The Reverse Task of Discrete Mechatronic Vibration Systems With Negative Stiffness and Capacitance Elements

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Abstract

By the use of different distribution methods of dynamical characteristics in the form of slowness function, mechatronic discrete systems have been synthesized. Each model consists of mechanical discrete part and a piezostack actuator connected to LxRxCx external network that has to comply with dynamical requirements in the form of poles and zeros. External network can work within different configurations. In this paper, one investigates the influence of negative parameters of stiffness in mechanical replacement models and capacitance in final mechatronic structures, after dimensionless transformations and retransformations

[1] Buchacz A., Wróbel A.: Computer-Aided Analysis of Piezoelectric Plates, Mechatronic systems and materials: mechatronic systems and robotics. Solid State Phenomena, 2010, 164, pp. 239-242.

[2] Buchacz A., Płaczek M.: Damping of mechanical vibrations using piezoelements, including influence of connection layer’s properties on the dynamic characteristic. Solid State Phenomena, 2009, 147-149, pp. 869-875.

[3] Neubaer M., Oleskiewicz R., Popp K., Krzyzynski T.: Optimization of damping and absorbing performance of shunted piezo elements utilizing negative capacitance. Journal of sound and vibration, 2006, vol. 298, no 1-2, pp. 84-107.

[4] Białas K.: Passive and active elements in reduction of vibrations of torsional systems. Mechatronic Systems and Materials: Mechatronic Systems and Robotics Book series: Solid State Phenomena 2010, 164, pp. 260-264.

[5] Dymarek A.: Odwrotne zadanie dynamiki tłumionych mechanicznych układów drgajacych w ujeciu grafów i liczb strukturalnych. Praca Doktorska, Politechnika Slaska, Gliwice, 2000.

[6] Dzitkowski T.: Odwrotne zadanie dynamiki dyskretno-ciagłych układów mechanicznych w ujeciu grafów i liczb strukturalnych. Praca Doktorska, Politechnika Slaska, Gliwice, 2001.

[7] Buchacz A., Galeziowski D.: Reverse task as a designing of mechatronic vibrating branched systems, PAMM, 11: 215-216. Doi: 10.1002/pamm.201110099, 2011.

[8] Buchacz A., Galeziowski D.: Synthesis as a designing of mechatronic vibrating mixed systems.Journal of Vibroengineering, 2012, 14, issue 2, pp. 553-559.

[9] Fukada E., Date M., Kimura K. et al.: Sound Isolation by Piezoelectric Polymer Films Connected to Negative Capacitance Circuits, IEEE Transactions on Dielectrics and Electrical Insulation Vol. 11, No. 2; April 2004.

[10] Jamroziak K.: Identification of the selected parameters of the model in the process of ballistic impact. Journal of Achievements in Materials and Manufacturing Engineering, International OCOSCO World Press, Vol. 49, Issue 2, December 2011, pp. 305-312.

[11] Platus D.: Negative-stiffness-mechanism vibration isolation system, Proceedings of SPIE, 1999, 3786: pp. 98-105.

[12] Kashdan L., Conner Seepersad C., Haberman M., Wilson P.S.: Design, fabrication, and evaluation of negative stiffness elements using SLS, Rapid Prototyping Journal, 2012, 18, Issue 3, pp. 194-200.

Archive of Mechanical Engineering

The Journal of Committee on Machine Building of Polish Academy of Sciences

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CiteScore 2016: 0.44

SCImago Journal Rank (SJR) 2016: 0.162
Source Normalized Impact per Paper (SNIP) 2016: 0.459

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