[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/gae.2013.5.3.241

Numerical study on bearing behavior of pile considering sand particle crushing

Wu, Yang (Graduate School for International Development and Cooperation, Hiroshima University)
Yamamoto, Haruyuki (Graduate School for International Development and Cooperation, Hiroshima University)
Yao, Yangping (Department of Civil Engineering, Beihang University)

Publication Information

Geomechanics and Engineering / v.5, no.3, 2013 , pp. 241-261 More about this Journal

Abstract

The bearing mechanism of pile during installation and loading process which controls the deformation and distribution of strain and stress in the soil surrounding pile tip is complex and full of much uncertainty. It is pointed out that particle crushing occurs in significant stress concentrated region such as the area surrounding pile tip. The solution to this problem requires the understanding and modeling of the mechanical behavior of granular soil under high pressures. This study aims to investigate the sand behavior around pile tip considering the characteristics of sand crushing. The numerical analysis of model pile loading test under different surcharge pressure with constitutive model for sand crushing is presented. This constitutive model is capable of predicting the dilatancy of soil from negative to positive under low confining pressure and only negative dilatancy under high confining pressure. The predicted relationships between the normalized bearing stress and normalized displacement are agreeable with the experimental results during the entire loading process. It is estimated from numerical results that the vertical stress beneath pile tip is up to 20 MPa which is large enough to cause sand to be crushed. The predicted distribution area of volumetric strain represents that the distributed area shaped wedge for volumetric contraction is beneath pile tip and distributed area for volumetric expansion is near the pile shaft. It is demonstrated that the finite element formulation incorporating a constitutive model for sand with crushing is capable of producing reasonable results for the pile loading problem.

Keywords

constitutive model; particle crushing; finite element analysis; pile foundation; surcharge pressure;

