岩土力学 ›› 2024, Vol. 45 ›› Issue (4): 1112-1120.doi: 10.16285/j.rsm.2023.0510

• 基础理论与实验研究 • 上一篇    下一篇

温度效应影响下的海相软土静力学特性试验

芮瑞1, 2,田子衿1, 2,杨海青3,黄腾3,蒙庆辉3,王金元1, 2   

  1. 1. 武汉理工大学 土木工程与建筑学院,湖北 武汉 430070;2. 武汉理工大学 三亚科教创新园,海南 三亚 572025; 3. 中国铁建港航局集团有限公司,广东 珠海519070
  • 收稿日期:2023-04-24 接受日期:2023-08-01 出版日期:2024-04-17 发布日期:2024-04-17
  • 通讯作者: 王金元,男,1989年生,博士,副教授,主要从事土的力学行为表征和本构关系的研究与教学工作。E-mail: jinyuan.wang521@whut.edu.cn
  • 作者简介:芮瑞,男,1981年生,博士,教授,主要从事岩土工程加固与地基处理技术方面的研究与教学工作。E-mail: r.rui@whut.edu.cn
  • 基金资助:
    国家自然科学基金(No. 42272315);中国铁建港航局集团有限公司科研课题。

Static characteristics test of marine soft soil under the influence of temperature effect

RUI Rui1, 2, TIAN Zi-jin1, 2, YANG Hai-qing3, HUANG Teng3, MENG Qing-hui3, WANG Jin-yuan1, 2   

  1. 1. School of Civil Engineering and Architecture, Wuhan University of Technology, Wuhan, Hubei 430070, China; 2. Sanya Science and Education Innovation Park, Wuhan University of Technology, Sanya, Hainan 572025, China; 3. China Railway Construction Corporation Harbour & Channel Engineering Bureau Group Co., Ltd., Zhuhai, Guangdong 519070, China
  • Received:2023-04-24 Accepted:2023-08-01 Online:2024-04-17 Published:2024-04-17
  • Supported by:
    This work was supported by the National Natural Science Foundation of China (42272315) and the Scientific Research Project of CRCC Harbour & Channel Engineering Bureau Group Co., Ltd.

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摘要: 弄清温度作用下海相软土的力学变化对海底管道的建设与长期运行有着重要作用。针对广东汕尾海相软土,进行了一系列的基本物理力学性质试验,并通过X射线衍射仪、X射线荧光光谱仪和扫描电镜仪对其矿物成分、元素组成和微观结构进行了分析。通过温控三轴仪对其开展了等向固结与偏压固结条件下的固结不排水室内试验,试验结果表明:当轴向应变较小时,环境温度和固结应力比Kc对饱和广东软土的不排水剪切特性影响表现为环境温度越高或固结应力比越小,其割线模量越大,且其割线模量与固结应力比呈反比,与环境温度呈幂函数关系。轴向应变增大时,其峰值强度受环境温度和固结应力比共同影响,而其峰值孔压受环境温度影响较小。试样初始干密度会对等向固结土(Kc=1.00)的不排水剪切特征产生影响:试样初始干密度越大,峰值孔压越小,峰值强度越大,且温度升高时其峰值强度的下降幅度越大。固结应力比会影响不同环境温度下饱和广东软土的峰值强度与有效应力路径:当Kc =1.00、0.67时,环境温度上升对饱和广东软土起软化作用;当Kc =0.50、0.40时,环境温度上升则对其起硬化作用。

关键词: 海相软土, 物理力学参数, 微观结构, 三轴试验, 温度效应

Abstract: Understanding the mechanical changes of marine soft soil under temperature is crucial for the construction and long-term operation of submarine pipelines. A series of basic physical and mechanical properties tests was carried out on the marine soft soil in Shanwei, Guangdong province. X-ray diffraction, X-ray fluorescence spectrometry, and scanning electron microscopy were employed to achieve the marine soft soil’s mineral composition, element composition and microstructure. The consolidated undrained laboratory tests under isotropic consolidation and biaxial consolidation conditions were carried out using a temperature-controlled triaxial apparatus. The test results revealed significant findings. Firstly, when the axial strain is small, the undrained shear characteristics of saturated marine soft soil are influenced by the ambient temperature and the consolidation stress ratio. Specifically, a higher ambient temperature or a smaller consolidation stress ratio results in a greater secant modulus. The secant modulus exhibits an inverse relationship with the consolidation stress ratio and demonstrates a power function relationship with the ambient temperature. As the axial strain increases, the peak strength of the soil is affected by both ambient temperature and consolidation stress ratio, while the peak pore pressure is less affected by ambient temperature. Furthermore, the initial dry density of the sample was found to impact the undrained shear characteristics of the isotropic consolidated soil (Kc=1.00). A greater initial dry density resulted in a smaller peak pore pressure, a greater peak strength, and a more significant decrease in peak strength with rising temperature. Additionally, the consolidation stress ratio was observed to affect the peak strength and effective stress path of saturated marine soft soil under different ambient temperatures. Specifically, when Kc=1.00 or 0.67, an increase in the ambient temperature softened the saturated marine soft soil; whereas when Kc=0.50 or 0.40, the rise in ambient temperature hardened the soil.

Key words: marine soft soil, physical and mechanical parameters, microstructure, triaxial test, temperature effect

中图分类号: TU 411.3
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