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考虑滑床不同地基系数的抗滑桩受力特征研究
引用本文:詹红志,王亮清,王昌硕,张楠. 考虑滑床不同地基系数的抗滑桩受力特征研究[J]. 岩土力学, 2014, 35(Z2): 250-256
作者姓名:詹红志  王亮清  王昌硕  张楠
作者单位:中国地质大学(武汉)工程学院,武汉 430074
基金项目:国家重点基础研究发展计划(973)项目(No. 2011CB710604);国家自然科学基金(No. 41372310);中央高校基本科研业务费专项资金(No. CUG090104)。
摘    要:基于目前在抗滑桩理论研究方面多将滑床层状地层等效成均质体,在多层地基横向受荷桩挠曲微分方程的基础上,推导出考虑滑床不同地基系数的弹性抗滑桩嵌固段变位、内力和应力计算的公式。用Matlab软件编写了抗滑桩变位、内力和应力计算与图形处理程序,有效提高了抗滑桩变位、内力和应力分析效率和计算精度。工程实例表明,考虑滑床不同地基系数计算方法对比等效法,滑面处位移、滑面处转角、剪力最大值、弯矩最大值分别增大25.76%、18.04%、14.90%和4.16%,而滑动面处桩侧应力较等效法减小44.91%。该研究成果对滑坡为不同岩性的岩体进行抗滑桩设计具有指导意义。

关 键 词:抗滑桩  Matlab软件  地基系数  层状地层  受力特征  
收稿时间:2013-10-19

Study of mechanical characters of anti-sliding piles considering different foundation coefficients of sliding bed
ZHAN Hong-zhi,WANG Liang-qing,WANG Chang-shuo,ZHANG Nan. Study of mechanical characters of anti-sliding piles considering different foundation coefficients of sliding bed[J]. Rock and Soil Mechanics, 2014, 35(Z2): 250-256
Authors:ZHAN Hong-zhi  WANG Liang-qing  WANG Chang-shuo  ZHANG Nan
Affiliation:Faculty of Engineering, China University of Geosciences, Wuhan 430074, China
Abstract:Laminar formation of sliding bed is usually regarded as equivalent with homogenate in current study of anti-sliding piles. However, this equivalent will definitely lead to some errors compared with real condition. Here, based on the deflection differential equation of the laterally loaded piles, the formulas of the displacement, internal forces and the stress of the elastic anti-sliding piles is deduced considering the different foundation coefficient of sliding bed. Meanwhile, the calculation and graphic processing programs of the internal forces and stress of the elastic anti-slide piles are written in Matlab software. This software devotes much in increasing the efficiency and the accuracy of the calculation. Comparisons were made with the method of equal effects to show that the displacement of sliding surface, the corner of sliding surface, the maximum values of the shear strength and the bending moment increases 25.76%, 18.04%, 15.6% and 4.39%, respectively, and the lateral stress of sliding surface decreases 44.91%. The study plays an important role in guiding different lithological rock masses of landslide for anti-sliding piles design.
Keywords:anti-sliding pile  Matlab software  foundation coefficient  laminar formation  mechanical characters
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