Influence of Site Parameters on Fourier Amplification Application for 1D Linear Viscoelastic Method

Stambouli, Ahmed Boudghene; Zendagui, Djawad; Bard, Pierre‐Yves; Dif, Hamza

doi:10.3311/ppci.12601

Cited by 3 publications

(1 citation statement)

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“…In a layered case (Figure 2a), where the sediment material constituting the basin is extended infinitely in the horizontal direction. This model is the one used traditionally for the site-effects assessment (Wills et al, 2000;Stambouli et al, 2021). Since a pure one-dimensional (1D) case only applies when a vertically incident plane wave is used as input motion, the definition of 2D instead of 1D have been selected to account the use of more complex sources, i.e., double couple (DC) point sources.…”

Section: Comparative Approach For Basin Effect Quantificationmentioning

confidence: 99%

Integrated Assessment of Basin Effects on Seismic Damage: A Coupled 3D SEM-FEM Approach with Domain Reduction Method

Soto,

Lopez-Caballero

2024

Preprint

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Sedimentary materials enclosed in basins modify the ground motion by energy trapping, resonance and surface wave generation at the basin edge. In general, the effects of basin presence are approximated by amplification factors (AF), focusing directly on the horizontal components of ground motion. The current study presents a coupled framework to assess the impact of basin effects on the seismic damage of a nonlinear structure. Using the Domain Reduction Method (DRM), a complete time-analysis from the earthquake source, at a regional scale, to an infrastructure, at a local scale is performed. The numerical wave propagation simulation uses a coupled 3D SEM-FEM approach including non-linearities and soil-structure interaction. With the results is possible to correlate the amplification factors obtained from ground motions and the associated damage of the structure. The findings indicate that basins' effect on structural damage may be estimated in a simplified form using a combination of a structural behavior predictor and AFs derived from the free-field ground motions. However, these factors should be correctly predicted, including both basin and source variability.

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Section: Comparative Approach For Basin Effect Quantificationmentioning

confidence: 99%