Dynamic Response Analysis on Efficacy of CFG-Pile in Different Height Embankment

Jian Xiang

doi:10.4028/www.scientific.net/AMR.311-313.145

Paper Titles

Experiments of Infrared Thermography NDT in Composite Materials with Honeycomb Sandwich Structure
p.127

Study on the Preparation, Structure and Performances of Antibacterial PET Masterbatch
p.131

Synthesis and Infrared Emisstivity Properties of CdS/ZnS/Al Composite Material with Microemulsions
p.135

Structure and Infrared Radiation Properties of Metal Oxides-Doped Cordierites Using Graded Sintering Synthesis
p.140

Dynamic Response Analysis on Efficacy of CFG-Pile in Different Height Embankment
p.145

Synthesis of Silver Nanoparticles by Using Bamboo Hemicellulose as Template in Aqueous Solution
p.149

Finite Element Analysis and Experimental Verification on Mechanical Properties of Steel Mash Reinforced HDPE Composite Materials
p.155

The Preparation of Aluminum-Bronze/Steel Duplex Metal by Loose Sintering
p.160

Effect of Moisture Absorption on the Bending Strength of Carbon/Epoxy Composites with Voids
p.165

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 311-313Dynamic Response Analysis on Efficacy of CFG-Pile...

Dynamic Response Analysis on Efficacy of CFG-Pile in Different Height Embankment

Abstract:

In order to analyze the effect of embankment height to dynamic stability, Cross-section in the Beijing-Shanghai high-speed railway is chosen and the numerical simulation calculation method is applying. Distributing rules of dynamic displacement and dynamic stress of the subgrade surface and ground surface, attenuation rules of dynamic response and dynamic stress ratio between pile and soil on the vertical section were studied. It shows that the dynamic stress of pile and soil generally attenuates in depth and attenuation of dynamic stress ratio between pile and soil mostly concentrates into the scope of 10 meters beneath the ground. Moreover, with the increment of embankment height and attenuation of dynamic stress in direct proportion to the depth, the dynamic stress transferring to ground surface decrease and the dynamic displacement of ground surface minish. As a result, the scheme of CFG-pile with 3m scheme is superior to that of 2m scheme for enhancing dynamic stability and reducing dynamic displacement and stress in low embankment. It will be instructive to control design and construction for the low embankment in Beijing-Shanghai high-speed railway.