高速公路拓宽工程沉降控制复合地基优化设计

›› 2008, Vol. 29 ›› Issue (2): 535-540.

高速公路拓宽工程沉降控制复合地基优化设计

李茂英¹，曾庆军^1,2，莫海鸿²，廖建春³

1．广东交通职业技术学院，广州 510650；2．华南理工大学，广州 510640； 3．广东省公路勘察规划设计院，广州 510507

收稿日期:2006-06-01 出版日期:2008-02-11 发布日期:2013-07-10
作者简介:李茂英，女，1972年生，副教授，主要从事工程地质和地基处理研究工作。
基金资助:
广东省公路勘察规划设计院资助项目（No. KJXM-015）

Optimum design of composite foundation according to settlement control for extension project of expressway

LI Mao-ying¹, ZENG Qing-jun^1,2, Mo Hai-hong², LIAO Jian-chun³

1. Guangdong Communications Polytechnic College, Guangzhou, 510650, China; 2. Department. of Civil Engineering, South China University. of Technology, Guangzhou 510640, China; 3. Guangdong Provincial Highway Design Institute, Guangzhou 510507,China

Received:2006-06-01 Online:2008-02-11 Published:2013-07-10

摘要/Abstract

摘要： 按沉降控制设计理论，结合有关公路设计规范、路面功能性和结构性的要求以及有限元法分析路基差异沉降引起路面附加应力的计算结果，提出了采用工后路基路拱横坡度变化小于等于0.45 %作为软土地基上高速公路拓宽工程的容许新老路基差异沉降控制标准。采用有限元法对佛山—开平高速公路拓宽工程标准断面进行分析，采用不同参数计算出水泥土搅拌桩复合地基的新老路基差异沉降。根据沉降控制标准，优化出既满足新老路基差异沉降控制要求，又效益最优的高速公路拓宽工程软土路基水泥土搅拌桩处理的设计参数，即工程水泥土搅拌桩采用面积置换率为8.9 %(对应桩间距1.6 m)，桩长8 m，桩径为0.5 m，水泥掺入比为15 %；实际使用时，考虑桩土存在一定的不协调，可适当提高桩体面积置换率达10.1 %（对应桩间距1.5 m）。

关键词: 高速公路拓宽, 水泥土搅拌桩, 沉降控制, 优化设计

Abstract: Finite element method was used to calculate the additional tensile stress of different layers of the pavement and of steady broken stone-cement layer, which are both caused by the differential settlement between new embankment and old embankment for expressway’s extension project. Based on the results obtained by finite element method, and the requirement of differential settlement of subgrade in code and that of the function and structure of pavement, this paper put forward a control standard of variation range of cross-slope gradient of road bed’s crown after completion, less than or equal to 0.45 %, as the allowable differential settlement for expressway’s extension project on soft soil foundation according to design theory of control settlement. Finite element method was also used to analyze some cross-sections of Foshan-kaiping expressway extension project in China. The extension part of subgrade in this project would be treated by composite foundation of deep mixing pile. Through analyzing composite foundation of deep mixing pile with different construction parameters by FEM, the differential settlement of subgrade were respectively obtained. Combining with the control standard of differential settlement drawn in this paper and the design theory on control settlement, the optimum design parameters of deep mixing piles were obtained, i.e. pile spacing equal to 1.6m, length of pile equal to 8m, diameter of pile equal to 0.5 m. In practice, pile spacing would be 1.5 m, 0.1 m less than the calculation’s result because certain non-concordance happens between piles and soil when bearing load.

Key words: expressway extension project, cement-soil mixing pile, settlement control, optimum design

中图分类号:

TU 433

李茂英，曾庆军，莫海鸿，廖建春 . 高速公路拓宽工程沉降控制复合地基优化设计[J]. , 2008, 29(2): 535-540.

LI Mao-ying , ZENG Qing-jun , Mo Hai-hong , LIAO Jian-chun . Optimum design of composite foundation according to settlement control for extension project of expressway[J]. , 2008, 29(2): 535-540.

参考文献

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