PDF
Abstract
In order to find out the bearing behavior of super-long piles located in deep soft clay over stiff layers around Dongting Lake, China, a test pile was first designed with the field loading test finished afterward. Based on the measured test results, load transfer mechanism and bearing behavior of the pile shaft were discussed in detail. Then, by introducing a bi-linear model for shaft friction and the tri-linear model for pile tip resistance, respectively, the governing differential equation of pile-soil system was set up by the load transfer method with the analytical solutions derived as well, taking into account the effect by stratified feature and various bearing conditions of subsoil, material nonlinearity, and the sediment under pile tip. Furthermore, formulas to determine the axial capacity of super-long piles by the pile top settlement were advised and applied to analyze the test pile. Good agreement between the predicted load-settlement variations and the measured data is obtained to verify the validity of the present method. The results also show that, the axial bearing capacity of super-long piles should be controlled by the allowable pile top settlement, and buckling stability of the pile shaft should be paid attention as well.
Keywords
super-long pile
/
settlement
/
load transfer model
/
axial load capacity
/
field test
Cite this article
Download citation ▾
Xin-jun Zou, Ming-hua Zhao.
Axial bearing behavior of super-long piles in deep soft clay over stiff layers.
Journal of Central South University, 2013, 20(7): 2008-2016 DOI:10.1007/s11771-013-1702-9
| [1] |
LinT-j, XiongH-j, WangL-qunPile foundation design manual [M], 1999BeijingChina Architecture & Building Press115-117
|
| [2] |
ZhuX-r, FangP-f, HuangH-mian. Research on super-long pile in soft clay [J]. Chinese Journal of Geotechnical Engineering, 2003, 25(1): 76-79
|
| [3] |
PoulosH G. Pile behavior-Theory and application [J]. Geotechnique, 1989, 39(3): 365-415
|
| [4] |
YangJ-bao. Research on load transfer mechanism of super-long pile [J]. Chinese Journal of Geotechnical Engineering, 1998, 20(6): 108-112
|
| [5] |
ZhaoM-huaCalculation and detecting for pile foundations of bridges [M], 2000BeijingThe People’s Communications Press32-45
|
| [6] |
WangB-h, ShangG-xingThe latest development on boring cast-in-situ piles in China [M], 1999BeijingThe People’s Communications Press56-72
|
| [7] |
ShiP-d, LiangJ-yu. Vertical bearing capacity of rock-socketed piles [J]. Chinese Journal of Geotechnical Engineering, 1994, 16(4): 32-39
|
| [8] |
KraftL M, RayR P, KagamaT. Theoretical τ-z curves [J]. Journal of Geotechnical Engineering, 1981, 107(11): 1543-1561
|
| [9] |
YangX L, HuangF. Collapse mechanism of shallow tunnel based on nonlinear Hoek-Brown failure criterion [J]. Tunnelling and Underground Space Technology, 2011, 26(6): 686-691
|
| [10] |
YangX L. Seismic passive pressures of earth structures by nonlinear optimization [J]. Archive of Applied Mechanics, 2011, 81(9): 1195-1202
|
| [11] |
YangX L, WangJ M. Ground movement prediction for tunnels using simplified procedure [J]. Tunnelling and Underground Space Technology, 2011, 26(3): 462-471
|
| [12] |
YangX L, ZouJ F. Cavity expansion analysis with non-linear failure criterion [J]. Proceedings of the Institution of Civil Engineers-Geotechnical Engineering, 2011, 164(1): 41-49
|
| [13] |
YangX L, YinJ H. Slope equivalent Mohr-Coulomb strength parameters for rock masses satisfying the Hoek-Brown criterion [J]. Rock Mechanics and Rock Engineering, 2010, 43(4): 505-511
|
| [14] |
KedziK. Bearing mechanism of piles [J]. Geotechnique, 1965, 20(1): 1-5
|
| [15] |
Ministry of Communications of P R China.Specifications for design of ground base and foundation of highway bridges and culverts (JTJ024-85) [S], 1985BeijingThe People’s Communications Press24-28
|
| [16] |
DelpakR, OmerJ R, RobinsonR B. Load/settlement prediction for large-diameter bored piles in Mercia mudstone [J]. Proceedings of the ICE-Geotechnical Engineering, 2000, 143(4): 201-224
|
| [17] |
CoyleH M, ReeseL C. Load transfer for axially loaded piles in clay [J]. Journal of Geotechnical Engineering, ASCE, 1966, 92(2): 1-26
|
| [18] |
YangX L, YinJ H. Slope stability analysis with nonlinear failure criterion [J]. Journal of Engineering Mechanics, 2004, 130(3): 267-273
|
| [19] |
RoseA V, TaylorR N, NaggarM H. Numerical modelling of perimeter pile groups in clay [J]. Canadian Geotechnical Journal, 2013, 50(3): 250-258
|
| [20] |
RamirezJ, FrigaardP, AndersenT, VosL. Large scale model test investigation on wave run-up in irregular waves at slender piles [J]. Coastal Engineering, 2013, 72(1): 69-79
|
