Abstract
The ground in Saemangeum has a high water level and is mostly composed of silty soil and sand, which makes it susceptible to liquefaction and seepage effects. To investigate the seismic response of a geotextile tube-reinforced embankment and shallow foundations laid on a liquefiable soil, a simple spring type shaking table apparatus was developed. The variation in the response acceleration and shear stress-strain relationship were investigated, and the effect of soil improvement and reinforcement were explored, wherein one of the shallow foundations was laid on a coarse sand layer and reinforced by a polyester geotextile. The results showed that the main cause of damage to the embankment was seepage-induced liquefaction. Excessive surface accelerations were observed in the embankment soil due to lateral spreading, indicating the importance of analyzing the liquefaction potential of soils not only at the site area but also near embankments. Lastly, the inclusion of geotextile reinforcement and soil improvement only resulted in the slight reduction of shallow foundation settlement.
Funder
National Research Foundation of Korea
Subject
Fluid Flow and Transfer Processes,Computer Science Applications,Process Chemistry and Technology,General Engineering,Instrumentation,General Materials Science
Reference46 articles.
1. Seismic hazard assessment for two cities in Eastern Iran;Farzampour;Earthq. Struct.,2015
2. Identification of ground motion intensity measure and its application for predicting soil liquefaction potential based on the Bayesian network method;Hu;Eng. Geol.,2019
3. Assessment of seismic risk of a typical RC building for the 2016 Gyeongju and potential earthquakes;Jee;Earthq. Struct.,2021
4. A case study for determination of seismic risk priorities in Van (Eastern Turkey);Buyuksarac;Earthq. Struct.,2021
5. Investigation of the effect of grain size on liquefaction potential of sands;Sonmezer;Geomech. Eng.,2020