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王刚, 杨俊杰, 王兆南. 钙质砂临界状态随颗粒破碎演化规律分析[J]. 岩土工程学报, 2021, 43(8): 1511-1517. DOI: 10.11779/CJGE202108016
引用本文: 王刚, 杨俊杰, 王兆南. 钙质砂临界状态随颗粒破碎演化规律分析[J]. 岩土工程学报, 2021, 43(8): 1511-1517. DOI: 10.11779/CJGE202108016
WANG Gang, YANG Jun-jie, WANG Zhao-nan. Evolution of critical state of calcareous sand during particle breakage[J]. Chinese Journal of Geotechnical Engineering, 2021, 43(8): 1511-1517. DOI: 10.11779/CJGE202108016
Citation: WANG Gang, YANG Jun-jie, WANG Zhao-nan. Evolution of critical state of calcareous sand during particle breakage[J]. Chinese Journal of Geotechnical Engineering, 2021, 43(8): 1511-1517. DOI: 10.11779/CJGE202108016

钙质砂临界状态随颗粒破碎演化规律分析

Evolution of critical state of calcareous sand during particle breakage

  • 摘要: 根据物理试验揭示的钙质砂颗粒破碎特征和发展规律,建立了可进行钙质砂三轴试验的离散元数值模型。首先通过预压均匀级配的钙质砂破碎生成不同初始级配的试样,进行不破碎三轴剪切过程的数值试验,以确定临界状态与固定级配的对应关系。结果表明,一个固定级配对应一条固定的临界状态线,在压缩平面内各固定级配临界状态线基本平行但是位置随颗粒级配的拓宽(颗粒破碎程度的增大)而逐渐降低。然后,采用相同均匀级配的试样,进行加载过程颗粒可破碎的三轴试验,以揭示实际三轴试验中临界状态线的变化机理。结果表明,在epBr三维空间中,可破碎三轴试验的各临界状态点都落在由固定级配临界状态线所确定的破碎临界状态面上,说明临界状态由最终的颗粒级配决定,而与产生该颗粒级配的过程无关。实际物理试验中,不同围压和应力路径达到临界状态时颗粒破碎程度的不同是导致实测临界状态线出现复杂变化的机理;在三轴压缩剪切情况下,颗粒破碎程度基本随着有效球应力的增大而增大,所以实测的颗粒破碎临界状态线相对于固定级配的临界状态线呈现出旋转的变化。

     

    Abstract: Based on the particle breakage characteristics and development laws of calcareous sand from physical triaxial test results, a discrete element numerical model is established for conducting numerical triaxial tests. First, the specimens with different initial gradings are generated by pre-crushing a uniformly graded calcareous sand under different pressures, and the numerical tests without breakage during the following triaxial shear process are carried out to determine the relationship between the critical state and the fixed grading. The results show that the fixed grading has a fixed critical state line, and the critical state lines of different gradings are basically parallel, but their position decreases gradually with the broader grading (i.e., the increasing breakage) in the e-p compression plane. Afterwards, the numerical tests of crushable particles during loading process are conducted on the specimens with the same uniform grading so as to reveal the evolution mechanism of the critical state during real triaxial tests on crushable soils. The results show that in the three-dimensional e-p-Br space, the points of the critical state from the crushable tests fall on the surface of the breakage critical state determined by the fixed critical state lines from the non-crushable tests, indicating that the critical state depends only on the final grading regardless of the intermediate process to achieve the final grading. In real physical tests, the particle breakage extent of the points at the measured critical state line is different, and thus the critical state line exhibits complicated nonlinear form. Under triaxial compression conditions, the particle breakage increases with the increasing mean effective stress, leading to the rotation of the measured critical state line.

     

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