Please use this identifier to cite or link to this item: http://hdl.handle.net/10553/16258
Title: Influences of type of wave and angle of incidence on seismic bending moments in pile foundations
Authors: Zarzalejos Familiar, José María
Aznárez González, Juan José 
Padrón Hernández, Luis A. 
Maeso, Orlando 
UNESCO Clasification: 120220 Ecuaciones diferenciales en derivadas parciales
120601 Construcción de algoritmos
330506 Ingeniería civil
330510 Cimientos
250705 Sismología y prospección sismica
Keywords: Pilotes
Structural dynamics
Seismic wave propagation
Angle of incidence
Pile foundations, et al
Issue Date: 2014
Project: Avances en El Estudio Dinámico de Sistemas Suelo-Estructura y Suelo-Agua-Estructura.Acciones Sísmicas y Propagación de Ondas. 
Journal: Earthquake Engineering and Structural Dynamics 
Abstract: When analysing the seismic response of pile groups, a vertically‐incident wavefield is usually employed even though it does not necessarily correspond to the worst case scenario. This work aims to study the influences of both the type of seismic body wave and its angle of incidence on the dynamic response of pile foundations. To this end, the formulation of SV, SH and P obliquely‐incident waves is presented and implemented in a frequency‐domain boundary element‐finite element code for the dynamic analysis of pile foundations and piled structures. Results are presented in terms of bending moments at cap level of single piles and 3 × 3 pile groups, both in frequency and in time domains. It is found that, in general, the vertical incidence is not the most unfavourable situation. In particular, obliquely‐incident SV waves with angles of incidence smaller than the critical one, a situation in which the mechanism of propagation of the waves in the soil changes and surface waves appear, yield bending moments much larger than those obtained for vertically‐incident wavefields. It is also shown that the influence of pile‐to‐pile interaction on the kinematic bending moments becomes significant for non‐vertical incidence, especially for P and SV waves.
URI: http://hdl.handle.net/10553/16258
ISSN: 0098-8847
DOI: 10.1002/eqe.2330
Source: Earthquake Engineering and Structural Dynamics [ISSN 0098-8847], v. 43 (1), p. 41-59
Rights: by-nc-nd
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