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郭万里, 蔡正银, 朱俊高. 粗粒土三阶状态相关本构模型研究[J]. 岩土工程学报. DOI: 10.11779/CJGE20230372
引用本文: 郭万里, 蔡正银, 朱俊高. 粗粒土三阶状态相关本构模型研究[J]. 岩土工程学报. DOI: 10.11779/CJGE20230372
Study on three state variables-related constitutive model of coarse grained soil[J]. Chinese Journal of Geotechnical Engineering. DOI: 10.11779/CJGE20230372
Citation: Study on three state variables-related constitutive model of coarse grained soil[J]. Chinese Journal of Geotechnical Engineering. DOI: 10.11779/CJGE20230372

粗粒土三阶状态相关本构模型研究

Study on three state variables-related constitutive model of coarse grained soil

  • 摘要: 岩土工程中普遍存在材料空间变异性问题,对粗粒土而言,其空间变异性主要体现在颗粒级配与密度的非均匀分布。然而,经典的状态相关理论只能描述密度与应力水平这两个状态量的影响,建立能综合考虑级配、密度和应力水平的粗粒土三阶状态相关本构模型是精细化模拟的迫切需求。通过引入归一化级配参数来定量表征粗粒土初始级配的变化,在此基础上提出了考虑级配、密度和应力水平影响的等向固结线和临界状态线方程,并结合广义塑性理论,建立了粗粒土三阶状态相关本构模型。验证结果表明,该模型仅采用一套模型参数,就能较好地反映粗粒土在不同级配、不同密度、不同围压条件下的应力应变特性,可应用于粗粒土工程中考虑材料空间变异性的数值分析。

     

    Abstract: Material spatial variability is a common problem in geotechnical engineering, for coarse-grained soil, the essence of its spatial variability is the uneven distribution of particle gradation and density. However, the classical state-related theory can only describe the influence of density and stress level, which are only two state variables. The development of a three state variables-related constitutive model that considers gradation, density, and stress level represents a significant advancement in the field of coarse-grained soil engineering. The introduction of a gradation parameter enables the quantitative characterization of changes in the gradation curve of coarse-grained soil. This has led to the proposal of the critical state equation and isotropic consolidation equation, which consider the effects of gradation, density, and stress level. Furthermore, a three-state variables-related constitutive model of coarse-grained soil has been established based on the principles of generalized plasticity theory. This model employs a single set of model parameters, which are capable of accurately representing the stress-strain characteristics of coarse-grained soils under diverse gradations, densities, and confining pressure conditions. Furthermore, it can be uesd in numerical analyses of coarse-grained soil engineering, taking into account the spatial variability of materials.

     

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