Browse > Article
http://dx.doi.org/10.12814/jkgss.2021.20.1.001

Analysis of the Correlation between the velocity speed of High-Speed Railways and the Suppressing Effect of lateral Displacement of retaining wall according to the Arrangement of Stabilizing Piles  

Son, Su-Won (Seismic Simulation Test Center, Pusan National Univ.)
Im, Jong-Chul (Department of Civil and Environmental Engineering, Pusan National Univ.)
Seo, Min-Su (Department of Civil and Environmental Engineering, Pusan National Univ.)
Hong, Seok-Woo (Department of Civil Engineering, Dong-Eui Univ.)
Publication Information
Journal of the Korean Geosynthetics Society / v.20, no.1, 2021 , pp. 1-8 More about this Journal
Abstract
In urban areas, structures are installed deep underground in the lower part of the structure to utilize space. Therefore, a retaining wall is used to prevent earth pressure from the ground when constructing a structure. Due to the development of construction technology, retaining wall applied to excavation work are used to prevent danger such as falling rocks and landslides in temporary facilities when construction or retaining walls are installed. In general, the application of a retaining wall to a temporary facility during the embankment construction is the case of expanding an existing roads or railways. Therefore, it is necessary to study the retaining wall applied to the embankment construction such as the double-track site of the high-speed railway. In this study, two types of common one row H-pile retaining wall and two types of IER retaining wall were analyzed, and the stability of the retaining wall applied to the construction of double-track of the high-speed railway was analyzed. The earth retaining wall is a construction method that combines forced pile applied to the stabilization of the slope with the wall of the earth retaining wall. As a result of the analysis, the IER retaining wall had maximum lateral displacement of 19.0% compared to the type with H-plie installed only in the front while dynamic load was applied. In addition, the slower the speed of high-speed railway, the more displacement occurred, and the results show that more caution is needed when designing the ground in low-speed sections.
Keywords
Retaining wall; High-speed railway; slope stabilization; embankment construction; excavation work;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Clough, G. W. and O'Rourke. T. D. (1990), "Construction induced movements of in situ walls". Proceedings of Design and Performance of Earth Retaining Structures, Vol.25, pp.439-470.
2 Faheem, H., Cai, F. and Ugai, K. (2004), "Three-dimensional base stability of rectangular excavations in soft soils using FEM", Computers and Geotechnics, Vol.31, No.2, pp.67-74.   DOI
3 Faheem, H., Cai, F., Ugai, K. and Hagiwara, T. (2003), "Two-dimensional base stability of excavations in soft soils using FEM", Computers and Geotechnics, Vol.30, No.2, pp.141-163.   DOI
4 Fry, R. H. and Rumsey, P. B. (1983) "Prediction and control of ground movement associated with trench excavation", Water Polluntion Control, Vol.82, No.2, pp.151-163.
5 Korea Rail Network Authority. (2010), Soil Survey Report of Detailed Design in the Daegu Line; Korea Rail Network Authority: Daejeon, Korea, pp.56. (In Korean)
6 Lee, J. H., Oh, D. W., Kong, S. M., Jung, H. S. and Lee, Y. J. (2018), "Investigation of Behaviours of Wall and Adjacent Ground Considering Shape of Geosynthetic Retaining Wall", Journal of the Korean Geosynthetics Society, Vol.17, No.1, pp.95-109. (in Korean)   DOI
7 Peck, R. B. (1969), "Advantages and limitations of the observational method in applied soil mechanics", Geotechnique, Vol.19, No.2, pp.171-187.   DOI
8 Jeong, S. S., Sim, J. U. and Lee, S. J. (2016), "A Study on the Rational Application of 3D Numerical Analysis for Anchored Earth Retaining Wall", Journal of the Korean Geotechnical Society, Vol.32, No.4, pp.29-39. (in Korean)   DOI
9 Bowles, J. E. (1988) Foundation Analysis and Design. 4th Edition, McGraw Hill.
10 Bauer, G. E. (1984), "Movements associated with the construction of a deep excavation", Proc. of the 3th International Conf. on Ground Movements and Structures, Cardiff, pp.694-701.
11 Caspe, M. S. (1966). "Surface settlement adjacent to braced open cuts", Journal of Soil Mechanics & Foundations Division, Vol.92, No.4, pp.51-59.   DOI
12 Mana, A. I. and Clough, G. W. (1981), "Prediction of movements for braced cuts in clay", Journal of the Geotechnical Engineering Division, ASCE, Vol.107, No.6, pp.759-777.   DOI