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This paper constitutes the second part of the article Kinematically excited parametric vibration of a tall building model with a TMD. Part 1: numerical analyses (ACME, in press) by K. Majcher and Z. Wójcicki, which presents the results of theoretical research. This paper presents the experimental verification of those results. The experimental studies were carried out with the use of an especially designed physical model of a tall building, which rested on an earthquake simulator – a shaking table – created for this project. The simulator was used to generate several types of kinematic excitations: harmonic ones, superpositions of harmonic ones and, finally, ones generated on the basis of real seismograms. Vibrations were kinematically excited in the horizontal and vertical directions independently and simultaneously. The vertical component of the earthquake causes the pendulum suspension point to vibrate, thus exciting the pendulum parametrically. The theoretical study indicated a significant influence of this parametric excitation (parametric resonance) on the effectiveness of the Pendulum Tuned Mass Damper (PTMD). Therefore, the experimental analyses were especially focused on the parametric effects' impact on: the PTMD's ability to reduce the building's vibration, and the possibility of parametric resonance of the building due to parametric resonance of the PTMD.
Czasopismo
Rocznik
Tom
Strony
218--229
Opis fizyczny
Bibliogr. 12 poz., rys., tab., wykr.
Twórcy
autor
- Wrocław University of Technology, 27 Wybrzeże Wyspiańskiego St, 50-370 Wrocław, Poland
autor
- Wrocław University of Technology, 27 Wybrzeże Wyspiańskiego St, 50-370 Wrocław, Poland
autor
- Wrocław University of Technology, 27 Wybrzeże Wyspiańskiego St, 50-370 Wrocław, Poland
autor
- Wrocław University of Technology, 27 Wybrzeże Wyspiańskiego St, 50-370 Wrocław, Poland
autor
- Wrocław University of Technology, 27 Wybrzeże Wyspiańskiego St, 50-370 Wrocław, Poland
Bibliografia
- [1] B.S. Taranath, Wind and Earth quake Resistant Buildings Structural Analysis and Design, 1st ed., Marcel Dekker, New York, 2005.
- [2] M. Hori, Introduction to Computational Earthquake Engineering, 1st ed., Imperial College Press, London, 2006.
- [3] W.F. Chen, E. M. Lui, Earth quake Engineering for Structural Design, 2nd ed., Taylor & Francis Group, LLC, USA, 2006.
- [4] I. Takewaki, Critical Excitation Methods in Earthquake Engineering, 1sted., Elsevier BV, Oxford, 2007.
- [5] F.Y. Cheng, H. Jiang, K. Lou, Smart Structures: Innovative Systems for Seismic Response Control, LLC, 1sted., Taylor & Francis Group, USA, 2008.
- [6] Y.L. Xu, Q. He, J.M. Ko, Dynamic response of damper- connected adjacent building sunder earth quake excitation, Engineering Structures 21 (1999) 135–1481999 21 (1999) 135–148.
- [7] B. Samali, K.C.S. Kwok, Use of visco elastic damper sin reducing wind-and earth quake-induced motion of building structures, Engineering Structures 17 (9) (1995) 639–654.
- [8] J. Park, D. Reed, Analysis of uniformly and linearly distributed mass dampers under harmonic and earth quake excitation, Engineering Structure 23 (2001) 802–814.
- [9] C.C. Lin, J.F. Wang, J.M. Ueng, Vibration control identification of seismically excited m.d.o.f. structure-PTMD systems, Journal of Sound and Vibration 240 (1) (2001) 87–115.
- [10] K. Majcher, Z. Wójcicki, Kinematic ally excited parametric vibration of at all building model with a TMD. Part 1: numerical analyses, Archives of Civil and Mechanical Engineering (2013) (in press).
- [11] S. Ziemba,TheAnalysesofVibrations,1sted.,PWN, Warsaw, 1957(inPolish).
- [12] B.A. Shenoi, Introduction to Digital Signal Processing and Filter Design, 1sted., John Wiley & Sons, Inc., New Jersey, 2006.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-51df9e35-8c48-44ed-9056-06339c0dfa31
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