Comparison of Seismic Retrofitting Methods for Existing Foundations in Seismological Active Regions
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Comparison of Seismic Retrofitting Methods for Existing Foundations in Seismological Active Regions

Authors: Peyman Amini Motlagh, Ali Pak

Abstract:

Seismic retrofitting of important structures is essential in seismological active zones. The importance is doubled when it comes to some buildings like schools, hospitals, bridges etc. because they are required to continue their serviceability even after a major earthquake. Generally, seismic retrofitting codes have paid little attention to retrofitting of foundations due to its construction complexity. In this paper different methods for seismic retrofitting of tall buildings’ foundations will be discussed and evaluated. Foundations are considered in three different categories. First, foundations those are in danger of liquefaction of their underlying soil. Second, foundations located on slopes in seismological active regions. Third, foundations designed according to former design codes and may show structural defects under earthquake loads. After describing different methods used in different countries for retrofitting of the existing foundations in seismological active regions, comprehensive comparison between these methods with regard to the above mentioned categories is carried out. This paper gives some guidelines to choose the best method for seismic retrofitting of tall buildings’ foundations in retrofitting projects.

Keywords: Existing foundation, landslide, liquefaction, seismic retrofitting.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1092441

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References:


[1] FEMA 547, Techniques for the Seismic Rehabilitation of Existing Buildings, 2006
[2] Guideline for Seismic Upgrading of Building Structures, Institute for Research in Construction & National Research Council of Canada, 1995
[3] Handbook on Seismic Retrofit of Buildings, Central Public Works Department & Indian Building Congress, 2007
[4] Liddicoat, S. , Thomas,G. "Retrofitting House Foundations to Resist Earthquakes, A Literature Review”, Center for Building Performance Research, 2011
[5] Eurocode 8, Design Provisions for Earthquake Resistance of Structures- Part 5: Foundations, Retaining Structures and Geotechnical Aspects, 1998
[6] Subhamoy, B. "Pile Instability during Earthquake Liquefaction”, Ph.D. Thesis, University of Cambridge, 2003
[7] Port and Harbour Research Institute, Ministry of Transportation, Japan "Handbook on Liquefaction Remediation of Reclaimed Land”, Translated by: Waterway Experiment Station, US Army Corps of Engineers, USA, 1977
[8] Amini Motlagh,P. , Pak,A. "Seismic Retrofitting of Foundations”, Research Project Report (In Farsi), Department of Civil Engineering, Sharif University of Technology, Tehran, Iran, 2013
[9] Towhata,I. "Geotechnical Earthquake Engineering”, Springer, 2008
[10] Abramson, L.W. , Lee, T. S. , Sharma,S. , Boyce,G.M. "Slope Stability and Stabilization Methods”, John Wiley & Sons Inc., Second Edition, 2002
[11] Nishitani, M., Umebara, T., Fukui, J. "Development of Seismic Retrofitting Technologies for Existing Foundations”, A Cooperative Research Report on Development of Seismic Retrofitting Methods for Existing Foundations, 2003