Research on Active Vibration Control of Simply supported Beam Base on Piezoelectric Actuator

Jian Ming Wen; Ji Jie Ma; Yong Hua Jiang; Guang Ming Cheng; Zhong Hua Zhang

doi:10.4028/www.scientific.net/AMR.479-481.1216

Paper Titles

Internal Unsteady Flow Induced Vibration in Centrifugal Pump
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Aerodynamic Analysis in Time Domain of a Cable-Stayed Bridge
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Dynamic Performance Optimization of Cylindrical Shell with Constrained Damping Layer Using Topology
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Research on Active Vibration Control of Simply supported Beam Base on Piezoelectric Actuator
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The Effect of Macro-Synthetic Fiber on the Seismic Performance of Reinforced Concrete Columns Carried Out by Experiment Study
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Identification of Three Dimension Vibration System Based on L-M Algorithm with Learning Rate
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Grey Correlation Analysis-Based Comprehensive Dynamic Characteristics Evaluation of NC Machine Tool
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Vibration Analysis for Pipeline Connected with Centrifugal Pump by FEM
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 479-481Research on Active Vibration Control of Simply...

Research on Active Vibration Control of Simply supported Beam Base on Piezoelectric Actuator

Abstract:

The active vibration control is becoming an effective mean to solve the vibration control problems of the aerospace and other fields. This paper builds up the active vibration control system of simply-supported beam based on piezoelectric actuator. The mathematical model of simply supported is derived and the displacement response curve of the beam is obtained by simulation analysis through MATLAB software. The vibration tests of simply supported beam under an initial disturbance and continuous incentives were carried out, according to the experimental results it can be concluded that the proposed control method has a suitable and efficient performance for vibrations control.

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Periodical:

Advanced Materials Research (Volumes 479-481)

Pages:

1216-1219

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.479-481.1216

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Online since:

February 2012

Authors:

Jian Ming Wen, Ji Jie Ma, Yong Hua Jiang, Guang Ming Cheng, Zhong Hua Zhang

Keywords:

Active Control, Piezoelectric Actuator, Vibration

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References

[1] Baillargeon BP and Vel SS. Active vibration suppression of sandwich beams using piezoelectric shear actuators:experiments and numerical simulations. Journal of Intelligent Materials Systems and Structures 16(6) (2005)517–530.

DOI: 10.1177/1045389x05053154

Google Scholar

[2] Vasques CMA and Dias Rodrigues J. Active vibration control of a smart beam through piezoelectric actuation and laser vibrometer sensing: simulation, design and experimental implementation. Smart Materials and Structures 16(2) (2007) 305–316.

DOI: 10.1088/0964-1726/16/2/008

Google Scholar

[3] Vasques CMA and Dias Rodrigues J. Numerical and experimental comparison of the adaptive feedforward control of vibration of a beam with hybrid active–passive damping treatments. Journal of Intelligent Material Systems and Structures 19(7) (2008) 805–813.

DOI: 10.1177/1045389x07081095

Google Scholar

[4] C.C. Lin, H.N. Huang. Vibration control of beam-plates with bonded piezoelectric sensors and actuators, Computers and Structures 73 (1–5) (1999) 239–248.

DOI: 10.1016/s0045-7949(98)00280-6

Google Scholar

[5] P. Guadenzi, R. Carbonardo, E. Benzi. Control of beam vibrations by means of piezoelectric devices: theory and experiments, Composite Structures 50 (4) (2000) 373–379.

DOI: 10.1016/s0263-8223(00)00114-8

Google Scholar

[6] N. Jalili, M. Dadfarnia, F. Hong, S.S. Ge. Adaptive non model-based piezoelectric control of flexible beams with translational base, in: Proceedings of the American Control Conference, Proceedings of the 2002, vol. 5, 8–10 May 2002, p.3802–3807.

DOI: 10.1109/acc.2002.1024520

Google Scholar

[7] M. Dadfarnia, N. Jalili, B. Xian, D.M. Dawson. A Lyapunov-based piezoelectric controller for flexible Cartesian robot arms, Journal of Dynamic Systems Measurement and Control 126 (2) (2004) 347–359.

DOI: 10.1115/1.1767854

Google Scholar

[8] J.C. Lin, M.H. Nien.Adaptive control of a composite cantilever beam with piezoelectric damping-modal actuators/sensors, Composite Structures 70 (2) (2005) 170–176.

DOI: 10.1016/j.compstruct.2004.08.020

Google Scholar