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张熙胤, 王万平, 于生生, 管嘉达, 秦训才. 多年冻土区桥梁桩基础抗震性能及影响因素分析[J]. 岩土工程学报, 2022, 44(9): 1635-1643. DOI: 10.11779/CJGE202209008
引用本文: 张熙胤, 王万平, 于生生, 管嘉达, 秦训才. 多年冻土区桥梁桩基础抗震性能及影响因素分析[J]. 岩土工程学报, 2022, 44(9): 1635-1643. DOI: 10.11779/CJGE202209008
ZHANG Xi-yin, WANG Wan-ping, YU Sheng-sheng, GUAN Jia-da, QIN Xun-cai. Seismic performance and influencing factors of pile foundation of bridges in permafrost regions[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(9): 1635-1643. DOI: 10.11779/CJGE202209008
Citation: ZHANG Xi-yin, WANG Wan-ping, YU Sheng-sheng, GUAN Jia-da, QIN Xun-cai. Seismic performance and influencing factors of pile foundation of bridges in permafrost regions[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(9): 1635-1643. DOI: 10.11779/CJGE202209008

多年冻土区桥梁桩基础抗震性能及影响因素分析

Seismic performance and influencing factors of pile foundation of bridges in permafrost regions

  • 摘要: 为研究多年冻土区桥梁桩基础抗震性能及影响因素,以中国多年冻土区广泛存在的高承台桩基础为研究对象,通过拟静力试验结合有限元方法探讨了多年冻土区桥梁桩基础地震破坏特征及冻土层物理力学特性变化对其抗震性能的影响规律。结果表明,随着土体温度的降低,桩–冻土体系的水平承载力、初始刚度均呈增大趋势,桩身位移在土体冻结前后变化显著。土体初始含水率的改变对桩–冻土体系的水平承载力及桩身位移的影响较小,但以土体最优含水率为界限,界限含水率两侧桩–冻土体系的刚度变化存在较大差异。土体压实度的改变对桩–冻土体系的水平承载力及桩身位移的改变影响较小,桩–冻土体系的初始刚度随着压实度的增大而增大。因此,在冻土区桩基础桥梁抗震设防中应当充分考虑桩周冻土物理力学特性变化对其抗震性能的影响。

     

    Abstract: In order to study the seismic performance and influencing factors of the pile foundation of bridges in permafrost regions, the pile foundation of bridges with elevated caps widely used in the permafrost regions of China is taken as the research object. The seismic failure characteristics of the pile foundation of bridges in the permafrost regions, and the influences of the physical and mechanical properties of frozen soil on its seismic performance are discussed by using the quasi-static tests and combining with the finite element method. It is found that the lateral bearing capacity and the initial stiffness of the pile-frozen soil system increase with the decreasing temperature of the frozen soil. The displacement of piles changes significantly before and after soil freezing. The change of the initial moisture content of soil has small influences on the lateral bearing capacity of the pile–frozen soil system and the displacement of piles. Take the optimal moisture content of soil as a boundary, the stiffness changes of the pile-frozen soil system are quite different under both sides of the boundary moisture content. The change of soil compaction degree has small influences on the change of the lateral bearing capacity of the pile–frozen system and the displacement of piles. The initial stiffness of the pile-frozen soil system increases with the increase of compaction degree of soil. Therefore, the physical and mechanical properties of the surrounding frozen soil of piles should be fully considered in the seismic performance evaluation of bridges with pile foundation in frozen soil regions.

     

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