Estimating non-linear site response by single period approximation

Hing Ho Tsang; Adrian M. Chandler; Nelson T.K. Lam

doi:10.1002/eqe.567

Estimating non-linear site response by single period approximation

Hing Ho Tsang (Lead / Corresponding author)
, Adrian M. Chandler
, Nelson T.K. Lam

Civil Engineering

Research output: Contribution to journal › Article › peer-review

32 Citations (Scopus)

Abstract

Site effects characterize the filtering mechanisms within the soil sedimentary layers overlying bedrock. In regions of high seismicity such as California where strong motion records are relatively abundant, site coefficients can be developed by regression of recorded ground shaking parameters. In regions of low-to-moderate seismicity or of high seismicity but with a paucity of recorded strong motion data, such empirical models cannot be obtained in the same way. This study describes the theoretical development of a simple, rational manual procedure to calculate site coefficients, based on a single period approximation (SPA), and to construct displacement response spectra (RSD) for soil sites. The proposed simplified model, which takes into account the non-linear behaviour of soil that is dependent on the level of shaking, impedance contrast at the soil-bedrock interface and the plasticity of soil material, has been verified by comparison with results obtained from non-linear shear wave analyses and data recorded during the 1994 Northridge earthquake. The proposed model is believed to be a convenient tool for calculating non-linear site responses and constructing site-specific response spectra, which has the potential of being incorporated into code provisions.

Original language	English
Pages (from-to)	1053-1076
Number of pages	24
Journal	Earthquake Engineering and Structural Dynamics
Volume	35
Issue number	9
Early online date	24 Feb 2006
DOIs	https://doi.org/10.1002/eqe.567
Publication status	Published - 25 Jul 2006

Keywords

Displacement response spectrum
Non-linear
Seismic
Site effects
Soil

ASJC Scopus subject areas

Geotechnical Engineering and Engineering Geology
Earth and Planetary Sciences (miscellaneous)

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10.1002/eqe.567

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title = "Estimating non-linear site response by single period approximation",

abstract = "Site effects characterize the filtering mechanisms within the soil sedimentary layers overlying bedrock. In regions of high seismicity such as California where strong motion records are relatively abundant, site coefficients can be developed by regression of recorded ground shaking parameters. In regions of low-to-moderate seismicity or of high seismicity but with a paucity of recorded strong motion data, such empirical models cannot be obtained in the same way. This study describes the theoretical development of a simple, rational manual procedure to calculate site coefficients, based on a single period approximation (SPA), and to construct displacement response spectra (RSD) for soil sites. The proposed simplified model, which takes into account the non-linear behaviour of soil that is dependent on the level of shaking, impedance contrast at the soil-bedrock interface and the plasticity of soil material, has been verified by comparison with results obtained from non-linear shear wave analyses and data recorded during the 1994 Northridge earthquake. The proposed model is believed to be a convenient tool for calculating non-linear site responses and constructing site-specific response spectra, which has the potential of being incorporated into code provisions.",

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author = "Tsang, \{Hing Ho\} and Chandler, \{Adrian M.\} and Lam, \{Nelson T.K.\}",

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AU - Tsang, Hing Ho

AU - Chandler, Adrian M.

AU - Lam, Nelson T.K.

PY - 2006/7/25

Y1 - 2006/7/25

N2 - Site effects characterize the filtering mechanisms within the soil sedimentary layers overlying bedrock. In regions of high seismicity such as California where strong motion records are relatively abundant, site coefficients can be developed by regression of recorded ground shaking parameters. In regions of low-to-moderate seismicity or of high seismicity but with a paucity of recorded strong motion data, such empirical models cannot be obtained in the same way. This study describes the theoretical development of a simple, rational manual procedure to calculate site coefficients, based on a single period approximation (SPA), and to construct displacement response spectra (RSD) for soil sites. The proposed simplified model, which takes into account the non-linear behaviour of soil that is dependent on the level of shaking, impedance contrast at the soil-bedrock interface and the plasticity of soil material, has been verified by comparison with results obtained from non-linear shear wave analyses and data recorded during the 1994 Northridge earthquake. The proposed model is believed to be a convenient tool for calculating non-linear site responses and constructing site-specific response spectra, which has the potential of being incorporated into code provisions.

AB - Site effects characterize the filtering mechanisms within the soil sedimentary layers overlying bedrock. In regions of high seismicity such as California where strong motion records are relatively abundant, site coefficients can be developed by regression of recorded ground shaking parameters. In regions of low-to-moderate seismicity or of high seismicity but with a paucity of recorded strong motion data, such empirical models cannot be obtained in the same way. This study describes the theoretical development of a simple, rational manual procedure to calculate site coefficients, based on a single period approximation (SPA), and to construct displacement response spectra (RSD) for soil sites. The proposed simplified model, which takes into account the non-linear behaviour of soil that is dependent on the level of shaking, impedance contrast at the soil-bedrock interface and the plasticity of soil material, has been verified by comparison with results obtained from non-linear shear wave analyses and data recorded during the 1994 Northridge earthquake. The proposed model is believed to be a convenient tool for calculating non-linear site responses and constructing site-specific response spectra, which has the potential of being incorporated into code provisions.

KW - Displacement response spectrum

KW - Non-linear

KW - Seismic

KW - Site effects

KW - Soil

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DO - 10.1002/eqe.567

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AN - SCOPUS:33745921810

SN - 0098-8847

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JO - Earthquake Engineering and Structural Dynamics

JF - Earthquake Engineering and Structural Dynamics

IS - 9

ER -

Estimating non-linear site response by single period approximation

Abstract

Keywords

ASJC Scopus subject areas

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