期刊
SOIL DYNAMICS AND EARTHQUAKE ENGINEERING
卷 142, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.soildyn.2020.106550
关键词
Half-space; Infinite element; Internal source; Moving load; 2; 5D approach; Wave propagation
资金
- National Natural Science Foundation of China [51678091]
- Special Program for Scientific and Technological Talents [cstc20l8jcyj-yszxX0013]
- Chongqing Municipal Natural Science Foundation [cstc20l7zdcy-yszxX0006, cstc20l8jcyj-yszx0012]
- Science, Technology Research Program of China State Railway Group Co., Ltd. [K2019GO36]
- Open Foundation of National Engineering Laboratory for High Speed Railway Construction [hsr201907]
The study investigates the 2.5D dynamic response of a half-space to an internal point load moving at suband super-critical speeds using both analytical and numerical approaches. By converting the partial differential equations of waves to ordinary differential equations via Fourier transformation, a multiplying factor is derived to account for load dissipation at different velocities. The findings include similarities in solutions for fast-moving point loads and line loads using 2D and 2.5D approaches, and increased displacement of the half-space with the self-frequency of the moving load.
The 2.5D dynamic response of a half-space to an internal point load moving at suband super-critical speeds is studied in Cartesian coordinates both analytically and numerically. Firstly, the partial differential equations of waves are converted to the ordinary differential equations by the Fourier transformation. Then, a multiplying factor is derived and added to the stiffness matrix to account for the dissipation of the load moving at different velocities, with or without self-frequency. Finally, the displacements of the half-space induced by the waves propagating upward and downward are obtained analytically for the specified boundary conditions. For comparison, the half-space is also analyzed by the 2.5D finite/infinite element method. The findings of the paper include: (1) the 2.5D solutions for a point load moving extremely fast are same as those for the line load by the 2D approach, (2) the dissipation of the moving load can be considered by adjusting the multiplying factor, (3) the attenuation of the half-space above the load level is reduced by the dissipation of the moving load, and (4) the displacement of the half-space increases with the self-frequency of the moving load.
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