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张菊连, 梁志荣. 排桩冻结法中冻土壁对排桩作用力的分析[J]. 岩土工程学报, 2012, 34(suppl): 542-547.
引用本文: 张菊连, 梁志荣. 排桩冻结法中冻土壁对排桩作用力的分析[J]. 岩土工程学报, 2012, 34(suppl): 542-547.
ZHANG Ju-lian, LIANG Zhi-rong. Frost heaving force on row piles in freezing method[J]. Chinese Journal of Geotechnical Engineering, 2012, 34(suppl): 542-547.
Citation: ZHANG Ju-lian, LIANG Zhi-rong. Frost heaving force on row piles in freezing method[J]. Chinese Journal of Geotechnical Engineering, 2012, 34(suppl): 542-547.

排桩冻结法中冻土壁对排桩作用力的分析

Frost heaving force on row piles in freezing method

  • 摘要: 通过对润扬长江公路大桥南汊悬索桥南锚碇基础实测桩体和土体测斜资料的分析,认为基坑采用冻结法作止水帷幕后,埋深一定深度以上坑外土体处于压密状态、这一深度以下土体处于松塌状态,提出这一埋深以上土压力应按被动土压力理论进行计算、下段土压力可按主动土压力理论进行计算的设计理念;同时认为作用在排桩上的力与冻结过程中产生的冻胀力、以及冻土壁后侧的土压力大小相等。这一工程中,与采用常规止水桩的排桩支护相比,排桩所受的力为被动状态下的土压力,实测值大于常规按主动土压力计算的37%~184%。上述设计理念和结论可为冻结法基坑围护设计提供一般理论参考。

     

    Abstract: Based on the monitoring data of bored pile and soil slope of south anchor foundation of Runyang Yangtze River Suspension Bridge, the soil above certain depth is in compaction state, and the soil below it is in loose state. Thus it is proposed that the soil pressure on froze wall above this depth is the passive pressure and that below it is the active pressure, and the forces should be calculated by the theories of the passive and active earth pressures, respectively. Meantime, a conclusion is drawn that the force on the pile in row, the frost-heaving force caused by the frozen wall and the soil pressure on the frozen wall are the same in value. Compared with the piles in row with conventional sealing piles, the force on piles is earth pressure in passive state, and it is 37% to 184% greater than the active earth pressure calculated by the conventional theory. The above results provide a theoretical reference for the design of excavations by means of the freezing method.

     

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