期刊
ENGINEERING ANALYSIS WITH BOUNDARY ELEMENTS
卷 133, 期 -, 页码 19-29出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.enganabound.2021.08.022
关键词
Layered saturated soils; Cross-anisotropic; Vertical load; Fractional viscoelasticity; Partially embedded pile groups; Time effect
资金
- National Natural Science Founda-tion of China [41672275, 51639008, 51890911]
This study investigates the time-varying mechanical performance of partially embedded pile groups in multilayered cross-anisotropic fractional viscoelastic saturated soils under vertical loads, revealing significant influences of fractional derivative order, free length, pile spacing, and pile-soil stiffness ratio on their time effects. The proposed method is verified to be correct through comparisons with existing solutions and an ABAQUS model.
This paper investigates the time-varying mechanical performance of partially embedded pile groups subjected to vertical loads in multilayered cross-anisotropic fractional viscoelastic saturated soils. Piles are considered as onedimensional compression bars and the stiffness matrix of a single pile and the global stiffness matrix of partially embedded pile groups are obtained by the finite element method. Based on the boundary element method, the soil stiffness matrix is deduced by expanding the extended precise integration solution. Then, the solution for partially embedded pile groups in multilayered fractional viscoelastic saturated soils is derived by employing the boundary element-finite element coupling method. Comparisons with existing solutions and an ABAQUS model prove the correctness of the proposed method. Numerical analyses are carried out to evaluate the influences of fractional derivative order, free length, pile spacing, pile-soil stiffness ratio as well as soil stratification on the time effect of partially embedded pile groups under vertical loads.
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