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EXPERIMENTAL STUDY ON TIME EFFECT OF WET DRILLING PILE 被引量:2

湿作业成孔钻孔灌注桩时间效应试验(英文)
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摘要 Time effect of wet drilling pile is investigated through the static load experiment on pile No. 22 of Guanhe Bridge. Post-grouting under pile tip is adopted in the project. To study the bearing performance of the pile, the self-balanced method is used and two load cells are assembled in the pile body. The experiments are carried out before and after post-grouting. The upper part of the pile is not influenced by post-grouting under the pile tip. Experimental results of the upper part of the pile show that the bearing capacity and the rigidity of wet drilling pile increase with time passing on. Analysis results show the time effect of wet drilling pile is influenced by many factors, such as alteration of stress field around pile, characteristics of soil around pile, variety of mud cake, and property of residue under pile tip. 通过灌河大桥22号试桩的静载试验,研究了湿作业成孔钻孔灌注桩的时间效应。该工程运用了桩端后压浆技术,为研究压浆前后桩的承载性能的变化,试验采用了自平衡方法,在桩身设置了双荷载箱,并分别在压浆前后进行了试验。该桩的上段桩不受桩端后压浆的影响,对比该桩的上段桩在不同时间的试验结果,其极限承载力和刚度随时间增长,证实了湿作业成孔的钻孔灌注桩存在时间效应。湿作业成孔钻孔灌注桩的时间效应的机理复杂,分析表明,其受桩周应力场变化、桩周土体性质、泥皮变化和桩底沉渣性质等多种因素的影响。
出处 《Transactions of Nanjing University of Aeronautics and Astronautics》 EI 2008年第4期311-317,共7页 南京航空航天大学学报(英文版)
关键词 bearing capacity drilling pile time effect self-balanced 承载力 钻孔灌注桩 时间效应 自平衡
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  • 1翟晋.自平衡测桩法的应用研究[M].东南大学,2000..
  • 2Bruce D A. Enhancing the performance of large diameter piles by grouting[J]. Grouting Engineering, 1986,19(4):9-15.
  • 3Krubasik K. Ma βnahmen zun Tragkrfterhohung an Groβbohrpfalen Baumashine[J]. Bautechnik,1985,7(8):12-16.
  • 4Bustamante M, Gouvenot D. Grouting: a method improving the bearing capacity of deep foundation[A]. The 8th European Conference on Soil Mechanics and Foundation Engineering [C]. 1983.131-134.
  • 5Osterberg Jori. New device for load testing driven piles and drilled shaft separates friction and end bearing[J]. Piling and Deep Foundations. 1989,1: 421-427.
  • 6Osterberg J O, Hayes J A. The osterberg load cell as a research tool[A]. The XVth International Conference on Soil Mechanics and Geotechnical Engineering[C]. Istanbul, 2001.977-979
  • 7俞调梅.上海地区的基础工程[M]同济大学出版社,1991.
  • 8刘金砺.桩基础设计与计算[M]中国建筑工业出版社,1990.
  • 9[美]波勒斯(Bowles,J·E·) 著,唐念慈.基础工程分析与设计[M]中国建筑工业出版社,1987.
  • 10楼晓明,戴仁厚,张一鸣.孔壁形状对钻孔灌注桩承载特性的影响[J].工程勘察,1998,26(2):6-9. 被引量:29

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  • 1顾松年,徐斌,荣见华,姜节胜.结构动力学设计优化方法的新进展[J].机械强度,2005,27(2):156-162. 被引量:45
  • 2章向明,王安稳,姚国文,梅炎祥.复合材料偏心加筋壳特性分析[J].海军工程大学学报,2005,17(3):19-21. 被引量:3
  • 3任茶仙,张铎.复合材料层合结构铺层顺序优化设计的免疫遗传算法[J].强度与环境,2007,34(2):44-50. 被引量:12
  • 4高月华.基于Kriging代理模型的优化设计方法及其在注塑成型中的应用[D].大连:大连理工大学,2008:16,19-22.
  • 5NISHIHARA S. Analysis of ultimate strength of stiffened rectangular plate(4th report)-On the ulti- mate bending moment of ship hull girder [J]. J. Soc. Naval Arch. of Japan, 1983,154:367-375 (in Japanese).
  • 6PAIK P K, MANSOUR A E. A simple formulation for predicting the ultimate strength of ships [J].J- Marine Science and Technology, 1995,1 (1) : 52-62.
  • 7KUTT L M, PIASZCZYK C M, CHEN Y K. E- valuation of longitudinal ultimate strength of va- rious ship hull configurations [J]. SNAME Trans. , 1985,93:33-55.
  • 8RAIN J J. Design Equations and Criteria of Ortho- tropic Composite Pannels [ R]. West Bethesda, 2004.
  • 9S-ndergaard M B, Pedersen C B W. Applied topologyoptimization of vibro-acoustic hearing instrumentmodels[J]. Journal of Sound and Vibration, 2014, 333:683-692.
  • 10Shu Lei, Wang Michael Yu, Fang Zongde, et al. Level setbased structural topology optimization for minimizingfrequency response[J]. Journal of Sound and Vibration,2011, 330: 5820-5834.

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