Vertical dynamic response of pipe pile embedded in unsaturated soil based on fractional‐order standard linear solid model and Rayleigh‐Love rod model

Abstract: Considering the flow‐independent viscosity of soil skeleton and the lateral inertia effect of pipe pile, the vertical dynamic behavior of a pipe pile embedded in unsaturated soil is investigated in this work when the pipe pile is subjected to the vertical dynamic loading. In order to model this problem, the fractional‐order standard linear solid (FSLS) model is introduced to characterize the flow‐independent viscosity of the soil skeleton, the Rayleigh‐Love rod model is employed to specify the lateral inertia … Show more

“…This approach significantly reduces the computational requirements while maintaining precision. It has been adopted by a series of researchers, including Lü et al [48], Gao et al [49], Xiao et al [50], Zhang et al [51], and Liu et al [52].…”

Longitudinal Dynamic Response of a Large-Diameter-Bored Pile Considering the Bottom Sediment and Radial Unloading of the Surrounding Soil

“…This approach significantly reduces the computational requirements while maintaining precision. It has been adopted by a series of researchers, including Lü et al [48], Gao et al [49], Xiao et al [50], Zhang et al [51], and Liu et al [52].…”

Longitudinal Dynamic Response of a Large-Diameter-Bored Pile Considering the Bottom Sediment and Radial Unloading of the Surrounding Soil

Analytical approach for lateral dynamic responses of offshore wind turbines supported by cement-soil composite steel pipe pile embedded in gassy marine sediment layer

Analytical solution for the horizontal dynamic response of strength composite piles in fractional viscoelastic unsaturated ground