Fractal characteristics of particle breakage on the coral sands–structure interface during ring shear tests

IF 1.6 4区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS Marine Geophysical Research Pub Date : 2024-04-07 DOI:10.1007/s11001-024-09543-6
Houzhen Wei, Li Xin, Hang Ruan, Qi Yao, Xiaolong Ma, Rui Xu
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Abstract

Particle breakage at coral sands–structure interface is common in marine geological environments and is critical to the stability of geotechnical structures. However, due to the knowledge gap regarding the relationship between structure roughness and coral sand particle breakage, previous studies have not provided a clear understanding of this phenomenon. To address this gap, we conducted ring shear tests to investigate the evolution of the fractal dimension of particle breakage and its dependence on structure surface roughness and vertical stress based on fractal theory. The results show that both the roughness of the steel plate simulating the structure surface in the ring shear test and the particle size of coral sand have significant impacts on the evolutions of particle breakage and morphology at the contact interface. In detail, the particle size distributions (PSDs) of coral sands after shearing have obvious self-similarity and converge to the limit distribution state, especially when the sands contain more large particles. When the steel plate is smooth, the fractal dimension of the broken coral sand is relatively low, which indicates an early stage of fractal dimension development. Moreover, the relationship between the fractal dimension and vertical stress exerted on a rough steel plate can be approximately described using a second-order polynomial function. Moreover, there exists a critical vertical stress that corresponds to the maximum fractal dimension for each kind of coral sand in our tests. The particle breakage rates of coral sand samples on smooth steel plates are substantially lower than those on rough steel plates.

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环形剪切试验中珊瑚沙-结构界面上颗粒破碎的分形特征
在海洋地质环境中,珊瑚砂-结构界面上的颗粒破碎很常见,对岩土结构的稳定性至关重要。然而,由于对结构粗糙度与珊瑚砂颗粒破碎之间关系的认识存在差距,以往的研究并没有对这一现象提供清晰的认识。针对这一空白,我们基于分形理论进行了环剪试验,研究颗粒破碎的分形维度演变及其与结构表面粗糙度和垂直应力的关系。结果表明,环剪试验中模拟结构表面的钢板粗糙度和珊瑚砂的粒径对接触界面上的颗粒断裂和形态演变都有显著影响。具体而言,珊瑚砂剪切后的粒度分布(PSD)具有明显的自相似性,并趋近于极限分布状态,尤其是当砂中含有较多大颗粒时。当钢板光滑时,破碎珊瑚砂的分形维度相对较低,这表明分形维度发展处于早期阶段。此外,粗糙钢板上的分形维数与垂直应力之间的关系可以用二阶多项式函数近似描述。此外,在我们的测试中,每种珊瑚砂都存在一个与最大分形维度相对应的临界垂直应力。光滑钢板上的珊瑚砂样本的颗粒破碎率大大低于粗糙钢板上的珊瑚砂样本。
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来源期刊
Marine Geophysical Research
Marine Geophysical Research 地学-地球化学与地球物理
CiteScore
2.80
自引率
14.30%
发文量
41
审稿时长
>12 weeks
期刊介绍: Well-established international journal presenting marine geophysical experiments on the geology of continental margins, deep ocean basins and the global mid-ocean ridge system. The journal publishes the state-of-the-art in marine geophysical research including innovative geophysical data analysis, new deep sea floor imaging techniques and tools for measuring rock and sediment properties. Marine Geophysical Research reaches a large and growing community of readers worldwide. Rooted on early international interests in researching the global mid-ocean ridge system, its focus has expanded to include studies of continental margin tectonics, sediment deposition processes and resulting geohazards as well as their structure and stratigraphic record. The editors of MGR predict a rising rate of advances and development in this sphere in coming years, reflecting the diversity and complexity of marine geological processes.
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