Liquefaction Behavior of Typical River Channel Deposit in Kolkata City

IF 0.5 Q4 ENGINEERING, GEOLOGICAL International Journal of Geotechnical Earthquake Engineering Pub Date : 2023-09-05 DOI:10.4018/ijgee.329249
Sanjay Prasad, Abhishek Mondal, Narayan Roy, R. Sahu
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Abstract

Liquefaction susceptibility of river channel deposit in Kolkata city is studied using laboratory cyclic triaxial tests. River channel deposit, which supports a large part of rapidly growing urbanization of Kolkata city, mainly consists of sandy soil with little amount of silt. Cyclic triaxial tests have been performed on this soil sample with varying relative density, confining pressure, and cyclic strain amplitude. Results are presented to show how these parameters influence the pore water pressure generation within soil. Relative density, confining pressure and cyclic strain amplitude are found to affect the pore pressure generation characteristics in the soil, and the number of cycles required to reach liquefaction phenomena vary significantly. Finally, pore pressure generation characteristics are modeled using a hyperbolic model and a pore pressure generation equation is proposed for the typical river channel deposit soil. The model exhibits a certain threshold value of cyclic strain amplitude, up to which the initial rate of pore pressure generation decreases and then increases.
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加尔各答典型河道沉积物的液化行为
采用室内循环三轴试验研究了加尔各答市河道沉积物的液化敏感性。河道沉积物主要由砂质土组成,泥沙含量很少,支撑着加尔各答市快速发展的城市化进程的很大一部分。在不同的相对密度、围压和循环应变幅值条件下,对该土样进行了循环三轴试验。结果显示了这些参数如何影响土中孔隙水压力的产生。发现相对密度、围压和循环应变幅值影响土体孔隙压力生成特征,且达到液化现象所需的循环次数差异较大。最后,利用双曲模型模拟了典型河道淤积土的孔隙压力生成特征,并建立了典型河道淤积土的孔隙压力生成方程。模型表现出一定的循环应变幅值阈值,达到该阈值后孔隙压力产生的初始速率先减小后增大。
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CiteScore
1.90
自引率
25.00%
发文量
11
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