Investigation of Dynamic Compaction and Vibro-compaction to Mitigate Liquefaction: A Case Study

Indonesian Geotechnical Journal Pub Date : 2022-08-30 DOI:10.56144/igj.v1i2.16

G. T. Liong

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Abstract

Liquefaction is one of the phenomena that can be triggered by an earthquake. Earthquake causes an increase in pore-water pressure in soil, reducing soil’s effective stress to zero or near-zero. In this state, the soil loses its strength and behaves like a liquid. This is known as liquefaction. When soil loses its strength, so it also loses its bearing capacity, causing damage or failure to structures. The soil type that is most prone to liquefaction is loose saturated fine sand. Such soil can be found in many of coastal areas in Indonesia. Indonesia is also one of the most earthquake prone countries in the world, hence liquefaction is one of the natural hazards that Indonesia has to face. Earthquake cannot be prevented, and its occurrence cannot be accurately predicted. Fortunately, liquefaction can be prevented by doing soil improvement to increase the sand density. The two most commonly used ground improvement techniques to increase sand density is dynamic-compaction and vibro-compaction. A case study from Aceh province, where both ground improvement techniques were used, is presented in this paper to compare the performance of dynamic compaction and vibro-compaction.

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强夯和振冲夯对液化缓解的研究:一个案例研究

液化是地震可能引发的现象之一。地震使土体孔隙水压力增大，使土体有效应力降至零或接近零。在这种状态下，土壤失去了强度，表现得像液体一样。这被称为液化。当土壤失去强度时，它也会失去承载能力，造成结构的损坏或破坏。最容易液化的土壤类型是松散饱和细砂。这种土壤可以在印度尼西亚的许多沿海地区找到。印尼也是世界上地震多发的国家之一，因此液化是印尼必须面对的自然灾害之一。地震无法预防，地震的发生也无法准确预测。幸运的是，可以通过改善土壤来增加沙子的密度来防止液化。两种最常用的增加砂密度的地面改善技术是动力压实和振冲压实。本文提出了一个来自亚齐省的案例研究，在那里使用了两种地面改善技术，以比较动力压实和振动压实的性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Indonesian Geotechnical Journal

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