619-627.

Tzou, H.S. 1988. "Integrated Sensing and Adaptive Vibration Suppression of Distributed Systems", Recent Advances in Control of Nonlinear and Distributed Parameter Systems, Vol. 10, ASME-DSC, pp 51-58

Tzou, H.S. and M. Gadre. 1990 "Active Vibration Isolation and Excitation by Piezoelectric Slab with Constant Feedback Gains", Journal of Sound and Vibration, 136(3).477-490

Sung, C.K. and Y.C. Chen. 1990. "Vibration Control of the Elastodynamic Response of High-Speed Flexible Linkage Mechanisms", ASME Journal of Vibration and Acoustics.

Lee, C.Y. , S.R. Choi , B.S. Thompson and M.V. Gandhi 1989. "A Variational Formulation for the Finite Element Analysis and Control of Linkage and Robotic Systems Featuring Smart Material Incorporating Piezoelectric Materials", Proceedings of the 1st National Applied Mechanisms and Robotics Conference, Cincinnati, Ohio, 1989, 89AMR-2C-1.

Balas, M. 1978 "Feedback Control of Flexible Systems", IEEE Transactions on Automatic Control, AC-23(4).673-679

Balas, M. 1978. "Modal Control of Certain Flexible Dynamic Systems ", SIAM Journal of Control and Optimization, 16(3):450-462.

10.

Bontsema, J. , R.F. Curtain and J.M. Schumacher 1988. "Robust Control of Flexible Structures A Case Study", Automatica, 24.177-186.

11.

Curtain, R.F. 1986. "Robust Stabilization of Infinite Dimensional Systems by Finite Dimensional Controllers", System and Control Letters, 8 41-47.

12.

Kharagonekar, P.P. and K. Poolla 1986. "Robust Stabilization of Distributed Systems", Automatica, 22·77-84

13.

Morari, M. and E. Zafiriou. 1989. Robust Process Control London. Prentice-Hall International, Inc

14.

Mindlin, R.D. 1972 "High Frequency Vibrations of Piezoelectric Crystal Plates", International Journal of Solids and Structures, 8.895-906

15.

Sung, C.K. and B.S. Thompson. 1987. "A Variational Principle for the Hygrothermo-Elastodynamic Analysis of Mechamsm Systems", ASME Journal of Mechanisms, Transmissions and Automation in Design, 109(3):294-300

16.

Thompson, B.S. and C.K. Sung 1984. "A Variational Formulation for the Nonlinear Finite Element Analysis of Flexible Linkages ", ASME Journal of Mechanisms, Transmissions, and Automation in Design, 106(2):183-190

17.

Fanson, J.L. and J.A. Garba 1988. "Experimental Studies of Active Members in Control of Large Space Structures", AIAA Paper, No 88-2207 .

18.

Safonov, M.G. and R.Y. Chiang. "Schur Balanced Model Reduction ", in Proc. American Control Conference, June 15-17, 1988

19.

Vibration Suppression of Flexible Linkage Mechanisms Using Piezoelectric Sensors and Actuators

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