牛成成, 侯绪田, 李阳. 漠河冻土模拟岩样三轴力学试验及强度多元回归分析[J]. 石油钻探技术, 2021, 49(3): 27-34. DOI: 10.11911/syztjs.2021049
引用本文: 牛成成, 侯绪田, 李阳. 漠河冻土模拟岩样三轴力学试验及强度多元回归分析[J]. 石油钻探技术, 2021, 49(3): 27-34. DOI: 10.11911/syztjs.2021049
NIU Chengcheng, HOU Xutian, LI Yang. Triaxial Mechanical Tests and Multiple Regression Strength Analysis of Simalted Frozen Soil Sample from Mohe[J]. Petroleum Drilling Techniques, 2021, 49(3): 27-34. DOI: 10.11911/syztjs.2021049
Citation: NIU Chengcheng, HOU Xutian, LI Yang. Triaxial Mechanical Tests and Multiple Regression Strength Analysis of Simalted Frozen Soil Sample from Mohe[J]. Petroleum Drilling Techniques, 2021, 49(3): 27-34. DOI: 10.11911/syztjs.2021049

漠河冻土模拟岩样三轴力学试验及强度多元回归分析

Triaxial Mechanical Tests and Multiple Regression Strength Analysis of Simalted Frozen Soil Sample from Mohe

  • 摘要: 在冻土地层钻探过程中,不合理的作业方案可能引发井壁坍塌、井口沉降等一系列工程问题,而弄清深层冻土力学演化规律是施工设计的基础。为此,用漠河冻土重塑了不同深度冻土的模拟岩样,开展了不同围压、温度条件下的冻土三轴力学试验,分析了不同条件下的冻土应力–应变曲线特征。通过多元回归方法对冻土强度进行了统计分析,进一步构建了冻土强度准则。研究发现:模拟岩样的应力–应变曲线整体呈非线性变形特征,在冻结状态下,温度、围压对土体强度起主要作用;非冻结状态下,其强度由围压和土体深度决定;冻土强度由土体骨架强度和孔隙中冰的胶结强度构成,其骨架强度满足Mohr-Coulomb强度准则,内聚力、内摩擦角随深度增加而增大;孔隙中冰的胶结强度随环境温度降低而增强,随围压增加呈先增强后减弱的趋势。基于此构建了漠河冻土强度准则,验证结果表明,可以较好地表征漠河冻土融化–冻结状态下的强度分布。

     

    Abstract: Improper drilling schemes may cause engineering problems such as wellbore collapse and wellhead subsidence during the drilling of permafrost. The research on mechanical evolution of deep frozen soil paves the way for construction design. In this paper, soil samples at different depths were remolded with the frozen soil from Mohe, and triaxial mechanical tests were carried out under different confining pressures and temperatures to analyze the characteristics of stress–strain curves of frozen soil under different conditions. The strength of frozen soil was statistically studied by multiple regression analysis, and the strength criterion for it was further established. The research results showed that the stress–strain curves of the frozen soil samples presented nonlinear deformation behavior on the whole. In its frozen state, soil strength was controlled mainly by temperature and confining pressure while it was dominated by confining pressure and soil depth in its non-frozen state. In addition, frozen soil strength was composed of the strength of soil skeleton and the cementing strength of ice in pores. The strength of soil skeleton satisfies the Mohr-Coulomb criteria, and the cohesion and internal friction angle increases with soil depth. The cementing strength of ice in pores grows with the decline of ambient temperature, and increases and then decreases as the confining pressure increases. On this basis, the strength criterion for Mohe frozen soil was established, and the verification results proved that it can well characterize the strength distribution of Mohe frozen soil in the melt and frozen state.

     

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