Generalized Seismic Active Thrust on a Retaining Wall with Submerged Backfill Using a Modified Pseudodynamic Method

Abstract

The appropriate estimation of seismic earth pressures acting on retaining walls supporting submerged backfill is an important area of research in earthquake geotechnical engineering. There is a scarcity of research work on retaining walls with submerged soil under seismic conditions in the literature. In this paper, closed-form generalized solutions for computing seismic active earth thrust and its distribution on nonvertical rigid retaining walls with fully submerged backfill are proposed using the modified pseudodynamic approach. The seismic analysis of retaining walls was carried out with a planar rupture surface in viscoelastic submerged backfill. The proposed modified pseudodynamic analysis satisfied the zero-stress-boundary condition on a free surface and considered the standing shear and primary waves, soil damping, amplification in the backfill, and an excess pore-pressure ratio in the backfill. A detailed parametric study was performed to gain an understanding of the effects of different parameters, including the horizontal seismic acceleration coefficient, excess pore-water-pressure ratio, period of lateral shaking, damping ratio, wall inclination, and soil-friction and wall-friction angles. A comparison of the present study results and the existing analytical and experimental studies resulted in good agreement.