Effects of axial loading on dynamic response of laterally loaded single piles in liquefiable layered soil of Kolkata city considering nonlinearity of soil

Abstract: In the present study, an advanced nonlinear finite-element based 3D numerical study has been carried out to investigate the effects of axial loading on dynamic response of soil-pile system in liquefiable layered soil deposits of Kolkata city. An advanced soil constitutive law based on multi-yield surface plasticity model implemented in fully-coupled u-p formulation is adopted for soil-fluid interaction and pore water pressure development reasonably. The present model is validated with the past experimental res… Show more

“…Studies have observed that piles at shallow depths cannot transfer inertia forces, and kinematic conditions are more effective at these depths [1,2]. There are many numerical and experimental studies on kinematic interaction analyses of piles in the literature [3][4][5][6][7][8][9][10][11][12][13].…”

“…Mallick et al [12] examined the dynamic effects of the pile-soil system under axial loading in liquefiable soil layers using the 3D finite element method. In the study, an advanced soil strength law based on a multi-surface plasticity model was used for soilfluid interaction and pore water pressure development.…”

Numerical Investigation of the Pile–Soil Interaction Problem under Dynamic Loads

“…Studies have observed that piles at shallow depths cannot transfer inertia forces, and kinematic conditions are more effective at these depths [1,2]. There are many numerical and experimental studies on kinematic interaction analyses of piles in the literature [3][4][5][6][7][8][9][10][11][12][13].…”

“…Mallick et al [12] examined the dynamic effects of the pile-soil system under axial loading in liquefiable soil layers using the 3D finite element method. In the study, an advanced soil strength law based on a multi-surface plasticity model was used for soilfluid interaction and pore water pressure development.…”

Numerical Investigation of the Pile–Soil Interaction Problem under Dynamic Loads

Nonlinear Dynamic Analysis of Laterally Loaded Piles in Liquefiable Layered Sloping Ground under the Influence of Axial Loading

Equivalent Linear Ground Response Analysis Considering Statistical Randomization of Shear Wave Velocity