Winfried Schepers scite author profile

This paper deals with the problem of time-varying point loads applied onto the surface of an elastic half-space and the stresses that such loads elicit within that medium. The emphasis is on the evaluation of the isobaric contours for all six of the stress components at various frequencies of engineering interest and for a full range of Poisson's ratios. The extensive set of pressure bulbs presented herein may of help in predicting the severity of dynamic effects in common practical situations in engineering -or even the lack thereof.

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3D-Simulation of Dynamic Interaction Between Track and Layered Subground

Savidis

Hirschauer

Bode

et al. 2003

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Fast 3D FEM-BEM coupling for dynamic soil-structure interaction

Schepers¹

2017

Procedia Engineering

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Wave propagation in inhomogeneous media via FE/PML method

Savidis

Bergmann²,

Schepers

et al. 2022

Geotechnik

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The Perfectly Matched Layer (PML) method is an efficient approach to imposing radiation conditions at the bounded region of interest in case of wave propagation in unbounded domains. This paper presents and validates 3D FE/PML numerical schemes based on two different PML formulations for homogeneous and inhomogeneous geological media exhibiting discrete or continuous inhomogeneity. In the equation of motion for the PML domain the applied stretching behavior is expressed either as complex material properties or as complex coordinates. Both PML formulations are implemented in the FEM and verified against analytical solutions. Three different types of material inhomogeneity are considered: layered half‐space, continuously inhomogeneous half‐space with linear velocity profile and continuously inhomogeneous half‐space with nonlinear velocity profile. Sensitivity analyses are conducted, and the performance of the developed numerical schemes is investigated taking into account a broad variation of the PML parameters. Recommendations are given for the optimal values of the PML parameters for the case of homogeneous and inhomogeneous geological media.

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