Experimental Modal Analysis of Reinforced Concrete Square Slabs
Authors: M. S. Ahmed, F. A. Mohammad
Abstract:
The aim of this paper is to perform experimental modal analysis (EMA) of reinforced concrete (RC) square slabs. EMA is the process of determining the modal parameters (Natural Frequencies, damping factors, modal vectors) of a structure from a set of frequency response functions FRFs (curve fitting). Although, experimental modal analysis (or modal testing) has grown steadily in popularity since the advent of the digital FFT spectrum analyzer in the early 1970’s, studying all types of members and materials using such method have not yet been well documented. Therefore, in this work, experimental tests were conducted on RC square slab specimens of dimensions 600mm x 600mmx 40mm. Experimental analysis was based on freely supported boundary condition. Moreover, impact testing as a fast and economical means of finding the modes of vibration of a structure was used during the experiments. In addition, Pico Scope 6 device and MATLAB software were used to acquire data, analyze and plot Frequency Response Function (FRF). The experimental natural frequencies which were extracted from measurements exhibit good agreement with analytical predictions. It is showed that EMA method can be usefully employed to investigate the dynamic behavior of RC slabs.
Keywords: Natural frequencies, Mode shapes, Modal analysis, RC slabs.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1099535
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[1] B.Moaveni, , X.He, J.P. Conte, , and J.I.Restrepo, Damage Identification Study of a Seven-story Full-scale Building Slice Tested on the UCSDNEES Shake Table. Structural Safety, vol. 32, Issue 5, 2010,pp. 347- 356.
[2] M.R. Davoodi, M. Mahdavi, , and S. A. Mostafavian, Experimental and Analytical Determination of Dynamic Properties of a Steel Frame with Bolted Flange Joints. Proceedings of International Conference on Engineering and Information Technology “ICEIT2012”, Toronto, Canada.2012.
[3] S. S. Havaldar, R. S. Sharma, V. P Raghupathy, and M Adiga, Evaluation of Dynamic Parameters of Adhesively bonded Steel and Aluminium Plates. ARPN Journal of Engineering and Applied Sciences, vol. 7, Issue 6, 2012.
[4] M. R. Ashory, High Quality Modal Testing Methods. A thesis submitted for the Degree of Doctor of Philosophy in Engineering, Department of Mechanical Engineering Imperial College of Science, Technology and Medicine London, UK, 1999.
[5] D.J. Ewins, Modal Testing: Theory, Practice and Application. 2nd ed. Baldock, England: Research Studies Press,2001, P. 562.
[6] 7- B. J. Schwarz, and M. H. Richardson, Experimental Modal Analysis” Vibrant Technology, Inc. Jamestown,1999.
[7] R. D. Blevins, Formulas for natural frequency and mode shape. Krieger Pub. California 95327, 2001.