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      저자 : Salah Messioud (검색결과 2 건)
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        Seismic response of a rigid foundation embedded in a viscoelastic soil by taking into account the soil-foundation interaction

        Salah Messioud,Badreddine Sbartai,Daniel Dias 국제구조공학회 2016 Structural Engineering and Mechanics, An Int'l Jou Vol.58 No.5

        This study analyses the seismic response of a three-dimensional (3-D) rigid massless square foundation resting or embedded in a viscoelastic soil limited by rigid bedrock. The foundation is subjected to harmonic oblique seismic waves P, SV, SH and R. The key step is the characterization of the soil-foundation interaction by computing the impedance matrix and the input motion matrix. A 3-D frequency boundary element method (BEM) in conjunction with the thin layer method (TLM) is adapted for the seismic analysis of the foundation. The dynamic response of the rigid foundation is solved from the wave equations by taking into account the soil-foundation interaction. The solution is formulated using the frequency BEM with the Green’s function obtained from the TLM. This approach has been applied to analyze the effect of soilstructure interaction on the seismic response of the foundation as a function of the kind of incident waves, the angles of incident waves, the wave’s frequencies and the embedding of foundation. The parametric results show that the non-vertical incident waves, the embedment of foundation, and the wave’s frequencies have important impact on the dynamic response of rigid foundations.

      • Dynamic impedance of a 3x3 pile-group system: Soil plasticity effects

        Kamal Gheddar,Badreddine Sbartai,Salah Messioud,Daniel Dias 국제구조공학회 2022 Structural Engineering and Mechanics, An Int'l Jou Vol.83 No.3

        This paper considers dynamic impedance functions and presents a detailed analysis of the soil plasticity influence on the pile-group foundation dynamic response. A three-dimensional finite element model is proposed, and a calculation method considering the time domain is detailed for the nonlinear dynamic impedance functions. The soil mass is modeled as continuum elastoplastic solid using the Mohr-Coulomb shear failure criterion. The piles are modeled as continuum solids and the slab as a structural plate-type element. Quiet boundaries are implemented to avoid wave reflection on the boundaries. The model and method of analysis are validated by comparison with those published on literature. Numerical results are presented in terms of horizontal and vertical nonlinear dynamic impedances as a function of the shear soil parameters (cohesion and internal friction angle), pile spacing ratio and frequencies of the dynamic signal.

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