Rock and Soil Mechanics ›› 2020, Vol. 41 ›› Issue (8): 2805-2813.doi: 10.16285/j.rsm.2019.1611

• Numerical Analysis • Previous Articles     Next Articles

Stability analysis of single pile base on efficient finite-element method

WAN Jian-hong, ZHENG Xiang-zhi, OUYANG Wei-hang, LIU Si-wei, LI Xue-you   

  1. School of Civil Engineering, Sun Yat-Sen University, Zhuhai, Guangdong 519082, China
  • Received:2019-09-17 Revised:2019-12-13 Online:2020-08-14 Published:2020-10-18
  • Supported by:
    This work was supported by Early Research Career Scheme Grant of Sun Yat-sen University (76140-18831105) and the 2019 Laboratory Open Fund Project of Sun Yat-sen University (201902146).

PDF (Chinese)

213

Abstract: Currently, the semi-empirical design method based on the linear elastic analysis assumption is commonly employed, which is incapable of examining the stability of the long pile embedded in complex ground mediums accurately. To this, this research adopts the nonlinear finite element method to establish an efficient pile element model for nonlinear analysis of piles. This approach can be utilized in nonlinear buckling stability analysis without assuming effective length factors. This paper elaborates the basic theory of the pile element. It’s worth noting that, the continuous springs along the element are integrated into the pile element formulations for considering the soil structure interaction (SSI) responses, which can significantly improve the computing efficiency. The element tangent stiffness matrixes are accordingly formulated for predicting displacement, and the secant relations are developed for eliminating accumulative errors in a Newton-Raphson incremental-iterative numerical procedure. The Updated- Lagrangian (UL) approach is developed for simulating large deflections of piles. Finally, several benchmark examples are provided for verifying the accuracy and efficiency of the proposed pile element model in analysis and design of piles with nonlinear surrounding soil.

Key words: single pile, finite-element, soil structure interactions, pile element, p-y curve

CLC Number: 

  • TU 473.1
[1] ZHANG Ji-meng, ZHANG Chen-rong, ZHANG Kai, . Model tests of large-diameter single pile under horizontal cyclic loading in sand [J]. Rock and Soil Mechanics, 2021, 42(3): 783-789.
[2] ZHANG Xiao-ling, ZHU Dong-zhi, XU Cheng-shun, DU Xiu-li, . Research on p-y curves of soil-pile interaction in saturated sand foundation in weakened state [J]. Rock and Soil Mechanics, 2020, 41(7): 2252-2260.
[3] ZOU Xin-jun, CAO Xiong, ZHOU Chang-lin, . Model study on the bearing behavior of V-H combined loaded pile in sand considering the current effects [J]. Rock and Soil Mechanics, 2020, 41(6): 1855-1864.
[4] HE Zhi-jun, LEI Hao-cheng, XIA Zhang-qi, ZHAO Lian-heng. Analysis of settlement and internal force displacement of single pile in multilayer soft soil foundation [J]. Rock and Soil Mechanics, 2020, 41(2): 655-666.
[5] JIANG Jie, WANG Shun-wei, OU Xiao-duo, FU Chen-zhi, . Analysis of the bearing characteristics of single pile under the T→V loading path in clay ground [J]. Rock and Soil Mechanics, 2020, 41(11): 3573-3582.
[6] QIN Yu-lan, ZOU Xin-jun, CAO Xiong. Internal forces and deformations of a single pile in uniform sand under combined action of horizontal harmonic load and torque [J]. Rock and Soil Mechanics, 2020, 41(1): 147-156.
[7] ZHANG Xun, HUANG Mao-song, HU Zhi-ping, . Model tests on cumulative deformation characteristics of a single pile subjected to lateral cyclic loading in sand [J]. Rock and Soil Mechanics, 2019, 40(3): 933-941.
[8] LIU Cheng-yu, ZHANG Zhi-xiang,. Improved calculation method of foundation pit enclosure structure based on p-y curve [J]. , 2018, 39(S1): 446-452.
[9] ZHAO Ming-hua, CHEN Yao-hao, YANG Chao-wei, XIAO Yao. Nonlinear analysis of pile in steep slope based on finite bar element method [J]. , 2018, 39(8): 3020-3028.
[10] LI Hong-jiang, TONG Li-yuan, LIU Song-yu, BAO Hong-yan, YANG Tao, . Parameter sensitivity of horizontal bearing capacity of large diameter and super-long bored pile [J]. , 2018, 39(5): 1825-1833.
[11] LI Ya, LI Shu-zhao, ZHANG Chao. An approach to analyze effects of spudcan penetration of a jack-up rig on adjacent piles in cohesive soils [J]. , 2018, 39(5): 1891-1900.
[12] LI Xiao-ming, ZHAO Qing-bin, YANG Qi-min, ZHAO Qi-hua, DING Zi-han,. Determination of coefficient m for foundation on a gravel soil-bedrock slope [J]. , 2018, 39(4): 1327-1336.
[13] LIU Hong-jun, YANG Qi,. Influence of local scour on bearing performance of wind turbine supporting system [J]. , 2018, 39(2): 722-727.
[14] RONG Xue-ning, XU Ri-qing, FENG Su-yang, QIU Tao,. Research on the laterally loaded piles under huge moment based on Lagrange multipliers method [J]. , 2017, 38(9): 2605-2612.
[15] ZHOU Li-duo, KONG Gang-qiang, PENG Huai-feng, GU Hong-wei, ZHU Xi,. Theoretical analysis of bearing capacities of pile group under oblique load [J]. , 2017, 38(9): 2647-2654.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
[1] XIA Dong-zhou, HE Yi-bin, LIU Jian-hua. Study of damping property and seismic action effect for soil-structure dynamic interaction system[J]. , 2009, 30(10): 2923 -2928 .
[2] FANG En-quan,CAI Yong-chang,ZHU He-hua. Research on interaction model of free boundary shape on crack propagation[J]. , 2009, 30(11): 3318 -3323 .
[3] REN Song, JIANG De-yi, YANG Chun-he. Numerical simulation research on ground subsidence after salt cavern gas storage collapsing[J]. , 2009, 30(12): 3595 -3601 .
[4] ZHAO Ming-hua, ZHANG Ling, CAO Wen-gui, MA Bin-hui. Deformation analysis of geocell reinforcement based on theory for beam on elastic foundation[J]. , 2009, 30(12): 3695 -3699 .
[5] MAO Chang-xi, DUAN Xiang-bao, WU Liang-ji. Study of critical gradient of piping for various grain sizes in sandy gravels[J]. , 2009, 30(12): 3705 -3709 .
[6] JIA Jian-qing, WANG Hong-tu, LIU Da-peng, AN Long-qi. Monitoring and analysis of tunnel surface stability[J]. , 2009, 30(12): 3765 -3770 .
[7] WU Jian,XIE Xin-yu,ZHU Xiang-rong. Study of properties of 1-D complex nonlinear consolidation of saturated soils[J]. , 2010, 31(1): 81 -86 .
[8] WEI Li,CHAI Shou-xi,CAI Hong-zhou,WANG Xiao-yan,LI Min3,SHI Qian. Research on tensility of wheat straw for reinforced material[J]. , 2010, 31(1): 128 -132 .
[9] QI Ji-lin,MA Wei. State-of-art of research on mechanical properties of frozen soils[J]. , 2010, 31(1): 133 -143 .
[10] LEI Yong-sheng. Research on protective measures of City Wall and Bell Tower due to underneath crossing Xi’an Metro Line No.2[J]. , 2010, 31(1): 223 -228 .
Copyright © Rock and Soil Mechanics, All Rights Reserved.
Tel: 027-87198484, 87199252, 87199253, 87198752 E-mail: ytlx@whrsm.ac.cn
Powered by Beijing Magtech Co. Ltd