DETECTION OF BUILDING VIBRATIONS APPLYNG PHOTO DEFLECTION RESPONSE
DOI:
https://doi.org/10.21754/tecnia.v18i1.359Keywords:
structure vibrations, seismic waves, laser detection, photo deflectionAbstract
This paper presents the results of evaluating the vibration of a Building (Science Building / UNI) based on the Method of Laser Photo deflection. The evaluated vibrations of the building were, respectively, of spontaneous nature (produced by wind, automobile traffic, seismic waves) and induced (micro vibrations excited by sound waves). The procedure allowed us,to evaluate the following cases: a-A resonant effect occurred in the principal building Hall, b-Correlation of spontaneous and induced vibrations in the building, c-Detection and evaluation of building vibrations generated by Seismic waves.
Downloads
References
[1] Wen-Hae, L., "Free vibration analysis for tube- in-tube tall buildings", Journal of Sound and Vibration 303, pp. 287-304, (2007)
[2] Arnsta, M., Clouteau, D., Chebli, H., Othman, R., Degrande, G., "A non-parametric probabilistic model for ground-borne vibrations
buildings", Probabilistic Engineering Mechanics 21, pp. 18-34, (2006)
[3] Xia , H., Zhang, N.,. Cao, Y. M., "Experimental study oftrain-induced vibrations of environments and buildings", Journal of Sound and Vibration 280, pp. 1017-1029, (2005)
[4] De Sortis, E., Antonacci, F., Vestroni., "Dynamic identification of a masonry building using forced vibration tests", Engineering Structures 27, pp. 155-165, (2005)
[5] Li, Q. S., Zhang, Y. H., Wu, J. R., Lín, J. H. "Seismic random vibration analysis of tall buildings", Engineering Structures 26, pp. 1767- 1778, (2004)
[6] Tarjan, G., P. Collar, L., "Approximate analysis of building structures with identical stories subjected to earthquakes", International Journal of Solids and Structures 41, pp. 1411-1433, (2004).
[7] Ventura, C. E., Liam Finn, W. D., Lord, J. F., Fujita, N., "Dynamic characteristics of a base isolated building from ambient vibration measurements and low level earthquake shaking". Soil Dynamics and Earthquake Engineering 23, pp. 313-322, (2003)
[8] Tamura, Y., Matsui, M., Pagnini, L. C., Ishibashi, R., Yoshida, A., "Measurement of wind-induced response of buildings using RTK-GPS", Journal of Wind Engineering and Industrial Aerodynamics 90, pp.1783-1793, (2002).
[9] Lu, Y., Hao, H., Ma, G., Zhou, Y. "Local- Mode Resonance and its structural effects under horizontal ground shock excitations", Journal of Sound and vibration 254(1), pp. 51-68, (2002)
[10] Zalka, K. A., "A. simplified method for calculation of the natural frequencies of Wall- frame buildings", Engineering Structures 23 (2001) pp. 1544-1555
[11] Valera, A., Ortiz A, "Evaluación de vibraciones en estructuras usando un Método Óptico no convencional", TECNIA, Vol. 17 N° 2, pp. 47- 54, dic. 2007, Lima Perú.
[12] Ortiz, A., "Estudio de vibraciones estructurales por métodos ópticos", Tesis de Licenciatura, Fac. de Ciencias UNI. Nov. 2008, Lima Perú.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2008 TECNIA
This work is licensed under a Creative Commons Attribution 4.0 International License.
Articles published by TECNIA can be shared under the international Creative Commons license: CC BY 4.0. Permissions beyond this scope can be inquired via email at tecnia@uni.edu.pe.
