Prediction of lateral capacity losses of a single pile adjacent to excavation of foundation pits based on CPT tests

TONG Li-yuan; LI Hong-jiang; LIU Song-yu; YANG Tao

doi:10.11779/CJGE201903012

Volume 41 Issue 3

Turn off MathJax

Article Contents

Abstract

References

Chinese Journal of Geotechnical Engineering > 2019 > 41(3): 501-508. > DOI: 10.11779/CJGE201903012

TONG Li-yuan, LI Hong-jiang, LIU Song-yu, YANG Tao. Prediction of lateral capacity losses of a single pile adjacent to excavation of foundation pits based on CPT tests[J]. Chinese Journal of Geotechnical Engineering, 2019, 41(3): 501-508. DOI: 10.11779/CJGE201903012

Citation:

PDF (1210 KB)

Prediction of lateral capacity losses of a single pile adjacent to excavation of foundation pits based on CPT tests

1. Institute of Geotechnical Engineering, Southeast University, Nanjing 210096, China;
2. Jiangsu Key Laboratory of Urban Underground Engineering and Environmental Safety, Southeast University, Nanjing 210096, China

More Information

Received Date: January 14, 2018
Published Date: March 24, 2019

Graphical Abstract

Abstract

Abstract

The prediction of lateral capacity losses of a single pile adjacent to the excavation of foundation pits is made, by designing the excavation of a test pit in multi-layer soils based on CPT tests. The CPT-q_c curves before and after the excavation of the test pit are obtained and compared, and the lateral capacity losses of the single pile adjacent to the excavation of the test pit and its bending moment characteristics are analyzed using CPT-based p-y curve models. The residual lateral capacity of the test pile after exaction unloading and the lateral bearing rules facing the combined loadings from horizontal forces on pile head and soil movement forces are evaluated. The results show that using the actual CPT parameters of unloading soils is more reasonable than that of free-ground soils for the prediction of lateral capacity losses of a single pile adjacent to the excavation of foundation pits. The lateral capacity reduction after adjacent excavation unloading and the influences of lateral soil movement on piles must be taken into account in the design of engineering pile foundations. The study about CPT tests on unloading soils gives a technical approach for estimating the lateral capacity losses of the single pile adjacent to the excavation of foundation pits and has referential meanings for the evaluation of excavation unloading piles.
- cone penetration test,
- pile foundation,
- excavation unloading,
- lateral bearing capacity,
- p-y curve

FullText(HTML)

References (18)

References

[1]	KOK S T, HUAT B, NOORZAEI J, et al.A case study of passive piles failure in open excavation[J]. DFI Journal-The Journal of the Deep Foundations Institute, 2009, 3(2): 49-56.
[2]	韩爱民, 肖军华, 梅国雄. 横向流动土体作用下的群桩反应性状[J]. 岩土工程学报, 2005, 27(12): 1463-1467. (HAN Ai-min, XIAO Jun-hua, MEI Guo-xiong.Behavior of pile groups subjected to excavation-induced lateral soil movement[J]. Chinese Journal of Geotechnical Engineering, 2005, 27(12): 1463-1467. (in Chinese))
[3]	ROSCOE K H, SCHOFIELD A N, THURAIRAJAH A.Yielding of clays in states wetter than critical[J]. Géotechnique, 1963, 13(3): 211-240.
[4]	YIN Z Y, CHANG C S.Stress-dilatancy behavior for sand under loading and unloading conditions[J]. International Journal for Numerical and Analytical Methods in Geomechanics, 2013, 37(8): 855-870.
[5]	刘国彬, 贾付波. 基坑回弹时间效应的试验研究[J]. 岩石力学与工程学报, 2007, 26(增刊1): 3040-3044. (LIU Guo-bin, JIA Fu-bo.Test research on time effect of foundation pit rebound[J]. Chinese Journal of Rock Mechanics and Engineering, 2007, 26(S1): 3040-3044. (in Chinese))
[6]	POULOS H G, CHEN L T.Pile response due to excavation-induced lateral soil movement[J]. Journal of Geotechnical and Geoenvironmental Engineering, 1997, 123(2): 94-99.
[7]	GOH A, WONG K S, TEH C I, et al.Pile response adjacent to braced excavation[J]. Journal of Geotechnical and Geoenvironmental Engineering, 2003, 129(4): 383-386.
[8]	ONG D E, LEUNG C E, CHOW Y K.Pile behavior due to excavation-induced soil movement in clay: I stable wall[J]. Journal of Geotechnical and Geoenvironmental Engineering, 2006, 132(1): 36-44.
[9]	黄茂松, 王卫东, 郑刚. 软土地下工程与深基坑研究进展[J]. 土木工程学报, 2012, 45(6): 146-161. (HUANG Mao-song, WANG Wei-dong, ZHENG Gang.A review of recent advances in the underground engineering and deep excavations in soft soils[J]. China Civil Engineering Journal, 2012, 45(6): 146-161. (in Chinese))
[10]	LEE J, KIM M, KYUNG D.Estimation of lateral load capacity of rigid short piles in sands using CPT results[J]. Journal of Geotechnical and Geoenvironmental Engineering, 2009, 136(1): 48-56.
[11]	DYSON G J, RANDOLPH M F.Monotonic lateral loading of piles in calcareous sand[J]. Journal of Geotechnical Geoenvironmental Engineering, 2001, 127(4): 346-352.
[12]	HALDAR S, SIVAKUMAR BABU G L. Design of laterally loaded piles in clays based on cone penetration test data: a reliability-based approach[J]. Géotechnique, 2009, 59(7): 593-607.
[13]	SURYASENTANA S K, LEHANE B M.Numerical derivation of CPT-based p-y curves for piles in sand[J]. Géotechnique, 2014, 64(3): 186-194.
[14]	李洪江, 刘松玉, 童立元. 基于CPTU测试p-y曲线法及其在桩基水平承载中的应用[J]. 岩石力学与工程学报, 2017, 36(2): 513-520. (LI Hong-jiang, LIU Song-yu, TONG Li-yuan.A p-y curve method for determining the horizontal bearing capacity of single pile based on CPTU test and its application[J]. Chinese Journal of Rock Mechanics and Engineering, 2017, 36(2): 513-520. (in Chinese))
[15]	STEWART D P.Program PYGMY version 2.31, p-y analysis of laterally loaded piles under general loading-user manual[J]. University of Western Australia, 2000.
[16]	JGJ106—2014建筑基桩检测技术规范[S]. 2014. (JGJ106—2014 Technical code for testing of building foundation piles[S]. 2014. (in Chinese))
[17]	JGJ94—2008建筑桩基技术规范[S]. 2008. (JGJ94—2008 Technical code for building pile foundations[S]. 2008. (in Chinese))
[18]	李洪江, 童立元, 刘松玉, 等. 后注浆超长灌注桩水平承载特性现场试验研究[J]. 建筑结构学报, 2016, 37(6): 204-211. (LI Hong-jiang, TONG Li-yuan, LIU Song-yu, et al.Experimental study on lateral bearing behavior of post-grouting super-long bored pile[J]. Chinese Journal of Building Structures, 2016, 37(6): 204-211. (in Chinese))

