TY - JOUR A1 - Auersch, Lutz T1 - The use and validation of measured, theoretical, and approximate point-load solutions for the prediction of train-induced vibration in homogeneous and inhomogeneous soils N2 - The layered soil is calculated in the frequency wavenumber domain and the solutions for fixed or moving point or track loads follow as wavenumber integrals. The resulting point load solutions can be approximated by simple formula. Measurements yield the specific soil parameters for the theoretical or approximate solutions, but they can also directly provide the point-load solution (the transfer function of that site). A prediction method for the train-induced ground vibration has been developed, based on one of these site-specific transfer functions. The ground vibrations strongly depend on the regular and irregular inhomogeneity of the soil. The regular layering of the soil yields a cut-on and a resonance phenomenon, while the irregular inhomogeneity seems to be important for high-speed trains. The attenuations with the distance of the ground vibration, due to point-like excitations such as vibrator, hammer, or train-track excitations, were investigated and compared. All theoretical results were compared with measurements at conventional and high-speed railway lines, validating the approximate prediction method. PY - 2014 SN - 1027-5851 VL - 19 IS - 1 SP - 52 EP - 64 CY - St. Petersburg, Russia AN - OPUS4-30494 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Auersch, Lutz A1 - Romero, A. A1 - Galvín, y P. T1 - Respuesta dinámica de edificaciones producida por campos de ondas incidentes considerando la interacción suelo-estructura T1 - Building dynamic response due to incident wave field considering soil-structure interaction N2 - En este artículo se presentan 2 metodologías basadas en las formulaciones del Método de los Elementos de Contorno y del Método de los Elementos Finitos para estudiar el efecto de la interacción suelo-estructura en el comportamiento dinámico de edificaciones. Se ha estudiado la respuesta de un edificio de 3 plantas producida por un campo de ondas incidente con los 2 métodos propuestos. Los resultados obtenidos presentan un buen grado de acuerdo entre ellos. A partir de estos resultados se ha validado un modelo aproximado para estudiar este tipo de problemas y se han examinado diferentes tipologías de edificaciones. Las conclusiones alcanzadas muestran que la respuesta global de las estructuras se debe a la deformación de los forjados y depende de su superficie, de las condiciones de apoyo y del acoplamiento con los forjados de la misma planta. Del mismo modo, se ha observado un acoplamiento del comportamiento de pilares y forjados cuando las rigideces de ambos son similares.----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- This paper presents 2 methodologies based on the Boundary Element Method and the Finite Element Method to study soil-structure interaction effect on building behaviour. A 3-story building response induced by an incident wave field is studied using both methods. The results obtained show a good agreement. Then, a simplified model is validated from these methods and several buildings are analysed. Conclusions show that structural responses are due to floor deformation, and depend on their area, support conditions and coupling. A coupling between floors and columns when both elements have similar stiffness is also observed. KW - Interacción dinámica suelo-estructura KW - Resonancia en edificaciones KW - Acoplamiento Método de los Elementos de Contorno-Método de los Elementos Finitos KW - Dynamic soil-structure interaction KW - Resonant response KW - Boundary Element Method-Finite Element Method coupling PY - 2014 U6 - https://doi.org/10.1016/j.rimni.2013.09.001 SN - 0213-1315 VL - 30 IS - 4 SP - 256 EP - 263 PB - Univ. CY - Barcelona AN - OPUS4-31579 LA - spa AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER -