Joint analysis of macroscopic response and microfabric evolution of coral sand during earthquake-induced liquefaction

IF 3 3区工程技术 Q2 ENGINEERING, GEOLOGICAL

Canadian Geotechnical Journal Pub Date : 2023-10-04 DOI:10.1139/cgj-2022-0512

Qi Wu, Xuanming Ding, Yanling Zhang

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引用次数: 0

Abstract

This study addresses the microfabric evolution of coral sand during earthquake-induced liquefaction using the joint tests of macroscopic shaking table and microscopic X-ray computed tomography (μCT). Based on the non-destructive scanning and image reconstruction in 3D, the change in the grain-pore structure of sands under earthquakes is discussed. Furthermore, the special microstructural evolution of coral sand is studied by the contrast tests with Fujian sand. The results show that the coordination number of coral sand is larger than that of Fujian sand after liquefaction, which is consistent with that the reduction in acceleration of coral sand is smaller than that of the Fujian sand, and the coral sand foundation still has a larger shear strength due to the smaller excess pore pressure accumulation. Moreover, the contact index of Fujian sand and Reigate sand fluctuates in a similar range with the change of void ratio and coordination number compared with coral sand. This is due to the fact that the Fujian sand and Reigate sand are both general terrigenous sands (quartz sand), while coral sand has irregular particle shapes and larger surface friction caused by marine biogenesis. The test results deepen the understanding of the liquefaction mechanism of coral sand.

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地震液化过程中珊瑚砂宏观响应与微组构演化的联合分析

采用宏观振动台和微观x射线计算机断层扫描(μCT)联合试验，研究了珊瑚砂在地震液化过程中的微组构演化。基于三维无损扫描和图像重建，讨论了地震作用下砂土颗粒孔隙结构的变化。并通过与福建砂的对比试验，研究了珊瑚砂的特殊微观结构演化。结果表明:液化后珊瑚砂的配位数大于福建砂，这与珊瑚砂加速度减小小于福建砂相一致，珊瑚砂地基由于超孔隙压力积累较小，仍具有较大的抗剪强度。此外，与珊瑚砂相比，福建砂和Reigate砂的接触指数随孔隙比和配位数的变化波动范围相似。这是由于福建砂和Reigate砂都是一般的陆源砂(石英砂)，而珊瑚砂颗粒形状不规则，表面摩擦力较大，是海洋生物成因所致。试验结果加深了对珊瑚砂液化机理的认识。

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来源期刊

Canadian Geotechnical Journal 地学-地球科学综合

CiteScore

7.20

自引率

5.60%

发文量

163

审稿时长

7.5 months

期刊介绍： The Canadian Geotechnical Journal features articles, notes, reviews, and discussions related to new developments in geotechnical and geoenvironmental engineering, and applied sciences. The topics of papers written by researchers and engineers/scientists active in industry include soil and rock mechanics, material properties and fundamental behaviour, site characterization, foundations, excavations, tunnels, dams and embankments, slopes, landslides, geological and rock engineering, ground improvement, hydrogeology and contaminant hydrogeology, geochemistry, waste management, geosynthetics, offshore engineering, ice, frozen ground and northern engineering, risk and reliability applications, and physical and numerical modelling. Contributions that have practical relevance are preferred, including case records. Purely theoretical contributions are not generally published unless they are on a topic of special interest (like unsaturated soil mechanics or cold regions geotechnics) or they have direct practical value.