2018
DOI: 10.1007/s10518-018-00529-5
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The effect of earthquake motion characteristics on potentially liquefiable pile-pinned sloping ground

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Cited by 5 publications
(1 citation statement)
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“…1) between the two cases. Similar results that greater EPWP obtained from the motion with abundant low-frequency component was also reported by Panaghi et al (2019) and . This phenomenon can be mechanically explained: (1) According to the Newmark-beta integration scheme, a relatively larger horizontal residual displacement is usually obtained from a low-frequency earthquake excitation with the same PHA, resulting in the larger plastic strain of soil; (2) The high-frequency earthquake excitation generally induces larger velocity in the computational domain and thus results in larger Rayleigh damping force applied to the system (see Eq.…”
Section: Case Analyses and Discussionsupporting
confidence: 89%
“…1) between the two cases. Similar results that greater EPWP obtained from the motion with abundant low-frequency component was also reported by Panaghi et al (2019) and . This phenomenon can be mechanically explained: (1) According to the Newmark-beta integration scheme, a relatively larger horizontal residual displacement is usually obtained from a low-frequency earthquake excitation with the same PHA, resulting in the larger plastic strain of soil; (2) The high-frequency earthquake excitation generally induces larger velocity in the computational domain and thus results in larger Rayleigh damping force applied to the system (see Eq.…”
Section: Case Analyses and Discussionsupporting
confidence: 89%