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刘建龙, 滕继东, 张升, 盛岱超. 气态水迁移诱发非饱和粗粒土冻胀的试验研究[J]. 岩土工程学报, 2021, 43(7): 1297-1305. DOI: 10.11779/CJGE202107015
引用本文: 刘建龙, 滕继东, 张升, 盛岱超. 气态水迁移诱发非饱和粗粒土冻胀的试验研究[J]. 岩土工程学报, 2021, 43(7): 1297-1305. DOI: 10.11779/CJGE202107015
LIU Jian-long, TENG Ji-dong, ZHANG Sheng, SHENG Dai-chao. Experimental study on frost heave in unsaturated coarse-grained soil caused by vapour transfer[J]. Chinese Journal of Geotechnical Engineering, 2021, 43(7): 1297-1305. DOI: 10.11779/CJGE202107015
Citation: LIU Jian-long, TENG Ji-dong, ZHANG Sheng, SHENG Dai-chao. Experimental study on frost heave in unsaturated coarse-grained soil caused by vapour transfer[J]. Chinese Journal of Geotechnical Engineering, 2021, 43(7): 1297-1305. DOI: 10.11779/CJGE202107015

气态水迁移诱发非饱和粗粒土冻胀的试验研究

Experimental study on frost heave in unsaturated coarse-grained soil caused by vapour transfer

  • 摘要: 寒区高铁粗粒土路基冻胀机理问题一直困扰科研和工程技术人员,气态水迁移诱发冻胀是目前广被关注的解释之一,但在直接试验证据方面研究较少。为证明气态水迁移可以诱发非饱和粗粒土冻胀,并进一步阐释非饱和粗粒土的冻胀机制,基于新开发的粗粒土冻胀试验仪,开展了系列的室内试验。结果表明,仅有气态水补给条件下,无细粒含量的粗粒土发生了明显冻胀,试验测得6 cm高的土柱336 h的冻胀量可达8.30 mm,672 h的冻胀量达到23.46 mm。基于X-CT扫描试验观察了气态水补给下冻胀粗粒土中冰的分布特征,发现在恒定温度梯度下冻土中无层状分布的冰透镜体,仅存在一条包含分凝冰和饱和孔隙冰的水平冻结带。冻胀试验发现土柱的冻胀量随温度梯度的增大而增大;梯度降温更有利于气态水的迁移补给,并导致更大的冻胀;土柱的初始含水率越高,越不利于气态水在土中的迁移,冻胀量越小。气态水补给诱发冻胀的试验现象,对传统液态水在细颗粒中成冰冻胀的冻土理论形成了较好补充,同时对揭示寒区高速铁路路基的冻胀机制有重要价值。

     

    Abstract: The frost heave caused by vapour transfer has recently attracted much attention, but there is little experimental evidence so far. A series of laboratory experiments are carried out by using the newly developed frost heave apparatus. The results show that considerable frost heave occurs in coarse-grained soil with zero fine content (<0.075 mm) while the specimen is subjected to only vapour supply. The observed frost heave in the 6 cm-high specimen reaches 8.30 mm and 23.46 mm after freezing 336 h and 672 h, respectively. The characteristics of ice lens is observed by the X-TC tests, and the distinct ice lens formation is not observed in the specimen. Under the constant temperature gradient, only one horizontal freezing zone containing segregated ice and saturated pore ice rather than layered ice lens in the frozen soil is observed. The results also show that the frost heave increases with the increasing temperature gradient. Ramped freezing is more conducive to vapour transfer, and leads to greater frost heave than step freezing. A higher initial water content of the soil specimen results in a smaller frost heave in coarse-grained soil. This study has important implications to reveal the mechanism of frost heave in high-speed railways in cold regions.

     

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