Citations & Related Records

Reference

1	Kuwajima, K., Hyodo, M. and Hyde, A.F.L. (2009), "Pile bearing capacity factors and soil crushability", J. Geotech. Geoenviron. Eng., 135(7), 901-913 DOI ScienceOn
2	Lade, P.V., Yamamuro, J.A. and Bopp, P.A. (1996), "Significance of particle crushing in granular materials", J. Geotech. Geoenviron. Eng., 122(4), 309-316. DOI
3	Li, W. and Yamamoto, H. (2005), "Numerical analysis on soil behavior around pile-tip under vertical load", J. Struct. Eng., 51(B), 147-157. [In Japanese]
4	Lobo-Guerrero, S. and Vallejo, L.E. (2005), "DEM analysis of crushing around driven piles in granular materials", Geotechnique, 55(8), 617-623. DOI ScienceOn
5	Lobo-Guerrero, S. and Vallejo, L.E. (2007), "Influence of pile shape and pile interaction on the crushable behavior of granular materials around driven piles: DEM analyses", Granu. Matter., 9(3-4), 241-250. DOI
6	Mahmound, H., Hosein, S. and Habib, S. (2008), "Dilation and particle breakage effects on the shear strength of calcareous sands based on energy aspects", Int. J. Civ. Eng., 6(2), 108-117.
7	Yamamoto, H., Li, W., Tominaga, K. and Ogura, H. (2003), "Experimental study on effects of overburdening pressures and end shapes for point bearing capacities of pile", J. Struct. Eng., 49(B),157-162. [In Japanese]
8	Yao, Y.P., Sun, D.A. and Matsuoka, H. (2008a), "A unified constitutive model for both clay and sand with hardening parameter independent on stress path", Comput. Geotech., 35(2), 210-222. DOI ScienceOn
9	Yasufuku, N. and Hyde, A.F.L. (1995), "Pile end-bearing capacity in crushable sands", Geotechnique, 45(4), 663-676. DOI
10	Yao, Y.P., Yamamoto, H. and Wang, N.D. (2008b), "Constitutive model considering sand crushing", Soils Found., 48(4), 603-608. DOI
11	Yasufuku, N., Ochiai, H. and Ohno, S. (2001), "Pile end-bearing capacity of sand related to soil compressibility", Soils Found., 41(4), 59-71. DOI
12	Daouadji, A., Hicher, P.Y. and Rahma, A. (2001), "An elastoplastic model for granular materials taking into account grain breakage", Eur. J. Mech. A-Solid., 20(1), 113-137. DOI ScienceOn
13	Daouadji, A. and Hicher, P.Y. (2010), "An enhanced constitutive model for crushable granular materials", Int. J. Numer. Anal. Meth. Geomech., 34(6), 555-580.
14	Dijkstra, J., Broere, W. and Heeres, O.M. (2011), "Numerical simulation of pile intallation", Comput. Geotech., 38(5),612-622. DOI ScienceOn
15	Dijkstra, J., Broere, W. and Van, A.F. (2006), "Numerical investigation into stress and strain development around a displacement pile in sand", Proceedings of the Sixth European Conference on Numerical Methods in Geotechnical Engineering, Graz, Austria, September, 595-600.
16	Fukumoto, T. (1992), "Particle breakage characteristics of granular soils", Soils Found., 32(1), 26-40.
17	Hardin, B.O. (1985), "Crushing of soil particles", J. Geotech. Geoenviron. Eng., 111(10), 1177-1192. DOI ScienceOn
18	Kikumoto, M., Wood, D.M. and Russell, A. (2010), "Particle crushing and deformation behaviour", Soils Found., 50(4), 547-563. DOI
19	Miura, N., Murata, H. and Yasufuku, N. (1984), "Stress-strain characteristics of sand in a particle-crushing region", Soils Found., 24(1), 77-89. DOI
20	Miura, N. and Yamanouchi, T. (1971), "Drained shear characteristics of standard sand under high confining pressures", Proceedings of Japan Society of Civil Engineering, 193, 69-79. [In Japanese]
21	Nakai, T. (1989), "An isotropic hardening elastoplastic model for sand considering the stress path dependency in three-dimensional stresses", Soils Found., 29(1), 119-137. DOI
22	Nazem, M., Sheng, D.C. and Carter, J.P. (2006), "Stress integration and mesh refinement for large deformation in geomechanics", Int. J. Numer. Meth. Engng, 65(7), 1002-1027. DOI ScienceOn
23	Simonini, P. (1996), "Analysis of behavior of sand surrounding pile tips", J. Geotech. Geoenviron. Eng., 122(11), 897-905. DOI ScienceOn
24	Sun, D.A., Huang, W.X., Sheng, D.C. and Yamamoto, H. (2007), "An elastoplastic model for granular meterials exhibiting particle crushing", Key Eng. Mater., 340-341, 1273-1278. DOI

Reference

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3	Kaustav Chatterjee. (2015) Geomechanics and Engineering Dynamic analyses and field observations on piles in Kolkata city / 8 (3) , 415
4	Hongyang Cheng. (2017) Geotextiles and Geomembranes An analytical solution for geotextile-wrapped soil based on insights from DEM analysis / 45 (4) , 361
	M. Bharathi. (2018) Construction and Building Materials Dynamic lateral response of under-reamed vertical and batter piles / 158 , 910
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2	Masayuki Hyodo. (2017) Canadian Geotechnical Journal Undrained monotonic and cyclic shear response and particle crushing of silica sand at low and high pressures / 54 (2) , 207
	Michael James Winter. (2017) Engineering Geology Influences of particle characteristic and compaction degree on the shear response of clinker ash / 230 , 32
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6	(2013) Japanese geotechnical society special publication Effect of stress paths on the particle crushing / 8 (6) , 210
3	(2013) International journal of geomechanics Influence of Load Mode on Particle Crushing Characteristics of Silica Sand at High Stresses / 20 (3) , 04019194
2	(2013) Geomechanics & engineering Factors affecting particle breakage of calcareous soil retrieved from South China Sea / 22 (2) , 173
5	(2013) Energy & fuels : an American Chemical Society journal Mechanical Characteristics of the Hydrate-Bearing Sediments in the South China Sea Using a Multistage Triaxial Loading Test / 35 (5) , 4127
8	(2013) International journal of geomechanics New Simple Breakage Index for Crushable Granular Soils / 21 (8) , 04021136
18	(2013) Applied sciences Semi-Automated Procedure to Estimate Nonlinear Kinematic Hardening Model to Simulate the Nonlinear Dynamic Properties of Soil and Rock / 11 (18) , 8611