Supplements (0)

Cited By

Cited by

Periodical cited type(12)

1.	李立辰，刘卓，刘浩，吴文兵，罗仑博，蒋国盛，梅国雄. 考虑土塞效应的开口管桩沉桩与承载全过程离散元分析. 岩土工程学报. 2024(07): 1471-1480 . 本站查看
2.	倪志. 基于静力触探测试的深基坑工程土体设计参数应用研究. 建筑技术开发. 2023(03): 152-154 .
3.	陈磊. 基于静力触探测试的深基坑工程土体设计参数应用研究. 广东建材. 2023(04): 72-75 .
4.	郭丽丽. 静力触探技术在中华长城博物馆土地基承载力评估中的应用. 砖瓦. 2022(06): 65-67+70 .
5.	栾尧正，杨泽讯，王佳俊. 基于静力触探试验的数值模拟研究. 工程机械与维修. 2022(05): 218-220 .
6.	赵腾跃，梁胜，候捷，张晨，卞海丁，姚伟伟. 基坑开挖施工时邻近桩基侧向变形分析. 施工技术(中英文). 2022(19): 40-45 .
7.	王磊，俞峰，潘静杰. 敞口管型桩压入对既有受荷桩基承载性状影响. 浙江大学学报(工学版). 2021(12): 2243-2251 .
8.	王磊，俞峰，王子郡. 黏性土中钢管桩承载力的静力触探设计方法. 工业建筑. 2021(10): 163-169 .
9.	刘路路，蔡国军，耿功巧，刘松玉. 考虑土塞效应的开口管桩承载力CPTU计算方法. 东南大学学报(自然科学版). 2020(02): 280-285 .
10.	陈伟，谢建斌，赵一锦，孙孝海，叶海涵，林煌超. 饱和沙土中高频液压振动沉桩敏感性因素分析. 哈尔滨商业大学学报(自然科学版). 2020(02): 214-218 .
11.	唐德康. 上海某深基坑降水抽水试验研究. 佳木斯大学学报(自然科学版). 2019(03): 363-366 .
12.	汪志涛，蓝天鹏，张明瑞. 钢钎静探设备的研制及其在输电线路工程勘察中的应用. 工程与建设. 2019(05): 737-739 .

Other cited types(9)

Get Citation

PDF

XML

Article views (285) PDF downloads (287) Cited by(21)

Prediction of lateral capacity losses of a single pile adjacent to excavation of foundation pits based on CPT tests

Abstract

References

Cited by

Periodical cited type(12)

Other cited types(9)

Catalog

Related

Prediction of lateral capacity losses of a single pile adjacent to excavation of foundation pits based on CPT tests

Abstract

References

Cited by

Periodical cited type(12)

Other cited types(9)

Catalog

Related

Export File

Citation

Format

Content