基于非静态流动法则的非饱和时敏土弹黏塑性边界面模型

doi:10.16285/j.rsm.2025.0490

岩土力学 ›› 2026, Vol. 47 ›› Issue (6): 1989-2000.doi: 10.16285/j.rsm.2025.0490CSTR: 32223.14.j.rsm.2025.0490

基于非静态流动法则的非饱和时敏土弹黏塑性边界面模型

翁效林¹，李铉聪¹，孙钰丰¹，徐龙飞¹，WONG K K Henry ²

1. 长安大学公路学院，陕西西安 710064；2. 里昂大学国立国家公共工程学院，法国里昂 69000

收稿日期:2025-05-18 接受日期:2025-09-16 出版日期:2026-06-11 发布日期:2026-06-06
通讯作者: 孙钰丰，男，1994年生，博士，讲师，主要从事岩土与隧道工程方面的研究。E-mail: yufeng.sun1@chd.edu.cn
作者简介:翁效林，男，1980年生，博士，教授，主要从事岩土与隧道工程方面的研究。E-mail: wengxl2000@126.com
基金资助:
国家自然科学基金（No.42277151）；陕西省秦创原“科学家+工程师”队伍建设项目（No.S2024-YD-QCYK-0027）；长安大学中央高校基本科研业务费专项资金（No.300102214201）；中国国家铁路集团有限公司科技研究开发计划实验室基础研究项目（No.L2022G014，No.L2023G002）。

Elasto-viscoplastic bounding surface model for unsaturated time-dependent soils incorporating non-stationary flow rule

WENG Xiao-lin¹, LI Xuan-cong¹, SUN Yu-feng¹, XU Long-fei¹, WONG K K Henry²

1. School of Highway, Chang’an University, Xi’an, Shaanxi 710064, China; 2. National School of State Public Works, Lyon University, Lyon 69000, France

Received:2025-05-18 Accepted:2025-09-16 Online:2026-06-11 Published:2026-06-06
Supported by:
This work was supported by the National Natural Science Foundation of China (42277151), the Qinchuangyuan “Scientist + Engineer” Team Building Project of Shaanxi Province (S2024-YD-QCYK-0027), the Fundamental Research Funds for the Central Universities, CHD (300102214201) and the Science and Technology Research and Development Project of China State Railway Group Co., Ltd. (L2022G014, L2023G002).

摘要/Abstract

摘要： 非饱和土在长期荷载及环境变化作用下表现出显著的时敏特性，准确预测其率敏行为及时间效应对工程结构的变形控制与长期稳定性具有重要意义。基于非饱和土等效时间线理论，建立了非饱和时敏土屈服应力与基质吸力及黏塑性应变率的耦合关系。针对黏塑性率敏参数在饱和与非饱和状态间过渡的不连续性问题，提出了改进的参数演化规律。以边界面塑性理论为框架，通过将非静态流动法则推广至非饱和状态，建立了适用于三轴应力状态的本构模型。模型中边界面大小的演化规律由黏塑性体积应变、基质吸力及黏塑性体积应变率共同控制，能够有效描述黏塑性应变率与基质吸力对非饱和土时敏行为的耦合效应。通过与多种时敏土体在不同基质吸力与轴向应变率条件下的压缩、剪切及蠕变试验数据进行对比，验证了模型的合理性与有效性。验证结果表明，模型能够准确预测特定吸力水平下非饱和土的应变率敏感行为和蠕变特性。

关键词: 非饱和土, 时敏性, 边界面模型, 蠕变, 吸力

Abstract: Unsaturated soils exhibit significant time-dependent characteristics under long-term loading and environmental changes. Accurate prediction of their rate-dependent behavior and time effects is crucial for deformation control and long-term stability analysis of engineering structures. Based on the isotach approach for unsaturated soils, a coupled relationship among yield stress, matric suction, and viscoplastic strain rate is established for unsaturated time-dependent soils. To address the discontinuity of viscoplastic rate-dependent parameters during the transition between saturated and unsaturated states, an improved parameter evolution law is proposed. Using bounding surface plasticity theory as the framework and extending the non-stationary flow rule to unsaturated conditions, a constitutive model applicable to triaxial stress states is developed. In this model, the evolution of bounding surface size is governed by viscoplastic volumetric strain, matric suction, and viscoplastic volumetric strain rate. This model effectively captures the coupled effects of viscoplastic strain rate and matric suction on the time-dependent behavior of unsaturated soils. The rationality and effectiveness of the model are verified by comparisons with experimental data from isotropic compression tests, triaxial shear tests, and creep tests on various time-dependent soils under different matric suction levels and axial strain rates. Validation results demonstrate that the model accurately predicts the rate-dependent behavior and creep characteristics of unsaturated soils under specified suction levels.

Key words: unsaturated soils, time-dependence, bounding surface model, creep, suction

中图分类号: TU431

翁效林, 李铉聪, 孙钰丰, 徐龙飞, WONG K K Henry. 基于非静态流动法则的非饱和时敏土弹黏塑性边界面模型[J]. 岩土力学, 2026, 47(6): 1989-2000.

WENG Xiao-lin, LI Xuan-cong, SUN Yu-feng, XU Long-fei, WONG K K Henry. Elasto-viscoplastic bounding surface model for unsaturated time-dependent soils incorporating non-stationary flow rule[J]. Rock and Soil Mechanics, 2026, 47(6): 1989-2000.

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基于非静态流动法则的非饱和时敏土弹黏塑性边界面模型

Elasto-viscoplastic bounding surface model for unsaturated time-dependent soils incorporating non-stationary flow rule

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