Analisis Parameter Dinamik Tanah pada Tanah Pasir yang Berpotensi Likuifaksi

Jurnal Tekno Global Pub Date : 2022-12-20 DOI:10.36982/jtg.v11i2.2933

Utari Sriwijaya Minaka, Ghina Amalia

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Abstract

Shear modulus and damping ratio are two well-known dynamic properties of soil when subjected to cyclic loading. These values are influenced by several things, including groundwater level and soil stiffness. Since soil dynamic properties value varies by liquefaction, there is a need for laboratory research to specifically investigate the effect of degree of saturation and number of loads on shear modulus and damping ratio of sand. Cyclic Triaxial and Centrifuge tests were conducted to determine shear modulus and damping ratio under cyclic loading. For the Cyclic Triaxial test, Sekarsuli sand with 49,20% density, 50%, 75%, 100% degree of saturation, and two types of loading (10 and 20 cyclic) were used. Centrifuge test was conducted using 4 layers of Toyoura sand with 60% density, fully saturated, and two types of shaking (24 Hz and 30 Hz). The results revealed that shear modulus value increased as depth increased. The greater the number of cyclic applied, the shear modulus value increased, while the value of the damping ratio decreased. Centrifuge test also showed that, under fully saturated condition, the greater load applied, soil stiffness gradually decreased and shear strain increased. This resulted in the decrease in shear modulus and increase damping ratio value.

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剪切模量和阻尼比是土体在循环荷载作用下的两个众所周知的动力特性。这些值受到几个因素的影响，包括地下水位和土壤刚度。由于土壤动力特性值随液化的变化而变化，因此有必要进行室内研究，具体研究饱和程度和荷载次数对砂土剪切模量和阻尼比的影响。进行了循环三轴和离心试验，确定了循环加载下的剪切模量和阻尼比。循环三轴试验采用49、20%密度、50%、75%、100%饱和度的Sekarsuli砂，加载10、20次循环。离心试验采用4层Toyoura砂，密度为60%，完全饱和，24 Hz和30 Hz两种振动方式。结果表明，剪切模量随深度的增加而增大。随着循环次数的增加，剪切模量增大，阻尼比减小。离心试验也表明，在完全饱和条件下，荷载越大，土体刚度逐渐减小，剪切应变增大。这导致剪切模量减小，阻尼比值增大。

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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Jurnal Tekno Global

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