文章摘要
李远征, 魏玉峰, 雷 壮, 何 亮.基于离散元法研究颗粒球度对粗粒土抗剪强度的影响Journal of Water Resources and Water Engineering[J].,2019,30(4):225-232
基于离散元法研究颗粒球度对粗粒土抗剪强度的影响
Research on the influence of particle sphericity on shear strength of coarse grained soil based on discrete element
  
DOI:10.11705/j.issn.1672-643X.2019.04.35
中文关键词: 粗粒土  颗粒形状  球度  直剪试验  离散元  抗剪强度
英文关键词: coarse grained soil  particle shape  sphericity  direct shear test  discrete element  shear strength
基金项目:国家重点研发计划项目(2017YFC1501000); 四川省教育厅科研计划重点项目(18ZA0045)
Author NameAffiliation
LI Yuanzheng, WEI Yufeng, LEI Zhuang, HE Liang (成都理工大学 地质灾害防治与地质环境保护国家重点实验室 四川 成都 610059) 
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中文摘要:
      粗粒土颗粒形状是决定其宏观力学性质的主要影响因素之一。为探究粗粒土颗粒形状对其抗剪强度特性的影响规律,以不同颗粒形状的3种粗颗粒土为研究对象,利用离散元数值分析手段,以球度指标为量化参数,研究了颗粒形状对粗粒土直剪试验过程中应力、位移变化及宏观抗剪强度的影响,并分析了抗剪强度参数的变化规律。同时通过室内直剪试验双向验证所揭示规律的可靠性。研究结果表明:法向荷载相同时,随着球度的减小剪应力越过峰值应力后的应变软化现象越明显,同时其峰值应力、位移及残余强度均逐渐增加;球度相同时,随着法向荷载的增大其峰值应力、位移和残余强度均呈规律性递增。黏聚力和内摩擦角随着球度的减小而增加,球形颗粒的黏聚力明显小于其它两种球度的颗粒。
英文摘要:
      The particle shape of coarse soil is one of the main influencing factors to determine its macroscopic mechanical properties. To explore the laws of coarse grained soil particle shape on the shear strength characteristics influence, three kinds of coarse granular soils with different particle shape were taken as the research object, the discrete element numerical analysis method was used, with sphericity index for quantitative parameters, we studied the particle shape of coarse grained soil direct shear test stress and displacement in the process of change and the influence of the macro shear strength, and the change rule of shear strength parameters. In addition, the reliability of the revealed law was verified by the laboratory direct shear test. The results showed that with the same normal load, the strain softening phenomenon became more obvious after the shear stress crosses the peak stress with the decrease of sphericity, and the peak stress, displacement and residual strength all increased gradually. With the same sphericity, the peak stress, displacement and residual strength increased regularly with the increase of normal load. The cohesive force and the angle of internal friction increased with the decrease of sphericity. The cohesive force of spherical particle was obviously smaller than that of the other two kinds.
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