论文信息 - Evaluation of Dynamic Behavior for Pile-Supported Slab Track System by 3D Numerical Analysis

Evaluation of Dynamic Behavior for Pile-Supported Slab Track System by 3D Numerical Analysis

Dynamic numerical simulation of pile-supported slab track system embedded in a soft soil and embankment was performed. 3D model was formulated in a time domain to consider the non-linearity of soil by utilizing FLAC 3D, which is a finite difference method program. Soil non-linearity was simulated by adopting the hysteric damping model and liner elements, which could consider soil-pile interface. The long period seismic loads, Hachinohe type strong motions, were applied for estimating seismic respose of the system, Parametric study was carried out by changing subsoil layer profile, embankment height and seismic loading conditions. The most of horizontal permanent displacement was initiated by slope failure. Increase of the embedded height and thickness of the soft soil layer leads increase of member forces of PHC piles; bending moment, and axial force. Finally, basic guidelines for designing pile-supported slab track system under seismic loading are recommended based on the analysis results.

[1] Jin-sun Lee,et al. Evaluation of Caisson Quay Wall Behavior during the 1995 Kobe Earthquake by Nonlinear Effective Stress Analysis , 2016 .

[2] J. Lysmer,et al. Finite Dynamic Model for Infinite Media , 1969 .

[3] L. Mejia. Earthquake deconvolution for FLAC , 2006 .

[4] Jin-Sun Lee,et al. Appropriate Input Earthquake Motion for the Verification of Seismic Response Analysis by Geotechnical Dynamic Centrifuge Test , 2013 .

[5] R. Dobry,et al. Effect of Soil Plasticity on Cyclic Response , 1991 .

[6] V. Drnevich,et al. SHEAR MODULUS AND DAMPING IN SOILS: DESIGN EQUATIONS AND CURVES , 1972 .

[7] Dong‐Soo Kim,et al. Numerical analysis of inverted T-type wall under seismic loading , 2015 .

[8] Robert M. Ebeling,et al. Extended hyperbolic model for sand-to-concrete interfaces , 2003 .