Deformation–failure mechanism of saturated fill slopes due to resonance phenomena based on 1gshaking-table tests | Zendy

Hidehiko Murao | Zendy; Kentaro Nakai | Zendy; Toshihiro Noda | Zendy; Takahiro Yoshikawa | Zendy

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Deformation–failure mechanism of saturated fill slopes due to resonance phenomena based on 1gshaking-table tests

Author(s) -

Hidehiko Murao,

Kentaro Nakai,

Toshihiro Noda,

Takahiro Yoshikawa

Publication year - 2018

Publication title -

canadian geotechnical journal

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.032

H-Index - 118

eISSN - 1208-6010

pISSN - 0008-3674

DOI - 10.1139/cgj-2017-0385

Subject(s) - earthquake shaking table , geology , geotechnical engineering , natural frequency , peak ground acceleration , deformation (meteorology) , failure mechanism , seismic wave , intensity (physics) , seismology , stability (learning theory) , acceleration , structural engineering , ground motion , engineering , vibration , physics , acoustics , oceanography , classical mechanics , quantum mechanics , machine learning , computer science

Earthquake motions include waves of various frequency bands ranging from low to high frequency. Notably, the dominant frequency affects the seismic stability of fill slopes. Hence, to analyze the d...

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