Characteristics of Negative Skin Friction for Superlong Piles under Surcharge Loading
Publication: International Journal of Geomechanics
Volume 12, Issue 2
Abstract
This paper presents the study of negative skin friction of the superlong pile caused by the soil settlement under large-scale surcharge loading. Based on the displacement equilibrium principle and transfer matrix method, with the introduction of a load transfer model considering shaft resistance softening, the analytical model of negative skin friction of superlong pile under surcharge loading is established by considering the three-dimensional consolidation settlement along the pile under surcharge loading, the compression deformation of pile, and the soil settlement around pile-end. Three-dimensional Biot consolidation is used to derive the settlement of soil surrounding pile and the settlement formula is simplified by using the Laplace and Hankel integral transform. Furthermore, the analysis is conducted for an engineering example using the theoretical model and FEM simulation method. The results are also compared with the corresponding measured data. The characteristics of negative skin friction of superlong pile under surcharge loading are obtained, and the effect of soil parameters on negative skin friction is discussed as well, which can offer valuable reference for the design of superlong piles.
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References
Chen, F. Q., Gong, X. N., Ma, S. D. (2000). “Field test and 3D FEA of negative skin friction of piles.” J. Build. Struct.JJXUD2, 21(3), 77–80 (in Chinese).
Chen, R. P., Zhou, W. H., and Chen, Y. M. (2009). “Influences of soil consolidation and pile load on the development of negative skin friction of a pile.” Computers and Geotechnics, 36(8), 1265–1271.
Gu, R. Z., Jin, B. (1992). “Biot consolidation of multilayer subsoils under 3D-axisymmetric load.” Eng. Mech., 9(3), 81–94 (in Chinese).GOLIEB
Khatri, V. N. and Kumar, J. (2011). “Uplift capacity of axially loaded piles in clays.” Int. J. Geomech., 11(1), 23–28.IJGNAI
Lu, M. S. (1997). “Model tests and experience formula for negative skin friction of a single pile.” Port & Water Eng., (5), 54–58 (in Chinese).
Randolph, M. F., Wroth, C. P. (1981). “Application of the failure state in undrained simple shear to the shaft capacity of driven piles.” Geotechnique, 31(1), 143–157.GTNQA8
Halda, S. and Sivakumar Babu, G. L. (2010). “Failure mechanisms of pile foundations in liquefiable soil: Parametric study.” Int. J. Geomech., 10(2), 74–84.IJGNAI
Vesic, A. S. (1975). “Principles of pile foundation design.” Durham, North Carolina: Duke University.
Wang, J. H., Lu, J. F., Shen, W. P. (2000). “The application of Biot consolidation theory to the negative friction problem of single pile.” Chin. J. Geotech. Eng., 22(5), 590–593 (in Chinese).YGXUEB
Wang, T. and Ma, Y. (2005). “Study on over-length drilled pile bearing behavior under vertical load.” Rock Soil Mech., 26(7), 1053–1057 (in Chinese).
Xin, G. F., Zhang, Z. M., Xia, T. D. (2005). “Experimental study on the bearing behaviors of over length piles under heavy load.” Chin. J. Rock Mech. Eng., 24(13), 2397–2402 (in Chinese).
Yao, W. J., Chen, S. P. (2007). “Three dimensional nonlinear finite analysis of superlong pile and soil interaction.” Proc., Int. Conf. on Constitutive Modeling-Development, Implement, Evaluation, and Application, Hong Kong, 2007.
Yao, W. J. and Fu, X. Q. (2009a). “Buckling loads for super-long piles.” Chin. J. Underground Space Eng., 5(3), 463–467 (in Chinese).
Yao, W. J., Qiu, Y. Z., Cheng, Z. K. (2009b). “Initial post-buckling analysis for super-long rock-socketed piles.” Chin. J. Geotech. Eng., 31(5), 738–742 (in Chinese).YGXUEB
Yao, W. J., Qiu, Y. Z., Chen, Z. K. (2010a). “Ultimate bearing capacity analysis of super-long rock-socketed filling pile based on catastrophe theory.” Adv. Struct. Eng., 13(2), 331–338.
Yao, W. J. and Yin, W. X. (2010b). “Numerical simulation and study for super-long pile group under axis and lateral loads.” Adv. Struct. Eng., 13(6), 1139–1151.
Yin, W. X. and Yao, W. J. (2009). “Numerical investigation on interaction of axial and lateral response for super-long pile.” Hydro-Sci. Eng., 7(2), 15–20 (in Chinese).
Zhan, C. and Yin, J. H. (2000). “Field static load tests on drilled shaft founded on or socketed into rock.” Can. Geotech. J., 37(6), 1283–1294.CGJOAH
Zhang, L. Y., M. (2010). “Nonlinear analysis of torsionally loaded piles in a two-layer soil profile.” Int. J. Geomech., 10(2), 65–73.IJGNAI
Zhang, Z. M., Xin, G. F., Xia, T. D. (2004). “Test and research on unrock-socketed super-long pile in deep soft soil.” China Civ. Eng. J., 37(4), 64–69 (in Chinese).
Zhao, M. H., Yang, M. H., Cao, W. G., Chen, C. F. (2004). “Load transfer method for determining vertical bearing capacity of rock-socketed filling pile.” Chin. J. Rock Mech. Eng., 23(8), 1398–1402 (in Chinese).
Zhao, X. H., Zhang, Q. H., Zhang, B. L. (1999). “Iterative method for calculating the settlement of pile foundation with negative friction.” Rock Soil Mech., 20(2), 17–21 (in Chinese).
Zheng, J. J., Lu, Y. E., Yin, J. H. and Guo, J. (2010). “Radial consolidation with variable compressibility and permeability following pile installation”. Comput. Geotech., 37(3), 408–412.CGEOEU
Zhong, W. H., Shi, M. L., Liu, S. Y. (2005). “Load transfer performance of overlength piles.” Rock Soil Mech., 26(2), 307–318 (in Chinese).
Zhou, G. L. (1991). “The analysis on negative friction of piles.” Rock Soil Mech., 12(3), 35–42 (in Chinese).
Zhu, X. R., Fang, P. F., Huang, H. M. (2003). “Research on super-long pile in soft clay.” Chin. J. Geotech. Eng., 25(1), 76–79.YGXUEB
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© 2012. American Society of Civil Engineers.
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Received: Jan 12, 2011
Accepted: Aug 2, 2011
Published online: Aug 4, 2011
Published in print: Apr 1, 2012
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