考虑拉伸的土工袋体织物渗流特性试验及预测模型

doi:10.16285/j.rsm.2025.0435

岩土力学 ›› 2025, Vol. 46 ›› Issue (9): 2711-2720.doi: 10.16285/j.rsm.2025.0435CSTR: 32223.14.j.rsm.2025.0435

考虑拉伸的土工袋体织物渗流特性试验及预测模型

曹瑞栋¹，刘斯宏^{1, 2}，田金博¹，鲁洋^{1, 2}，张勇敢^{2, 3}，李帆^{1, 4}

1. 河海大学水利水电学院，江苏南京 210098；2. 河海大学大坝长效特性及环保修复技术中西联合实验室，江苏南京 210098； 3. 河海大学地球科学与工程学院，江苏南京 211100；4. 河海大学设计研究院有限公司，江苏南京 210036

收稿日期:2025-04-28 接受日期:2025-06-30 出版日期:2025-09-10 发布日期:2025-09-04
通讯作者: 刘斯宏，男，1964年生，博士，教授，主要从事土石坝工程、土工袋技术和水工岩土方面的研究。E-mail: sihongliu@hhu.edu.cn
作者简介:曹瑞栋，男，2000年生，硕士研究生，主要从事土工袋技术、水工岩土方面的研究。E-mail: caord@hhu.edu.cn
基金资助:
国家重点研发计划项目（No.2024YFC3210602，No.2024YFC3210603）；国家自然科学基金项目（No.52479099，No.52109123）。

Experimental study and predictive model for seepage characteristics of geotextiles for soilbags considering tensile deformation

CAO Rui-dong¹, LIU Si-hong^{1, 2}, TIAN Jin-bo¹, LU Yang^{1, 2}, ZHANG Yong-gan^{2, 3}, LI Fan^{1, 4}

1. College of Water Conservancy and Hydropower Engineering, Hohai University, Nanjing, Jiangsu 210098, China; 2. International Joint Laboratory of Long-term Behavior & Environmentally Friendly Rehabilitation Technologies on Dams, Hohai University, Nanjing, Jiangsu 210098, China; 3. School of Earth Sciences and Engineering, Hohai University, Nanjing, Jiangsu 211100, China; 4. Hohai University Design Institute Co., Ltd., Nanjing, Jiangsu 210036, China

Received:2025-04-28 Accepted:2025-06-30 Online:2025-09-10 Published:2025-09-04
Supported by:
This work was supported by the National Key R&D Program of China (2024YFC3210602, 2024YFC3210603) and the National Natural Science Foundation of China (52479099, 52109123).

摘要/Abstract

摘要： 为探究有纺土工袋在涉水防护工程中受压缩变形影响下袋体织物材料的渗透特性演化规律，通过自主研发的垂直渗透试验装置，结合图像分析技术，研究了0%～10%单向拉伸应变下袋体织物的孔隙结构与渗流行为演化过程。结果表明：拉伸应变显著改变袋体织物孔隙分布，孔隙率与孔隙比表面积随拉伸应变增加分别近似呈弱指数型与对数型增长趋势，基于有纺织物单孔模型可分别建立二者与拉伸应变之间的定量关系；渗流过程中水力梯度−流速关系符合Forchheimer方程，临界雷诺数随拉伸应变增大呈现先减后增的变化规律，叠丝间隙对低拉伸应变下袋体织物的流态转变影响显著；基于流态划分结果获取袋体织物达西渗流阶段的渗透系数，并通过孔隙率与孔隙比表面积构建拉伸状态下袋体织物渗透系数预测模型，模型预测结果与实测值吻合较好，揭示了拉伸应变通过改变孔隙率与孔隙比表面积来调控袋体织物渗透性能的内在机制。

关键词: 土工袋, 拉伸作用, 形态学参数, 临界雷诺数, 渗透系数

Abstract: To investigate the evolution of permeability characteristics of geotextile materials in woven soilbags under compressive deformation in hydraulic protection engineering, a self-developed vertical permeability device and image analysis were utilized to study pore structure and seepage behavior under 0%−10% uniaxial tensile strain. The results demonstrated that tensile strain has a significant impact on the pore distribution of soilbag geotextiles. Porosity exhibited a weak exponential increase, while specific surface area showed a weak logarithmic increase with tensile strain. These relationships were quantified using a woven geotextile single-pore model. The hydraulic gradient-velocity relationship during seepage conformed to the Forchheimer equation. The critical Reynolds number exhibited non-monotonic variation, decreasing initially and then increasing with tensile strain. Inter-fiber spacing significantly influences flow regime transitions under low tensile strain. Based on the flow regime classification, the permeability coefficient corresponding to the Darcy flow regime was extracted. A predictive model for the permeability coefficient under tensile deformation was developed using porosity and specific surface area as predictors. The model’s predictions showed good agreement with experimental measurements. The study elucidates the underlying mechanism by which tensile strain modulates the permeability of soilbag geotextiles through changes in porosity and specific surface area.

Key words: soilbag, tensile loading, morphological parameters, critical Reynolds number, permeability coefficient

中图分类号: TU411

曹瑞栋, 刘斯宏, 田金博, 鲁洋, 张勇敢, 李帆, . 考虑拉伸的土工袋体织物渗流特性试验及预测模型[J]. 岩土力学, 2025, 46(9): 2711-2720.

CAO Rui-dong, LIU Si-hong, TIAN Jin-bo, LU Yang, ZHANG Yong-gan, LI Fan, . Experimental study and predictive model for seepage characteristics of geotextiles for soilbags considering tensile deformation[J]. Rock and Soil Mechanics, 2025, 46(9): 2711-2720.

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考虑拉伸的土工袋体织物渗流特性试验及预测模型

Experimental study and predictive model for seepage characteristics of geotextiles for soilbags considering tensile deformation

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