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崔强, 杨文智. 复杂荷载工况下输电线路挖孔桩承载性能现场试验研究[J]. 岩土工程学报, 2022, 44(S1): 219-225. DOI: 10.11779/CJGE2022S1039
引用本文: 崔强, 杨文智. 复杂荷载工况下输电线路挖孔桩承载性能现场试验研究[J]. 岩土工程学报, 2022, 44(S1): 219-225. DOI: 10.11779/CJGE2022S1039
CUI Qiang, YANG Wen-zhi. Field tests on bearing capacity of digging-hole pile for transmission lines under complex loads[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(S1): 219-225. DOI: 10.11779/CJGE2022S1039
Citation: CUI Qiang, YANG Wen-zhi. Field tests on bearing capacity of digging-hole pile for transmission lines under complex loads[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(S1): 219-225. DOI: 10.11779/CJGE2022S1039

复杂荷载工况下输电线路挖孔桩承载性能现场试验研究

Field tests on bearing capacity of digging-hole pile for transmission lines under complex loads

  • 摘要: 为了研究输电线路基础在复杂受力条件下的承载性能的差异,以输电线路工程中常用的人工挖孔桩为对象,选取典型输电线路工程的黄土地基为试验场地,开展了四种荷载工况下输电线路挖孔桩承载性能的现场试验。通过测试桩顶位移、桩端土体压力,分析了不同荷载工况下人工挖孔桩的荷载位移曲线、极限承载力以及桩端土压力。结果表明:由于承载机理及破坏模式的差异,不同性质竖向荷载作用下的挖孔桩,其荷载–竖向位移曲线形态特征呈现明显差异,具体表现为上拔荷载工况时呈“陡降型”,下压荷载工况时呈“缓变型”;对于组合荷载工况下的挖孔桩,下压力提高了其抗水平承载能力,反之,上拔力削弱了其抗水平承载能力;桩端土压力与下压荷载之间关系可回归为二次函数,由于不同类别桩基在水平荷载作用下变形特性的差异,刚性桩桩端土压力偏心作用明显,弹性桩偏心作用不明显。

     

    Abstract: In order to study the bearing performance and difference of the foundation for transmission lines under complex load-bearing situations, by taking the digging-hole piles commonly used in transmission-line projects as the object and selecting the typical loess area as the test site, the field tests on the bearing performance of digging-hole piles for transmission lines under four loading cases are carried out. By testing the displacements of pile top and the soil pressures at pile end, the load-displacement curves, the ultimate bearing capacities and the soil pressures at pile end of digging-hole piles under different loading conditions are analyzed. The results show that due to the differences of bearing mechanism and failure mode, the morphological characteristics of load-vertical displacement curve of digging-hole piles under different vertical loads are obviously different, which is shown as "steep drop" under uplift loads and "slow change" under compression loads. For the digging-hole piles under combined loads, the compression force improves the horizontal bearing capacity, on the contrary, the uplift force weakens the horizontal bearing capacity. The relationship between the soil pressure at pile end and the compression load can be expressed by the quadratic function. Due to the different deformation characteristics of different types of piles under horizontal loads, the eccentric effects of the soil pressure at the end of the rigid piles are obvious, and those of the elastic piles are not obvious.

     

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