基于密度-应力双状态参量的黏土状态硬化模型
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作者:
作者单位:

1.中国民航大学 交通科学与工程学院,天津 300300;2.广东省交通规划设计研究院集团股份 有限公司,广州 510507

作者简介:

李海潮(1991- ),男,博士,主要从事岩土材料的本构关系和大变形破坏数值计算研究,E-mail:haichao821@outlook.com。
LI Haichao (1991- ), PhD, main research interests: mechanical behaviours of geomaterials and numerical simulations in practice involving large deformation, E-mail: haichao821@outlook.com.

通讯作者:

中图分类号:

TU442

基金项目:

天津市教委科研计划(XJ2022009601);天津市教委自然科学计划(2018KJ245)


State hardening model of clay based on density and stress state parameters
Author:
Affiliation:

1.Transportation Science and Engineering College, Civil Aviation University of China, Tianjin 300300, P. R. China;2.Guangdong Communication Planning & Design Institute Group Co., Ltd., Guangzhou 510507, P. R. China

Fund Project:

Tianjin Municipal Education Commission Scientific Research Program (No. XJ2022009601); Tianjin Municipal Education Commission Scientific Research Program (No. 2018KJ245)

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    摘要:

    超固结黏土的强度和变形特性受初始孔隙比、应力路径和前期固结应力等状态因素影响。为了描述超固结黏土的状态相关性,首先定义密度状态参量和应力状态参量,分别表征当前状态点和对偶状态点与临界状态线之间的孔隙比之差,然后推导出新的应力-状态方程,最后采用状态硬化法则描述当前状态点所在下加载面的硬化规律,进而建立适用于超固结黏土的状态硬化模型。将模型计算结果与不同类型黏土在排水和不排水条件下的三轴压缩试验结果进行对比分析发现,该状态硬化模型均取得良好的计算效果。结果表明,应力历史会对黏土的应力-状态方程产生影响,该方程包含的密度状态参量和应力状态参量在土样达到临界状态后均趋近于零,两者可分别用于表征土样的密实程度和干湿状态。在此基础上提出的状态硬化法则能够较合理地描述超固结黏土在排水剪切条件下的应变软化和剪胀特性,以及在不排水剪切条件下的有效应力路径和超孔隙水压演变规律。建立的黏土状态硬化模型属于单屈服面模型,形式较为简单,包含的材料参数可由常规室内试验结果进行标定,在工程实践中具有良好的理论应用前景。

    Abstract:

    The strength and deformation characteristics of overconsolidated clay depend on state factors such as initial void ratio, stress path and preconsolidation pressure. To characterize the state dependence of overconsolidated clay, we define two state parameters: the density-state parameter and the stress-state parameter. The former describes the void ratio difference between the current state point and the corresponding state on the critical state line, and the latter describes that between the dyadic state point and the critical state line. A new stress-state equation is then derived. Finally, the state hardening rule is adopted to describe the hardening law of the subloading surface where the current state point lies, and a state hardening model suitable for overconsolidated clay is established. Comparisons between model predictions and triaxial compression test results of different clays under drained and undrained conditions show that the proposed model exhibits good performance. The results show that stress history affects the stress-state equation of clay. The density-state and stress-state parameters in this equation approach zero when the soil reaches the critical state, and they characterize the compactness and moisture state of the soil respectively. The proposed state hardening rule can reasonably describe the strain softening and dilatancy of overconsolidated clay under drained shear, as well as the effective stress paths and the evolution of excess pore water pressure under undrained shear. The established clay state hardening model has a simple form with a single yield surface. Its material parameters can be calibrated by conventional laboratory tests, so it has good prospects for theoretical application in engineering practice.

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李海潮,李欣宇,张宇辉,李涛,贺佐跃.基于密度-应力双状态参量的黏土状态硬化模型[J].土木与环境工程学报(中英文),2026,48(4):34-43. LI Haichao, LI Xinyu, ZHANG Yuhui, LI Tao, HE Zuoyue. State hardening model of clay based on density and stress state parameters[J]. JOURNAL OF CIVIL AND ENVIRONMENTAL ENGINEERING,2026,48(4):34-43.10.11835/j. issn.2096-6717.2024.087

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  • 收稿日期:2024-06-14
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  • 在线发布日期: 2026-07-08
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