岩土力学 ›› 2023, Vol. 44 ›› Issue (10): 2929-2941.doi: 10.16285/j.rsm.2023.0815

• 基础理论与实验研究 • 上一篇    下一篇

不同应力路径下钙质砂的力学及变形特性 试验研究

钟丽1, 2,陈鑫莲1, 2,刘晓璇3,罗明星1, 2,王兴肖4   

  1. 1. 湖北工程学院 土木工程学院,湖北 孝感 432000;2. 湖北工程学院 湖北小城镇发展研究中心,湖北 孝感 432000; 3. 武汉理工大学 土木工程与建筑学院,湖北 武汉 430070;4. 城发环境股份有限公司,河南 郑州 450000
  • 收稿日期:2023-06-17 接受日期:2023-08-04 出版日期:2023-10-13 发布日期:2023-10-16
  • 通讯作者: 罗明星,男,1988年生,博士,讲师,主要从事粒状土的颗粒破碎特性方面的研究工作。E-mail: whanst@hbeu.edu.cn E-mail:zhongl@hbeu.edu.cn
  • 作者简介:钟丽,女,1994年生,学士,助理实验员,主要从事钙质砂的工程性质方面的研究工作。
  • 基金资助:
    湖北省科技厅自然科学基金计划青年项目(No.2023AFB339);湖北省教育厅科学技术研究计划青年人才项目(No.Q20222701);孝感市自然科学基金(No.XGKJ2022010101)

Experimental study on the mechanical and deformation characteristics of calcareous sand under different stress paths

ZHONG Li1, 2, CHEN Xin-lian1, 2, LIU Xiao-xuan3, LUO Ming-xing1, 2, WANG Xing-xiao4   

  1. 1. School of Civil Engineering, Hubei Engineering University, Xiaogan, Hubei 432000, China; 2. Hubei Small Town Development Research Center, Hubei Engineering University, Xiaogan, Hubei 432000, China; 3. School of Civil Engineering and Architecture, Wuhan University of Technology, Wuhan, Hubei 430070, China; 4. CEVIA Environment Co., Zhengzhou, Henan 450000, China
  • Received:2023-06-17 Accepted:2023-08-04 Online:2023-10-13 Published:2023-10-16
  • Supported by:
    This work was supported by the Hubei Provincial Science and Technology Department Natural Science Foundation Youth Project (2023AFB339), the Hubei Provincial Education Department Science and Technology Research Program Young Talent Project (Q20222701) and the Natural Science Foundation of Xiaogan (XGKJ2022010101).

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摘要: 钙质砂是海洋钙质生物死亡后形成的一种具有丰富内部孔隙、低强度、不规则形状和易破碎的岩土材料。通过对钙质砂分别开展的等向压缩、常规三轴压缩、平均主应力为常数的三轴压缩、减压的三轴压缩和等应力比加载5种试验,探讨了不同应力路径下钙质砂的力学及变形特性。试验结果表明应力路径对钙质砂的抗剪强度和变形特征具有重要影响。钙质砂在等向压缩条件下具有明显的各向异性特征;常规三轴压缩试验条件下,密实钙质砂呈现低压剪胀、高压剪缩的变形特征,且峰值强度与初始固结压力之间呈幂函数关系;平均主应力为常数的三轴压缩试验中,增加偏应力会引起试样的体变;与常规三轴压缩试验不同,在减压的三轴压缩试验中,应力−应变关系曲线均表现为应变软化;而等应力比加载试验中,试样基本处于弹性状态下,且轴向应力与轴向应变之间呈幂函数关系。试验结果还发现钙质砂的切线泊松比不仅要考虑钙质砂的变形和应力状态等的影响,还要考虑应力路径的影响。不同应力路径试验条件下峰值应力比大小顺序与最大体变大小顺序不受初始固结压力的影响。钙质砂的峰值内摩擦角均随着初始固结压力的增大而减小,大致与初始固结压力的对数呈线性函数关系。

关键词: 应力路径, 钙质砂, 抗剪强度, 变形, 三轴试验

Abstract: Calcareous sand is a geotechnical material formed after the death of marine calcareous organisms with abundant internal pores, low strength, irregular shape and easy fragility. In this study, the mechanical and deformation characteristics of calcareous sand under different stress paths were investigated through five tests of isotropic compression, conventional triaxial compression, triaxial compression with constant average principal stress, triaxial compression with reduced compression, and constant stress ratio loading on calcareous sand. The results indicated that the stress path notably affected the shear strength and deformation characteristics of calcareous sand. Calcareous sand had obvious anisotropic properties under isotropic compression. In the conventional triaxial compression test, dense calcareous sand presented the deformation characteristics of low-pressure dilatancy and high-pressure contraction, and there existed a power function relationship between the peak strength and the initial consolidation pressure. Increasing deviatoric stress could cause a volumetric strain of the specimen under the triaxial compression condition with constant average principal stress. Unlike the conventional triaxial compression test, the stress-strain relationship curves in the triaxial compression test with reduced compression presented strain softening. In the constant stress ratio loading test, the specimen was basically in the elastic state, and the relationship between the axial stress and the axial strain was a power function. The experimental results also indicated that the tangential Poisson’s ratio of calcareous sand was not only dependent on the deformation and stress state of calcareous sand, but also influenced by the stress path. The order of magnitude in the peak stress ratio and the maximum volumetric strain under different stress path tests were not affected by the initial consolidation pressure. The peak internal friction angle of calcareous sand decreased with the increase of the initial consolidation pressure, roughly as a linear function of the logarithm of the initial consolidation pressure.

Key words: stress path, calcareous sand, shear strength, deformation, triaxial test

中图分类号: TU441
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