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- Zeitschriftenartikel (52) (entfernen)
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- Ground vibration (12)
- Track-soil interaction (6)
- Layered soil (5)
- Railway track (5)
- Slab track (5)
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- Force transfer (3)
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- Train-induced ground vibration (3)
- Wavenumber integrals (3)
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- Finite-element boundary-element method (2)
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- Amplitude-distance law (1)
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- Continuous soil (1)
- Continuously inhomogeneous soils (1)
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- Geometric vehicle and track irregularities (1)
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- Kinematic and inertial soil-pile-building (1)
- Layered soils (1)
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- Measured railway vibrations (1)
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- Multi-beam model (1)
- Multi-beam track model (1)
- Multi-beam-on-support model (1)
- Obstacles (1)
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- Pile bending stiffness (1)
- Pile foundation (1)
- Plate-soil interaction (1)
- Prediction (1)
- Predictions (1)
- Quasi-static response; (1)
- Rail pad (1)
- Railway bridge (1)
- Railway forces (1)
- Railway induced vibration (1)
- Railway measurement campaign (1)
- Railway track vibration (1)
- Random dynamics and vibrations (1)
- Random stiffness variation (1)
- Randomly heterogeneous soil (1)
- Reduction (1)
- Rigid vehicle model (1)
- Scattered axle impulses (1)
- Scattering (1)
- Scattering damping (1)
- Sleeper pad (1)
- Soil forces (1)
- Soil stiffness (1)
- Soil transfer function (1)
- Soil-building interaction (1)
- Stiffness (1)
- Stiffness variation (1)
- Target stiffness (1)
- Track (1)
- Track alignment (1)
- Track and vehicle irregularities (1)
- Track damage (1)
- Track damage monitoring (1)
- Track damage quantification (1)
- Track deflection (1)
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- Track displacements (1)
- Track dynamic (1)
- Track filter (1)
- Track filtering (1)
- Track-soil and vehicle-track resonances (1)
- Train induced ground vibration (1)
- Train speed (1)
- Train-induced vibration (1)
- Trench (1)
- Tunnel (1)
- Tunnel-to-surface reduction (1)
- Under-sleeper pads (1)
- Varying track stiffness (1)
- Vehicle-track-soil interaction (1)
- Vibration (1)
- Vibration isolation (1)
- Vibration reduction (1)
- Wave attenuation (1)
- Wave excitation (1)
- Wave propagation (1)
- Wavenumber domain (1)
- Wavenumber method (1)
- Wheel out-of-roundness (1)
- Wheelset (1)
- Wheelset accelerations (1)
- Wind energy tower (1)
- layered soil (1)
Organisationseinheit der BAM
- 7 Bauwerkssicherheit (16)
- 7.2 Ingenieurbau (16)
A method is presented which allows to calculate the wave-field in a homogeneous or layered soil in case of a dynamic interior load. The wave propagation along the surface, the distribution of the response over the depth, the horizontal propagation at different depths and the vertical downward propagation are shown and compared with the simpler surface solution of the half-space and the interior solution of the full-space. The complete wave-field (Green's function) is applied to the dynamic behaviour of piles and pile groups by use of a boundary element formulation. The stiffness, damping and – typically for piles – mass of different groups of piles are presented. Different group effects occur for lines, circles, grids, parallels and crosses of piles, which can be regarded as oscillations around average values. Moreover, the piles and pile groups behave almost like a damper for most of the frequencies. A building on a pile group that is excited by ground vibration due to surface or interior loads shows a reduction of the wave-field due to kinematic and inertial soil–building interaction effects. The results presented lead to simplified descriptions of the wave-field due to interior loads and of the soil–pile–building interaction which can be used for the prediction of technically induced vibration.