Mehmet Murat Monkul scite author profile

This study investigates the fines content influence on liquefaction potential of a single base sand mixed with three different essentially nonplastic silts through strain-controlled monotonic undrained triaxial compression tests. Confining stress (30 kPa) and deposition method (dry funnel deposition) were kept the same, while fines content was varied, to solely focus on how different silts and their contents influence the undrained response of the sand under comparable conditions. It was found that if the mean grain diameter ratio (D50-sand/d50-silt) of the sand grains to silt grains is sufficiently small, the liquefaction potential of the sand increases steadily with increasing fines content for the studied range (0%–20%). As D50-sand/d50-silt increases, the liquefaction potential of the silty sand might actually be less than the liquefaction potential of the clean sand. Test results also revealed that commonly used comparison bases (i.e., void ratio, intergranular void ratio, relative density) are not sufficient for assessing the influence of fines on liquefaction potential of silty sands. Finally, relative size of the silt grains should also be considered in geotechnical engineering practice in addition to content and plasticity of fines to characterize the influence of silt on liquefaction potential of sands.

show abstract

Influence of coefficient of uniformity and base sand gradation on static liquefaction of loose sands with silt

Monkul

Etminan

Şenol

2016

Soil Dynamics and Earthquake Engineering

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Estimation of liquefaction potential from dry and saturated sandy soils under drained constant volume cyclic simple shear loading

Monkul

Gültekin²,

Gülver³

et al. 2015

Soil Dynamics and Earthquake Engineering

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The Coupled Influence of Relative Density, CSR, Plasticity and Content of Fines on Cyclic Liquefaction Resistance of Sands

Eseller-Bayat

Monkul

Akin

et al. 2017

Journal of Earthquake Engineering

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