K_0应力状态下渗流渗流的实验与数值研究

IF 3.3 3区 工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY Journal of Zhejiang University-SCIENCE A Pub Date : 2023-01-23 DOI:10.1631/jzus.A2200198
Tuo Wang, Feng-shou Zhang, Pei Wang
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引用次数: 1

摘要

裂隙级配土的渗流是细颗粒在渗流力作用下通过粗颗粒形成的孔隙进行选择性侵蚀的过程。随着细粒含量(FC)的降低,土体的水力力学性能将发生变化,对工程安全构成巨大威胁。在本研究中,我们首先利用间隙梯度土进行了一系列的渗流试验,然后分析了渗流的演化过程和水力梯度的影响。在此基础上,建立了基于动态流体网格(DFM)的离散元法(DEM)数值模型,将实验研究扩展到孔隙尺度。我们的研究结果揭示了细粒的迁移过程和侵蚀带的形成。然后进行参数研究,以调查水力梯度,FC和k_0压力(限制样品的侧向位移并施加垂直压力)对侵蚀重量的影响。结果表明:侵蚀重量随水力梯度和FC的增大而增大,随k_0压力的增大而减小;目的 目前,潜蚀过程并不能被直接观察到。整整一个月,整整一个月,整整一个月,整整一个月,整整一个月。创新点 1. 研制出一个透明潜蚀仪器,可直接观测间断级配土的潜蚀过程;2. 建立数值模型,扩展试验参数,在颗粒尺度上解释潜蚀规律。 方法 1. 采用透明的潜蚀仪器,直接观测间断级配土的潜蚀过程,并记录潜蚀质量;2. 通过离散元数值模拟的方法,在颗粒尺度上揭示颗粒的迁移规律。 结论 1. 随着侵蚀的进行,试样内部形成侵蚀带并逐渐扩大;从力链分析可知,细颗粒在水流作用下逐渐堆积在粗颗粒形成的孔隙中,并被粗颗粒堵塞。2. 当侵蚀和阻塞区形成时,流速也逐渐局部化;在侵蚀区,孔隙度增大,流速普遍较快,但在阻塞区,流速较慢。3. 参数分析表明,最终潜蚀重量与水力梯度呈正相关关系,且潜蚀重量随K 0压力的增大而减小,随着细粉含量的增加,潜蚀重量增加。
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Experimental and numerical study of seepage-induced suffusion under K_0 stress state
Suffusion in gap-graded soil involves selective erosion of fine particles through the pores formed by coarse particles under seepage forces. As the fines content (FC) decreases, the hydraulic and mechanical behavior of the soil will change, posing a huge threat to engineering safety. In this study, we first conduct a series of experimental tests of suffusion by using gap-graded soils and then analyze the evolution process of suffusion and the effect of the hydraulic gradient. Subsequently, according to the physical model, a discrete element method (DEM) numerical model with dynamic fluid mesh (DFM) is developed to extend the experimental study to the pore scale. Our results reveal the migration process of fines and the formation of erosion zones. A parametric study is then conducted to investigate the effect of the hydraulic gradient, FC, and K _0 pressure (which limits the lateral displacement of the sample and applies vertical pressure) on eroded weight. The results show that the eroded weight increases with the increase of the hydraulic gradient and FC but decreases with the increase of K _0 pressure. 目的 目前,潜蚀过程并不能被直接观察到。本研究期望采用透明仪器直接观察潜蚀的演化过程,探讨 K 0应力状态下间断级配土的潜蚀过程。 创新点 1. 研制出一个透明潜蚀仪器,可直接观测间断级配土的潜蚀过程;2. 建立数值模型,扩展试验参数,在颗粒尺度上解释潜蚀规律。 方法 1. 采用透明的潜蚀仪器,直接观测间断级配土的潜蚀过程,并记录潜蚀质量;2. 通过离散元数值模拟的方法,在颗粒尺度上揭示颗粒的迁移规律。 结论 1. 随着侵蚀的进行,试样内部形成侵蚀带并逐渐扩大;从力链分析可知,细颗粒在水流作用下逐渐堆积在粗颗粒形成的孔隙中,并被粗颗粒堵塞。2. 当侵蚀和阻塞区形成时,流速也逐渐局部化;在侵蚀区,孔隙度增大,流速普遍较快,但在阻塞区,流速较慢。3. 参数分析表明,最终潜蚀重量与水力梯度呈正相关关系,且潜蚀重量随 K 0压力的增大而减小;随着细粉含量的增加,潜蚀重量增加。
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来源期刊
Journal of Zhejiang University-SCIENCE A
Journal of Zhejiang University-SCIENCE A 工程技术-工程:综合
CiteScore
5.60
自引率
12.50%
发文量
2964
审稿时长
2.9 months
期刊介绍: Journal of Zhejiang University SCIENCE A covers research in Applied Physics, Mechanical and Civil Engineering, Environmental Science and Energy, Materials Science and Chemical Engineering, etc.
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