Seismic Bearing Capacity of Strip Footings with Modified Pseudo-dynamic Method

Current research has shown a nonlinear trend in the failure of soil, and the single tangent method is commonly adopted when coping with nonlinear problems of soil failure. However, the method equates a nonlinear criterion to an optimizable linear criterion, which may differ from the actual situation...

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Bibliographic Details
Published inKSCE journal of civil engineering Vol. 28; no. 5; pp. 1657 - 1674
Main Authors Kang, Xudong, Zhu, Jianqun, Liu, Lili
Format Journal Article
LanguageEnglish
Published Seoul Korean Society of Civil Engineers 01.05.2024
Springer Nature B.V
Subjects
Bearing capacity
Civil Engineering
Criteria
Damping
Damping capacity
Damping ratio
Earthquake dampers
Engineering
Failure mechanisms
Foundations
Geotechnical Engineering
Geotechnical Engineering & Applied Earth Sciences
Industrial Pollution Prevention
Mohr-Coulomb theory
Shear strength
Soils
Upper bounds
Modified pseudo-dynamic method
Bearing capacity
Piece-wise
Nonlinear criterion
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Summary:Current research has shown a nonlinear trend in the failure of soil, and the single tangent method is commonly adopted when coping with nonlinear problems of soil failure. However, the method equates a nonlinear criterion to an optimizable linear criterion, which may differ from the actual situation, resulting in conservative results. In this paper, two types of piece-wise log-spiral failure mechanisms for bearing capacity estimations, including symmetrical and unilateral mechanisms were proposed with the nonlinear Mohr-Coulomb criterion. The static bearing capacity of foundations was evaluated using the symmetric failure mechanism, while the seismic bearing capacity of foundations was evaluated adopting a modified pseudo-dynamic method based on the unilateral failure mechanism. The result shows that the bearing capacity calculated in the paper is smaller compared to the result using the linear Mohr-Coulomb criterion. For London clay, the static bearing capacity is reduced by about 45% at a foundation width equal to 1m. From the comparisons, it is found that the proposed approach of piece-wise log-spiral failure mechanism for bearing capacity estimation is effective. In addition, parametric studies show that the nonlinear parameters, the initial factor of seismic acceleration, the normalized frequency, and the damping ratio all have obvious effects on the seismic bearing capacity. A significant reduction in the seismic bearing capacity of the foundation occurs when the normalized frequency ω s H / V s is equal to (0.5 + n ) π ( n = 0, 1, 2, …). Considering that the approach proposed provides a strict upper bound to the bearing capacity, the result imparts confidence in the approach of analysis presented.
ISSN:1226-7988
1976-3808
DOI:10.1007/s12205-024-2479-0