2021
DOI: 10.1177/87552930211027903
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Spectral damping scaling factors for horizontal components of ground motions from subduction earthquakes using NGA-Subduction data

Abstract: This article develops global models of damping scaling factors (DSFs) for subduction zone earthquakes that are functions of the damping ratio, spectral period, earthquake magnitude, and distance. The Next Generation Attenuation for subduction earthquakes (NGA-Sub) project has developed the largest uniformly processed database of recorded ground motions to date from seven subduction regions: Alaska, Cascadia, Central America and Mexico, South America, Japan, Taiwan, and New Zealand. NGA-Sub used this database t… Show more

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Cited by 12 publications
(8 citation statements)
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“…For NGA-West2, Rezaeian et al (2014b) developed a parametric DSF model for damping ratios of 0.5%–30%. As part of NGA-Sub, magnitude- and distance-dependent parametric models of the DSF for subduction interface and intraslab earthquakes for the horizontal (RotD50) component of ground motion were developed by Rezaeian et al (2021a). The functional form for the DSF model is the same as that of the NGA-West2 DSF model, but the coefficients were computed using the NGA-Sub database.…”
Section: Spectral Damping Scaling Factorsmentioning
confidence: 99%
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“…For NGA-West2, Rezaeian et al (2014b) developed a parametric DSF model for damping ratios of 0.5%–30%. As part of NGA-Sub, magnitude- and distance-dependent parametric models of the DSF for subduction interface and intraslab earthquakes for the horizontal (RotD50) component of ground motion were developed by Rezaeian et al (2021a). The functional form for the DSF model is the same as that of the NGA-West2 DSF model, but the coefficients were computed using the NGA-Sub database.…”
Section: Spectral Damping Scaling Factorsmentioning
confidence: 99%
“…The new subduction DSF model is applicable to periods longer than 0.1 s. Figure 7 presents the PSA for various damping ratios generated for M 9 interface and M 7 slab events at a distance of R RUP = 75 km. In this figure, the 5%-damped PSA is the average of KBCG and PSBAH assuming Z TOR = 10 km and Z HYP (hypocentral depth) = 20 km for the interface scenario, and Z TOR = 50 km and Z HYP = 50 km for the slab scenario (Rezaeian et al, 2021a). Both scenarios are for V S 30 = 760 m/s and default basin effects.…”
Section: Spectral Damping Scaling Factorsmentioning
confidence: 99%
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“…As one of the most representative intensity measures (IMs), the 5%‐damped (pseudo) spectral acceleration at an oscillator period ( T ), denoted as SA ( T , 5%), has been widely used to represent the characteristics of earthquake ground motions. Yet, the spectral accelerations with other damping ratio ( ξ ) values can be of interest for different types of structures 1–3 . As are related to the energy dissipation, the damping ratios can be larger than 5% for structures with base‐isolation systems and energy‐dissipation devices (e.g., ref.…”
Section: Introductionmentioning
confidence: 99%