Abstract
Collapse of a 7.08-m-deep open cut excavation for the bank of a navigation lock in sensitive soft clay in Zhejiang, China, is presented in this paper. Cone penetration tests, field vane shear tests (VSTs), and traditional laboratory tests have been performed to investigate the soil properties after the collapse. According to the test results, the soft soil layers of mucky clay and muck have been found to be disturbed because of the effects of the boring holes. For bored concrete piles, the stresses release due to the cut slope, thus its shear strength is much lower than that measured from laboratory tests. The shear strength reduction technique based on a finite-element method program has been used to study the excavation behavior and overall factor of safety (FOS) of the excavated slope considering geometries of original design, later adopted schemes and soil properties associated with various test types. The computed FOS values obtained from VST results are lower than the corresponding recommended values and just a little higher than the limited value. Thus the excavated slope may easily collapse triggered by additional vehicles and surface surcharge loads. The reasons of excavation collapse can be explained as the misuse of soil properties for designers, and inadequate construction process management. The investigation of the failure provides experiences and lessons for the design and construction of similar projects in sensitive soft clay.
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References
Arasan S, Akbulut RK, Isik F, Zaimoglu AS (2016) Behavior of polymer columns in soft clayey soil: a preliminary study. Geomech Eng 10(1):95–107. doi:10.12989/gae.2016.10.1.095
Chen RP, Li ZC, Chen YM, Ou CY, Hu Q, Rao M (2015) Failure investigation at a collapsed deep excavation in very sensitive organic soft clay. J Perform Constr Facil 29:04014078. doi:10.1061/(ASCE)CF.1943-5509.0000557
Chenari RJ, Zamanzadeh M (2016) Uncertainty assessment of critical excavation depth of vertical unsupported cuts in undrained clay using random field theorem. Sci Iran A 23(3):864–875
Ching J, Phoon KK (2013) Multivariate distribution for undrained shear strengths under various test procedures. Can Geotech J 50:907–923. doi:10.1139/cgj-2013-0400
Chung SG, Hong YP, Lee JM, Min SC (2012) Evaluation of the undrained shear strength of Busan clay. KSCE J Civ Eng 16(5):733–741. doi:10.1007/s12205-012-1583-8
Hung K, Phienwej N (2016) Practice and experience in deep excavations in soft soil of Ho Chi Minh city, Vietnam. KSCE J Civ Eng 20(6):2221–2234. doi:10.1007/s12205-015-0470-5
Irfan M, Akbar A, Aziz M, Khan AH (2013) A parametric study on stability of open excavations in alluvial soils of Lahore district, Pakistan. Geotech Geol Eng 31:729–738. doi:10.1007/s10706-013-9623-9
Keawsawasvong S, Ukritchon B (2017) Stability of unsupported conical excavations in non-homogeneous clays. Comput Geotech 81:125–136. doi:10.1016/j.compgeo.2016.08.007
Kempfert HG, Gebreselassie B (2006) Excavations and foundations in soft soils. Springer, Berlin
Likitlersuang S, Surarak C, Wanatowski D, Oh E, Balasubramaniam A (2013) Finite element analysis of a deep excavation: a case study from the Bangkok MRT. Soils Found 53:756–773. doi:10.1016/j.sandf.2013.08.013
Su HZ, Hu J, Yang M (2015) Evaluation method for slope stability under multianchor support. Nat Hazards Rev 16:04014034. doi:10.1061/(ASCE)NH.1527-6996.0000171
Tan Y, Wei B, Zhou X, Diao YP (2015) Lessons learned from construction of Shanghai metro stations: importance of quick excavation, prompt propping, timely casting, and segmented construction. J Perform Constr Facil 29:04014096. doi:10.1061/(ASCE)CF.1943-5509.0000599
Wu HN, Shen SL, Ma L, Yin ZY, Horpibulsuk S (2015) Evaluation of the strength increase of marine clay under staged embankment loading: a case study. Mar Georesour Geotechnol 33:532–541. doi:10.1080/1064119X.2014.954180
Yan S, Feng X, Hou J (2010) Correlating vane shear results with undrained strength parameters for slope stability analysis. In: Liang RY, Zhang F, Yang K (eds) Deep foundations and geotechnical in situ testing, GeoShanghai 2010. American Society of Civil Engineers, Shanghai
Yildiz A, Uysal F (2015) Numerical modelling of Haarajoki test embankment on soft clays with and without PVDs. Geomech Eng 8(5):707–726. doi:10.12989/gae.2015.8.5.707
Zhang GC, Xie N, Tang HM, Zhang L, Wu JP (2015) Survey and cause analyses of ground surface deformation near a foundation pit slope: a case study in the three Gorges area, China. Nat Hazards 75:13–31. doi:10.1007/s11069-014-1261-x
Acknowledgements
This research was funded by the National Natural Science Foundation of China (NSFC) (Grant No. 51409167), the Fundamental Research Funds for the Central Public Welfare Research Institute (No. Y716007). The partial data provided by the Construction Headquarter of Jinqingxin Navigation Lock and Zhejiang Design Institute of Water Conservancy and Hydroelectric Power are gratefully acknowledged.
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Hu, J., Ma, F. Failure Investigation at a Collapsed Deep Open Cut Slope Excavation in Soft Clay. Geotech Geol Eng 36, 665–683 (2018). https://doi.org/10.1007/s10706-017-0337-2
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DOI: https://doi.org/10.1007/s10706-017-0337-2