• 全国中文核心期刊
  • 中国科技核心期刊
  • 美国工程索引(EI)收录期刊
  • Scopus数据库收录期刊
徐小敏, 凌道盛, 黄博, 陈云敏. 离散元模拟中颗粒材料剪切波速的剪切振动确定方法[J]. 岩土工程学报, 2011, 33(9): 1462-1468.
引用本文: 徐小敏, 凌道盛, 黄博, 陈云敏. 离散元模拟中颗粒材料剪切波速的剪切振动确定方法[J]. 岩土工程学报, 2011, 33(9): 1462-1468.
XU Xiao-min, LING Dao-sheng, HUANG Bo, CHEN Yun-min. Determination of shear wave velocity in granular materials by shear vibration within discrete element simulation[J]. Chinese Journal of Geotechnical Engineering, 2011, 33(9): 1462-1468.
Citation: XU Xiao-min, LING Dao-sheng, HUANG Bo, CHEN Yun-min. Determination of shear wave velocity in granular materials by shear vibration within discrete element simulation[J]. Chinese Journal of Geotechnical Engineering, 2011, 33(9): 1462-1468.

离散元模拟中颗粒材料剪切波速的剪切振动确定方法

Determination of shear wave velocity in granular materials by shear vibration within discrete element simulation

  • 摘要: 砂土等颗粒材料的剪切波速是反映其工程性质的重要参数,离散元模拟中实现剪切波速实时测试对研究砂土材料力学性质变化的细观机理具有重要意义。本文基于软件 PFC3D ,在试样模型中设置激发源和接收源,通过对激发源施加产生剪切振动的速度脉冲、在接收源监测扰动信号,实现了剪切波在颗粒材料中的传播模拟和信号监测,提出了利用激发和接收信号的互相关系数确定剪切波传播时间和评价剪切波传播质量的方法。系统分析了激发频率、激发幅值、激发源和接收源尺寸、阻尼等因素对剪切波速测定的影响,给出了合理的参数取值范围。研究结果得到了均匀颗粒试样理论解的验证。

     

    Abstract: Shear wave velocity is an important parameter to reflect the engineering properties of granular materials like sand. The measurement of shear wave velocity throughout the discrete element simulation is of great significance to understand the microscopic mechanism of variation of the mechanical properties. Numerical simulation of shear wave propagation using DEM is implemented by applying a velocity pulse to the transmitter in a certain direction and monitoring the corresponding average velocity of the receiver. The cross-correlation analysis is adopted due to its superiority of both determining the travel time and identifying similarities between two signals. The shear wave velocity is calculated using the wave travel time and the distance of the travel path, in exactly the same way as in laboratory tests. The influencing factors including excitation frequency, excitation amplitude, size of transmitter and receiver as well as damp are carefully analyzed, and reasonable values of the parameters for shear wave modeling are proposed. It is found that the appropriate excitation amplitude should be chosen on the basis of avoiding the generation of frictional work. It is also indicated that fruitful results will be obtained if both the radius of transmitter and receiver are chosen as one half of that of DEM specimen’s. The research results are verified through the outcomes of even-particle assemblies.

     

/

返回文章
返回