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祝恩阳, 李晓强, 朱建明. 三维胶结结构性土UH模型[J]. 岩土工程学报, 2018, 40(12): 2200-2207. DOI: 10.11779/CJGE201812006
引用本文: 祝恩阳, 李晓强, 朱建明. 三维胶结结构性土UH模型[J]. 岩土工程学报, 2018, 40(12): 2200-2207. DOI: 10.11779/CJGE201812006
ZHU En-yang, LI Xiao-qiang, ZHU Jian-ming. Three-dimensional UH model for structured soils considering bonding[J]. Chinese Journal of Geotechnical Engineering, 2018, 40(12): 2200-2207. DOI: 10.11779/CJGE201812006
Citation: ZHU En-yang, LI Xiao-qiang, ZHU Jian-ming. Three-dimensional UH model for structured soils considering bonding[J]. Chinese Journal of Geotechnical Engineering, 2018, 40(12): 2200-2207. DOI: 10.11779/CJGE201812006

三维胶结结构性土UH模型

Three-dimensional UH model for structured soils considering bonding

  • 摘要: 为反映胶结对结构性土剪切最终应力比以及剪胀规律的影响,将p-q坐标中静态的临界状态线(CSL)扩展为与CSL平行并随结构性衰减而从左侧移向CSL的动态临界状态线(MCSL),构造与MCSL匹配的屈服面和剪胀方程,从而将以考虑加载体积垮塌为主的结构性土统一硬化(UH)模型扩展为能考虑胶结影响的胶结结构性土UH模型。在此基础上,应用变换应力三维化方法,将所提模型应用到三维应力空间。相对于结构性土UH模型,三维胶结结构性土UH模型增加了1个模型参数描述初始胶结程度。该参数可由无侧限压缩试验近似确定。通过4种结构性土的试验结果与模型预测对照表明,三维胶结结构性土UH模型能够较合理地反映受胶结影响的结构性土等向压缩、常规三轴剪切与真三轴剪切等特性。

     

    Abstract: In order to reflect the influences of bonding in structured soils on the ultimate shear stress ratio and dilatancy law, a dynamic moving critical state line (MCSL), which parallels to the traditional static critical state line (CSL) and moves to the CSL as bonding structure decays, is introduced in p-q stress space. Correspondingly, the yielding surfaces and the dilatancy equation are both modified to match the MCSL. After that, a UH model for structured soils considering bonding is developed from the structured UH model mainly considering soil structure collapse. Adopting the transformed stress method, the proposed model is developed to be applied in three-dimensional stress space. Compared to the structured UH model, the proposed new model adds only 1 model parameter expressing the initial bonding level, which can be estimated by unconfined compression tests. Comparisons between test data and model predictions of 4 structured soils indicate that the proposed model is qualified in reasonably describing the behaviors of the bonding structured soils in isotropic compression, drained/undrained triaxial compression and true triaxial shear.

     

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