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NTIS 바로가기한국지반신소재학회논문집 = Journal of the Korean Geosynthetics Society, v.20 no.4, 2021년, pp.9 - 18
이종영 (Department of Civil and Environmental Engineering, Chung-Ang Univ.) , 한중근 (Department of Civil&Environmental Engineering and Intelligent Energy&Industry, Chung-Ang Univ.)
In this study, the overconsolidation ratio (OCR) of soft clay soil was calculated by conducting an indoor physical experiment and a dynamics test using undisturbed soil samples from a soft clay soil field in South Korea. The OCR by depth was predicted by comparing the experimental results with the e...
Ahn, M. H. (2012), Estimation of soft soil properties in coastal reclaimed land using statistical technique -Focused on the region of incheon songdo new city-, Ph.D Thesis, Incheon university, Incheon, Korea.
Bjerrum, L. (1967), "Engineering Geology of Norwegian Consolidated Marine Clays as Related to Settlements of Buildings", Gotechnique, Vol.17, No.2, pp.81-118.
Bjerrum, L. (1972), "Embankment on Soft Ground", Proceedings of the ASCE Specialty Conference on Performance of Earth and Earth-Supported Structures, Purdue University, Vol.2, pp.1-54.
Casagrande, A. (1932), "The Structure of Clay and Its Importance in Foundation Engineering", J. Boston Soc. Civil Eng., Vol.19, pp.72-126.
Heo, H., Kwon, S., Lee, C. and Hae, W. (2010), "Analysis on the Relationship of Geotechnical Strength Parameters in the Marine Clay", J. Kor. Geo-Environ. Soc., Vol.11, No.7, pp.33-43.
Jamiolkowski, M., Ladd, C. C., Germaine, J. T., and Lancellotta, R. (1985), "New Developments in Field and Laboratory Testing of Soils", 11th International Conference on Soil Mechanics and Foundation Engineering, San Francisco, pp.57-153.
Lambe, T. W. (1958a), "The Structure of Compacted Clay", J. Soil Mech. & Foun. Div., ASCE, Vol.84, No.SM2, 1654-1 to 1654-34.
Lambe, T. W. (1958b), "The Engineering Behavior of Compacted Clay", J. Soil Mech. & Foun. Div., ASCE, Vol.84, No.SM2, 1655-1 to 1655-32.
Leroueil, S, Tavenas, F, Trak, B, LaRochelle, P. and Roy, M. (1978), "Construction Pore Pressures in Clay Foundations Under Embankments. Part I: The Saint-Alban Test Fills", Canadian Geotechnical Journal, Vol.15, No.1, pp.56.
Leroueil, S., Tavenas, F., Samson, L. and Morin, P. (1983), "Preconsolidation pressure of Champlain clays. Part II. Laboratory determination", Can. Geotech. J., Vol.20, No.4.
Mayne, P. W. (1985), "Stress Anisotropy Effects on Clay Strength", J. Geotech. Eng., ASCE, Vol.111, No.3, pp. 356-366.
Menzies, B. K. and Simons, N. E. (1976). Degree problems in soil mechanics and foundation engineering. Butterworth & Co Publishers Ltd., London, United Kingdom.
NAVFAC (1982), DESIGN MANUAL DM-7, Department of the Navy, Washington, USA.
Pelletier, J., Olson, R. and Rixner, J. (1979), "Estimation of consolidation properties of clay from field observations", Geotechnical Testing Journal, Vol.2, No.1, pp.34-43.
Raju, A. A. (1956), The Preconsolidation Pressure in Clay Soils, MSCE Thesis, Purdue University, USA, pp.41.
Wroth, C. P. (1984), "The interpretation of in situ soil tests", Gotechnique, Vol.34, pp.449-489.
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