Dynamic stiffness and kinematic response of single piles in inhomogeneous soil

Emmanouil Rovithis, George Mylonakis, Kyriazis Pitilakis

Research output: Contribution to journalArticlepeer-review

31 Scopus citations

Abstract

The effect of soil inhomogeneity on dynamic stiffness and kinematic response of single flexural elastic piles to vertically-propagating seismic SH waves is explored. A generalized parabolic function is employed to describe the variable shear wave propagation velocity in the inhomogeneous stratum. A layered soil with piece-wise homogeneous properties is introduced to approximate the continuous inhomogeneity in the realm of a Beam-on-Dynamic-Winkler-Foundation model. The problem is treated numerically by means of a layer transfer-matrix (Haskell-Thompson) formulation, and validated using available theoretical solutions and finite-element analyses. The role of salient model parameters such as pile-head fixity conditions, pile-to-soil stiffness ratio, surface-to-base shear wave velocity ratio and rate of inhomogeneity is elucidated. A new normalization scheme for inertial and kinematic response of such systems is presented based on an average Winkler wavenumber. With reference to long piles in moderately inhomogeneous soils, results indicate that: (a) kinematic pile response is essentially governed by a single dimensionless frequency parameter accounting for pile-to-soil stiffness ratio, pile slenderness and soil inhomogeneity and (b) definition of a characteristic pile wavelength allows an approximate estimation of pile elastodynamic response for preliminary design or analysis. Issues related to domain discretization and Winkler moduli are discussed.

Original languageBritish English
Pages (from-to)1949-1972
Number of pages24
JournalBulletin of Earthquake Engineering
Volume11
Issue number6
DOIs
StatePublished - Dec 2013

Keywords

  • Haskell-Thompson technique
  • Inhomogeneous soil
  • Kinematic pile response
  • Pile impedance functions
  • Winkler analysis

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