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http://hdl.handle.net/10553/113617
Título: | Integral model for the analysis of pile foundations in stratified soils | Autores/as: | Álamo Meneses, Guillermo Manuel Aznárez González, Juan José Padrón Hernández, Luis Alberto Martínez Castro, Alejandro Gallego, Rafael Maeso Fortuny, Orlando Fco |
Clasificación UNESCO: | 330506 Ingeniería civil 120605 Ecuaciones integrales 330510 Cimientos |
Fecha de publicación: | 2017 | Editor/a: | ScienceKNOWconferences | Proyectos: | BIA2014-57640-R. Avances en El Desarrollo de Modelos Numéricos Para la Caracterización Dinámica de Cimentaciones Para Aerogeneradores . Beca Predoctoral FPU14/06115 | Conferencia: | 2nd Global Conference on Applied Computing in Science & Engineering. Las Palmas de Gran Canaria, 26-28 Julio 2017. | Resumen: | An efficient three-dimensional numerical model is presented for the dynamic analysis of pile foundations in horizontally layered soils in the frequency domain. The soil is assumed to be composed of a finite number of homogeneous, linear, isotropic, viscoelastic horizontal layers, and its behaviour is modelled through the integral reciprocity theorem in elastodynamics and the use of advanced fundamental solutions for the layered half space [1]. On the other hand, piles are considered as linear, viscoelastic, unidimensional Timoshenko’s beams through finite elements. Piles are treated as load lines in the soil formulation in order to incorporate the pile-soil interaction tractions. Finally, the equations of piles and soil are coupled together by imposing compatibility and equilibrium conditions. | URI: | http://hdl.handle.net/10553/113617 | ISBN: | 9788469743409 | URL: | http://www.mmc.siani.es/wp-content/plugins/download-monitor/download.php?id=77 |
Colección: | Actas de congresos |
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