双向动载作用下压实黄土动模量试验研究

Liguo Yang , Shengjun Shao , Qilong Sun , Ping Wang
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引用次数: 1

摘要

压实黄土的动力特性对地震多发的西北黄土高原地区的地震建设具有重要意义。为研究竖向地震和水平地震共同作用下地基土动力模量的变化,采用可4个方向振动的空心圆柱形扭剪仪对西安压实黄土在不同干密度和偏应力比下进行压扭双向耦合。结果表明:增大干密度可以提高黄土的初始动压模量和初始动剪模量;随着偏应力比的增大,初始动压缩模量在一定程度上增大,而初始动剪切模量略有减小。动模量随着动应变的发展逐渐减小并趋于稳定,达到相同应变的动模量随着干密度的增大而增大。动加载初期,动剪切模量随应变发展的衰减速度快于动压缩模量的衰减速度。与以往的研究结果相比,确定双向动加载下的黄土动模量比单向动加载下的黄土动模量更低,衰减速率更快。偏应力比对动压缩模量的影响更为明显。偏应力比的增大可以在一定程度上提高动压缩模量。而偏应力比对动剪切模量几乎没有影响,可以忽略。
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Experimental study on the dynamic modulus of compacted loess under bidirectional dynamic load

The dynamic characteristics of compacted loess are of great significance to the seismic construction of the Loess Plateau area in Northwest China, where earthquakes frequently occur. To study the change in the dynamic modulus of the foundation soil under the combined action of vertical and horizontal earthquakes, a hollow cylindrical torsion shear instrument capable of vibrating in four directions was used to perform two-way coupling of compression and torsion of Xi'an compacted loess under different dry density and deviator stress ratios. The results show that increasing the dry density can improve the initial dynamic compression modulus and initial dynamic shear modulus of compacted loess. With an increase in the deviator stress ratio, the initial dynamic compression modulus increases, to a certain extent, but the initial dynamic shear modulus decreases slightly. The dynamic modulus gradually decreases with the development of dynamic strain and tends to be stable, and the dynamic modulus that reaches the same strain increases with an increasing dry density. At the initial stage of dynamic loading, the attenuation of the dynamic shear modulus with the strain development is faster than that of the dynamic compression modulus. Compared with previous research results, it is determined that the dynamic modulus of loess under bidirectional dynamic loading is lower and the attenuation rate is faster than that under single-direction dynamic loading. The deviator stress ratio has a more obvious effect on the dynamic compression modulus. The increase in the deviator stress ratio can increase the dynamic compression modulus, to a certain extent. However, the deviator stress ratio has almost no effect on the dynamic shear modulus, and can therefore be ignored.

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