TY - JOUR A1 - Auersch, Lutz T1 - Theoretical and experimental excitation force spectra for railway-induced ground vibration: vehicle-track-soil interaction, irregularities and soil measurements N2 - Excitation force spectra are necessary for a realistic prediction of railway-induced ground vibration. The excitation forces cause the ground vibration and they are themselves a result of irregularities passed by the train. The methods of the related analyses - the wavenumber integration for the wave propagation in homogeneous or layered soils, the combined finite-element boundary-element method for the vehicle-track-soil interaction - have already been presented and are the base for the advanced topic of this contribution. This contribution determines excitation force spectra of railway traffic by two completely different methods. The forward analysis starts with vehicle, track and soil irregularities, which are taken from literature and axle-box measurements, calculates the vehicle-track interaction and gets theoretical force spectra as the result. The second method is a backward analysis from the measured ground vibration of railway traffic. A calculated or measured transfer function of the soil is used to determine the excitation force spectrum of the train. A number of measurements of different soils and different trains with different speeds are analysed in that way. Forward and backward analysis yield the same approximate force spectra with values around 1 kN for each axle and third of octave. KW - Railway forces KW - Vehicle-track interaction KW - Irregularities KW - Rail roughness KW - Track alignment KW - Wheel out-of-roundness KW - Ground vibration KW - Soil transfer function PY - 2010 U6 - https://doi.org/10.1080/00423110802691515 SN - 0042-3114 VL - 48 IS - 2 SP - 235 EP - 261 PB - Taylor & Francis CY - Basingstoke, Hants. AN - OPUS4-22361 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER -