The reverse task of discrete mechatronic vibration systems with negative stiffness and capacitance elements

• Autorzy: Białas K. , Buchacz A. , Gałęziowski D.
• Konferencja: Nowe kierunki rozwoju mechaniki (X; 21-23.03.2013; Jarnołtówek, Polska)
• Języki publikacji: EN

Abstrakty

EN

Designing of the mechanical and mechatronic systems by use of different synthesis methods, in relation to resonant and antiresonant frequency requirements is well known problem]. Due to practical application usage of additional damping methods: active or passive dampers [5] and piezoelectric actuators it’s recently more and more common. Identification and selection of the various parameters of the considered models are very important from final behavior point of view. Basing on current approaches for negative stiffness mechanisms and capacitance elements identification and investigations for negative parameters on various discrete mechatronic structures have been done.

Słowa kluczowe

EN

vibration system; mechatronic system; negative stiffness

PL

wibracje; drgania; system mechatroniczny

• Wydawca: Oficyna Wydawnicza Politechniki Opolskiej
• Czasopismo: Zeszyty Naukowe. Mechanika / Politechnika Opolska
• Rocznik: 2013
• Tom: z. 101
• Strony: 13--14
• Opis fizyczny: Bibliogr. 12 poz.

Twórcy

autor

Białas K.

• Politechnika Śląska, ul Konarskiego 18A, 44-101,Gliwice

autor

Buchacz A.

• Politechnika Śląska, ul Konarskiego 18A, 44-101,Gliwice

autor

Gałęziowski D.

• Politechnika Śląska, ul Konarskiego 18A, 44-101,Gliwice

Bibliografia

• [1] BUCHACZ A., GALEZIOWSKI D.: Reverse task as a designing of mechatronic vibrating branched systems, PAMM, 11: 215-216. Doi:10.1002/pamm.201110099, 2011.
• [2] BUCHACZ A., GALEZIOWSKI D.: Synthesis as a designing of mechatronic vibrating mixed systems. Journal of Vibroengineering 2012; 14: issue 2, 553-559.
• [3] DYMAREK A.: Odwrotne zadanie dynamiki tłumionych mechanicznych układów drgających w ujęciu grafów i liczb strukturalnych. Praca Doktorska, Politechnika Śląska, Gliwice, 2000.
• [4] DZITKOWSKI T. Odwrotne zadanie dynamiki dyskretno-ciągłych układów mechanicznych w ujęciu grafów i liczb strukturalnych. Praca Doktorska, Politechnika Śląska, Gliwice, 2001.
• [5] 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: 260-264.
• [6] 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; 869-875.
• [7] BUCHACZ A., WRÓBEL A.: Computer-Aided Analysis of Piezoelectric Plates, Mechatronic systems and materials: mechatronic systems and robotics. Solid State Phenomena, 2010; 164: 239-242.
• [8] 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, p. 305-312.
• [9] śÓŁKIEWSKI S.: Numerical application for dynamical analysis of rod and beam systems in transportation, Solid State Phenomena 164 (2010) 343-348.
• [10] PLATUS D.: Negative-stiffness-mechanism vibration isolation system, Proceedings of SPIE, 3786: 98-105, 1999.
• [11] 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 Iss: 3, 194-200.
• [12] FUKADA E., DATE M., KIMURA K. and others: Sound Isolation by Piezoelectric Polymer Films Connected to Negative Capacitance Circuits, IEEE Transactions on Dielectrics and Electrical Insulation Vol. 11, No. 2; April 2004.