粘土密封材料初始颗粒结构对其膨胀性能的影响:实验和DEM模拟

IF 0.9 Q3 NUCLEAR SCIENCE & TECHNOLOGY EPJ Nuclear Sciences & Technologies Pub Date : 2020-11-01 DOI:10.1051/epjn/2019059
B. Dardé, A. Tang, J. Roux, P. Dangla, Jean-Michel Pereira, J. Talandier, M. Vu
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引用次数: 8

摘要

在放射性废物处理概念中,颗粒基膨胀粘土材料被认为是封闭通道的密封材料。在储存库条件下,颗粒混合物在宿主岩石孔隙水的水合作用下逐渐均质。本研究的重点是均质化前的材料行为。首先在实验室中进行颗粒尺度的实验表征。基于实验结果,提出了一个描述球团流体力学行为的模型。然后,在实验室中进行抽吸控制膨胀压力测试。利用离散单元法(DEM)和针对单个颗粒提出的模型,成功地模拟了试验。强调指出:(i)在所研究的吸力范围内,膨胀压力分为两个阶段,由混合物的颗粒结构控制;(ii)实验室规模的壁效应影响材料响应;(iii)与传感器直径相关联的测量可变性是不可忽略的;(iv)DEM是一种有价值的工具,能够深入了解材料行为。
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Effects of the initial granular structure of clay sealing materials on their swelling properties: experiments and DEM simulations
Pellet-based expansive clay materials are considered as a sealing material for closing the galleries in radioactive waste disposal concepts. In repository conditions, the granular mixture progressively homogenises upon hydration by the host rock pore water. The present study focuses on the material behaviour before homogenisation. A grain-scale experimental characterisation is first performed in the laboratory. A model describing the hydromechanical behaviour of a pellet is proposed based on the experimental results. Then, suction-controlled swelling pressure tests are performed in the laboratory. Using Discrete Element Method (DEM) and the model proposed for a single pellet, the tests are successfully simulated. It is highlighted that (i) the swelling pressure evolves in two phases in the investigated suction range, controlled by the granular structure of the mixture; (ii) wall effects at the laboratory scale affects the material response; (iii) measurement variability associated to the sensor diameter is non-negligible; (iv) DEM is a valuable tool able to provide insight into the material behaviour.
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来源期刊
EPJ Nuclear Sciences & Technologies
EPJ Nuclear Sciences & Technologies NUCLEAR SCIENCE & TECHNOLOGY-
CiteScore
1.00
自引率
20.00%
发文量
18
审稿时长
10 weeks
期刊最新文献
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