• 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
申志福, 沈光明, 王志华, 高洪梅. 基于精细化数值模拟的EPS轻质土宏细观变形机理研究[J]. 岩土工程学报, 2023, 45(5): 931-939. DOI: 10.11779/CJGE20220136
引用本文: 申志福, 沈光明, 王志华, 高洪梅. 基于精细化数值模拟的EPS轻质土宏细观变形机理研究[J]. 岩土工程学报, 2023, 45(5): 931-939. DOI: 10.11779/CJGE20220136
SHEN Zhifu, SHEN Guangming, WANG Zhihua, GAO Hongmei. Macro- and meso-scopic deformation mechanisms of EPS-mixed soils based on refined numerical simulation[J]. Chinese Journal of Geotechnical Engineering, 2023, 45(5): 931-939. DOI: 10.11779/CJGE20220136
Citation: SHEN Zhifu, SHEN Guangming, WANG Zhihua, GAO Hongmei. Macro- and meso-scopic deformation mechanisms of EPS-mixed soils based on refined numerical simulation[J]. Chinese Journal of Geotechnical Engineering, 2023, 45(5): 931-939. DOI: 10.11779/CJGE20220136

基于精细化数值模拟的EPS轻质土宏细观变形机理研究

Macro- and meso-scopic deformation mechanisms of EPS-mixed soils based on refined numerical simulation

  • 摘要: EPS轻质土是双固相组分(水泥土与EPS颗粒)、具有特殊细观结构的混合土。当前对其宏观力学特性研究较多,而对细观力学响应规律研究甚少。为此,分别在Mohr-Coulomb模型和Drucker-Prager模型框架内,基于水泥土和EPS材料试验结果规律总结,发展了二者的简单实用本构模型;基于水泥土和EPS材料界面剪切试验,总结了界面剪切硬化/软化规律;对EPS轻质土三轴剪切试验进行精细化数值模拟,再现了EPS轻质土宏观应力-应变响应规律和试样变形模式。基于精细化模拟分析发现,EPS轻质土的整体剪切、局部鼓胀、整体均匀3种宏观变形模式是细观力学响应的结果,EPS颗粒与水泥土两种材料力学特性的差异引起试样内部应力、应变的非均匀分布,EPS颗粒的非均匀排列强化应力、应变非均匀分布程度,两种因素共同决定试样宏观变形的非均匀性。

     

    Abstract: The EPS-mixed soils are composed of two solid phases (cemented soils and EPS beads) with the unique mesoscopic structure. The macroscopic behaviour of the EPS-mixed soils has been widely investigated so far, but the focus has seldom been put on the mesoscopic behaviour. In this study, following the frameworks of Mohr-Coulomb model and Drucker-Prager model respectively, the constitutive descriptions of the cemented soils and the EPS materials are developed based on their mechanical test results. Besides, the strain hardening/softening laws of the cemented soil-EPS material interface are summarized based on the interface shear tests. The refined numerical simulations of triaxial shear tests on the EPS-mixed soils are carried out, with which the macroscopic stress-strain behavior and deformation modes of the EPS-mixed soil specimens are replicated. The refined numerical simulations reveal that the three types of deformation modes of the specimens (shear banding, local lateral expansion, overall uniform deformation) can be attributed to the non-uniform mesoscopic mechanical responses. The distinct mechanical behavior of the cemented soils and the EPS materials is the origin of non-uniform stress and strain distributions, and such non-uniformity is enhanced by the non-uniform spatial distribution of the EPS beads. The two factors collaboratively determine the non-uniformity of the macroscopic deformation observed for the EPS-mixed soil specimen.

     

/

返回文章
返回