Authors: M. Amelsakhi, A. Sohrabi-Bidar, A. Shareghi

Abstract:

One of the most important issues about the structural damages caused by earthquake is the evaluating of the spectral response of the site on which the construction is built. This fact has demonstrated during many earlier earthquakes and many researchers’ reports have concerned with it. According to these reports, features of the site materials and geometry of the ground surface are considered the main factors. This study concentrates on the specific form of topographies like hills. Assessing of spectral responses of different points on the hills and beside demonstrates considerable differences between 1D and 2D methods of geotechnical analyses. A general trend of amplifications on the top of the hills and de-amplifications near the toe of the hills has been appeared within the acceleration, velocity and displacement response spectrums of horizontal motion. Evaluating of spectral responses of different sizes of the hills revealed that as much as the hill-size enlarges differences between spectral responses of 1D and 2D analyses transfers to longer range of periods and becomes wider.

Keywords: Topography effect, Amplification ratio, Response spectrum.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1091844

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References:

[1] M., Celebi, "Topographical and geological amplification: case studies and engineering implications”. Structural Safety, 1991,10(1), 199-217.
[2] M., Celebi, "Topographical and geological amplifications determined from strong-motion and aftershock records of the 3 March 1985 Chile earthquake”. Bulletin of the Seismological Society of America,1987, 77(4), 1147-1167.
[3] G. A., Athanasopoulos, P. C.,Pelekis, andE. A.,Leonidou, "Effects of surface topography on seismic ground response in the Egion (Greece) 15 June 1995 earthquake”. Soil dynamics and earthquake engineering,1999, 18(2), 135-149.
[4] G. D.,Bouckovalas, andG. P.,Kouretzis, " Stiff soil amplification effects in the 7 September 1999 Athens (Greece) earthquake”. Soil dynamics and earthquake engineering, 2001, 21(8), 671-687.
[5] M. D.,Trifunac, and D. E.,Hudson,"Analysis of the Pacoima dam accelerogram San Fernando, California, earthquake of 1971”. Bull. of the Seismol. Soc. of Am., 1971, 61(5), 1393-1411.
[6] D. M.,Boore, "The effect of simple topography on seismic waves: implications for the accelerations recorded at Pacoima Dam, San Fernando Valley, California”. Bull. of the Seismol. Soc. of Am., 1973,63(5), 1603-1609.
[7] P., Spudich, M., Hellweg, and W. H. K.,Lee, "Directional topographic site response at Tarzana observed in aftershocks of the 1994 Northridge, California, earthquake: implications for main shock motions”. Bull. of the Seismol. Soc. of Am., 1996,86(1B), S193-S208.
[8] G. W.,Housner, "An Investigation of the effects of earthquakes on buildings”. Ph.D. Thesis, California Institute of Technology, Pasadena,1941.
[9] M. A.,Biot, "Analytical and experimental methods in engineering seismology”. Proe. ASCE, January, 1942.
[10] G. W.,Housner, "Behavior of structures during earthquakes”, Proc. ASCE,1959, October, 85.
[11] S., Hayashi, H., Tsuchida, and E., Kurata, "Average response spectra for various subsoil conditions”. Third joint meeting, U.S.-Japan Panel on Wind and eismic Effects, UJNR, Tokyo, 1971,May 10-12.
[12] B., Mohraz, W. J.,Hall, and N. M.,Newmark, "A Study of vertical and horizontal earthquake spectra”. Nathan M. Newmark Consulting Engineering Services, Urbana, Ill., USAEC Contract AT (49-5)-2667, 1972.
[13] J. A., Blume, R. L.,Sharpe, and J. S.,Dalal, "Recommendations for shape of earthquake response spectra”. John A. Blume & Associates, Eng., San Francisco, Calif., USAEC Contract AT (49-5)-3011, 1973.
[14] N. M., Newmark, J. A.,Blume, and K., Kapur, "Design response spectra for nuclear power plants”. Structural Engineers ASCE Conference, San Francisco, California,1973.
[15] H. B., Seed, C.,Ugas, and J., Lysmer, "Site-dependent spectra for earthquake-resistant design”. Bull. of the Seismol. Soc. of Am., 1976,66(1), 221-243.
[16] R. D., Borcherdt, C. M., Wentworth, A., Janssen, T., Fumal, and J.,Gibbs, "Methodology for predictive GIS mapping of special study zones for strong ground shaking in the San Francisco bay region, California”. Proc. Fourth Int, Conference Seismic Zonational (Stanford, California),1991, 545–552.
[17] R. D.,Borcherdt, "Estimates of site-dependent response spectra for design (Methodology and Justification)”. Earthq. Spectra, 1994,10, 617–653.
[18] D., Assimaki, E., Kausel, and G., Gazetas, "Soil-dependent topographic effects: A case study from the 1999 Athens earthquake”. Earthq. Spectra, 2005,21(4), 929-966.
[19] M., Kamalian, A., Sohrabi-Bidar, A., Razmkhah, A., Taghavi, and I., Rahmani, "Considerations on seismic microzonation in areas with two-dimensional hills”. Journal of earth system science, 2008,117(2), 783-796.
[20] Association Française du Génie Parasismique, "Recommendations AFPS”. 183, Paris,1990.
[21] E. C.,Code, "Euro Code 8. Design provisions for earthquake resistance of structures”.1998.
[22] P. A.,Cundall, "FLAC user’s manual”. Itasca Consulting Group, USA.Chicago.2005.
[23] A., Shareghi, M., Amelsakhi, and A.,Sohrabi-Bidar, "Evaluation of earthquake waves amplification due to trapezoidal hill by 1D and 2D time domain analysis”, Journal of Engineering Geology, accepted in 2013, to be published.
[24] G. D., Bouckovalas, andA. G.,Papadimitriou, "Numerical evaluation of slope topography effects on seismic ground motion”. Soil Dyn. and Earthq. Eng., 2005,25(7), 547-558.
[25] I. B. C.,Code, "International Council of Building Officials”. Uniform Building Code, USA.1997.
[26] R. L.,Kuhlemeyer, andJ.,Lysmer, "Finite element method accuracy for wave propagation problems”, Journal of Soil Mechanics & Foundations Div., 99(Tech Rpt), 1973.
[27] S., User Manual, Version 5.0. 1. Pavia, Italy. Seismo-Soft Inc. Supporting Services, 2010.
[28] A., Elnashai, and L., Di Sarno, "Fundamentals of Earthquake Engineering”. Wiley.2008.
[29] Building Standard Law of Japan, "Building Research Institute”. Tokyo, Japan, 2004.
[30] M., Kamalian, B., Gatmiri, andA. Sohrabi-Bidar, "On time-domain two-dimensional site response analysis of topographic structures by BEM”. Journal of seismology and earthquake engineering, 2003,5(2), 35-45.
[31] M., Kamalian, M. K., Jafari, K., Dehghan, A., Sohrabi-Bidar, and A., Razmkhah, "Two-dimensional hybrid response analysis of trapezoidal shaped hills in time domain”. Advances in Boundary Element Techniques,2003, IV, 231-236.
[32] A., Sohrabi-Bidar, and M.,Kamalian, "Effects of three-dimensionality on seismic response of Gaussian-shaped hills for simple incident pulses”. Soil Dyn. and Earthq. Eng., 2013,52, 1-12.
[33] Regents of the University of California, "PEER strong motion database”, http://peer.berkeley.edu/smcat/search.html, accessed 2012.