玻璃微珠模拟粗粒土的三轴试验

Pub Date : 2022-08-01 DOI:10.1016/j.rcar.2022.10.001
WenDong Xu , XueFeng Li , WenWei Yang , HongJin Jia
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引用次数: 0

摘要

用玻璃微珠等模拟颗粒材料研究粗粒土的力学特性是可行的。本文采用3个 mm直径的玻璃微珠,在不同围压下进行排水和不排水三轴试验,探讨其强度、变形和临界状态特性。具体来说,研究了排水和围压对玻璃微珠粘滑现象的影响。三轴试验结果表明,围压较高时,玻璃微珠的应力-应变关系趋于软化。在不排水条件下,初始模量随围压的增大而增大。排水条件下,围压对其影响不明显。很明显,玻璃微珠在剪切过程中几乎没有收缩,其应力路径近似为一条分段直线。不排水条件下临界状态线斜率大于排水条件下临界状态线斜率,计算出不排水和排水条件下玻璃微珠的摩擦角分别为28.1°和29.5°。在不同的试验条件下,出现了粘滑现象,粘滑幅值随围压的增大而线性增大,特别是在不排水条件下。黏滑现象释放的最大能量随围压的增加呈线性增加。
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Triaxial test on glass beads simulating coarse-grained soil

It is feasible to study the mechanical characteristics of coarse-grained soil by simulated granular materials such as glass beads. In this paper, 3 mm diameter glass beads are used to conduct drained and undrained triaxial tests under different confining pressures to explore their strength, deformation and critical state characteristics. Specifically, the influence of drainage and confining pressure on the stick-slip phenomenon of glass beads is reported. The experimental findings from triaxial tests show that the stress-strain relationship of glass beads softens when the confining pressure is high. Under the undrained condition, the initial modulus increases with the increase in the confining pressure. In contrast, it is not significantly affected by the confining pressure in the drained condition. It is quite evident that the glass beads hardly contract during the shearing process, and their stress path is approximately a segmented straight line. The slope of the critical state line under the undrained condition is greater than that under the drained condition, and the friction angle of the glass beads under the undrained and drained conditions is calculated to be 28.1° and 29.5°, respectively. The phenomenon of stick-slip has been depicted for the different test conditions, and the stick-slip amplitude linearly increases with the confining pressure, especially in the undrained condition. It is also found that the maximum energy released from the phenomenon of stick-slip increases linearly with the confining pressure.

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