A series of mathematical models of mechatronic system with piezoelectric actuator

• Autorzy: Buchacz A. , Płaczek M.
• Języki publikacji: EN

Abstrakty

EN

Paper presents a process of modelling and investigation of a mechatronic system with piezoelectric transducer used as a vibration actuator - reverse piezoelectric effect is applied in considered system. A series of mathematical models of this system is presented. Characteristic that describes relation between amplitude of the system's vibration and parameters of harmonic voltage that supplied piezoelectric actuator is assigned on the basis of corrected approximate Galerkin method. Obtained results are juxtaposed and the most appropriate mathematical model of this system is chosen.

Słowa kluczowe

EN

mechatronic system; piezoelectric transducer; mathematical model

PL

układ mechatroniczny; przetwornik piezoelektryczny; model matematyczny

• Wydawca: Instytut Automatyzacji Procesów Technologicznych i Zintegrowanych Systemów Wytwarzania Politechniki Śląskiej
• Czasopismo: Wybrane Problemy Inżynierskie
• Rocznik: 2011
• Tom: nr 2
• Strony: 47--52
• Opis fizyczny: Bibliogr. 8 poz.

Twórcy

autor

Buchacz A.

autor

Płaczek M.

• Institute of Engineering Processes Automation and Integrated Manufacturing Systems, Faculty of Mechanical Engineering, Silesian University of Technology, Gliwice, Poland,

Bibliografia

• 1. Buchacz A., Płaczek M.: The discrete-continuous model of the one-dimension vibrating mechatronic system. PAMM - Proc. Appl. Math. Mech. 9, Issue 1, (2009), p. 395-396.
• 2. Buchacz A., Płaczek M.: The vibrating mechatronic system modeled as the combined beam, Dynamics, Proceedings of International Scientific and Technical Conference Reliability and Durability of Mechanic and Biomechanical Systems and Elements of their Constructions, 8-11 September 2009 – Sevastopol, 2009, p. 210-211.
• 3. Buchacz A., Płaczek M.: Development of Mathematical Model of a Mechatronic System, Solid State Phenomena Vol. 164 (2010), Trans Tech Publications, Switzerland, p. 319-322 (Online at: http://www.scientific.net).
• 4. Buchacz A., Płaczek M.: The approximate Galerkin’s method in the vibrating mechatronic system’s investigation, Proceedings of The 14th International Conference Modern Technologies, Quality and Innovation ModTech 2010, 20-22 May, 2010, Slanic Moldova, Romania 2010, p. 147-150.
• 5. Moheimani S.O.R., Fleming A.J.: Piezoelectric Transducers for Vibration control and Damping, Springer, London, 2006.
• 6. Preumont A.: Mechatronics: Dynamics of Electromechanical and Piezoelectric Systems, Springer, 2006.
• 7. Suleman A., Costa A.: Adaptive control of an aeroelastic flight vehicle using piezoelectric actuators, Computers and Structures 82 (2004), p. 1303-1314.
• 8. Yoshikawa S., Bogue A., Degon B.: Commercial Application of Passive and Active Piezoelectric Vibration Control, Applications of Ferroelectrics, 1998. ISAF 98. Proceedings of the Eleventh IEEE International Symposium on Applications of Ferroelectrics p. 293-294.