Time-frequency analysis of instantaneous seismic safety of bedding rock slopes: Fid-Bau Portal

Time-frequency analysis of instantaneous seismic safety of bedding rock slopes

Fan, Gang / Zhang, Li-Min / Zhang, Jian-Jing / Yang, Chang-Wei

AbstractAn earthquake wave has many non-linear and non-stationary components. In current methods for seismic slope stability analysis, the time-frequency-amplitude characteristics of the earthquake waves, which can significantly affect the computation results, are not taken into account. In this paper, formulas for computing the seismic safety factor of bedding rock slopes are derived based on the elastic wave mechanics. The Hilbert-Huang transform (HHT) signal processing technique is employed to identify the time-frequency-amplitude characteristics of the earthquake waves in the time-frequency domain. Then a time-frequency method for computing the instantaneous seismic safety factor of bedding rock slopes, which considers the time-frequency-amplitude characteristics of the earthquake waves simultaneously, is proposed. A shaking table test example is worked out to illustrate the application of the proposed time-frequency analysis method to a bedding rock slope. The instantaneous seismic safety factors of all bedding planes are calculated based on the time-frequency analysis method proposed in this research. The seismic safety factor changes significantly over time, and the seismic safety factor of the upper part of the bedding rock slope is smaller than that of the lower part of the bedding rock slope. Hence the upper part of the bedding rock slope is more vulnerable to seismic damage.

Highlights•A time-frequency method is proposed for evaluating the seismic safety of slopes.•Elastic wave mechanics and Hilbert-Huang transform signal processing are applied.•A large-scale shaking table test example is worked out to illustrate the method.•The upper part of the slope is more vulnerable to seismic damage.