Response of L-shaped rigid foundations embedded in a uniform half-space to traveling seismic waves期刊界 All Journals 搜尽天下杂志传播学术成果专业期刊搜索期刊信息化学术搜索

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Response of L-shaped rigid foundations embedded in a uniform half-space to traveling seismic waves

Authors:	Martha Surez Javier Avils Francisco J Snchez-Sesma

Institution:	Martha Suárez, Javier Avilés,Francisco J. Sánchez-Sesma

Abstract:	A simplified indirect boundary element method is applied to compute the impedance functions for L-shaped rigid foundations embedded in a homogeneous viscoelastic half-space. In this method, the waves generated by the 3D vibrating foundation are constructed from radiating sources located on the actual boundary of the foundation. The impedance functions together with the free-field displacements and tractions generated along the soil–foundation interface are used to calculate the foundation input motion for incident P, S and Rayleigh waves. This is accomplished by application of Iguchi's averaging method which, in turn, is verified by comparison with results obtained rigorously using the relation between the solutions of the basic radiation (impedance functions) and scattering (input motions) problems. Numerical results are presented for both surface-supported and embedded foundations. It is shown how the seismic response of L-shaped foundations with symmetrical wings differs from that of enveloping square foundations. The effects of inclination and azimuth of the earthquake excitation are examined as well. These results should be of use in analyses of soil–structure interaction to account for the traveling wave effects usually overlooked in practice.

Keywords:	Boundary element method Earthquake excitation Half-space Impedance function Input motion Rigid embedded foundation
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