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Swelling-shrinkage properties of compacted Karal soils from North and Far North Cameroon: a physicochemical and geotechnical approach

Karal soils mainly composed of swelling clays are considered as one of the main causes of degradation in civil engineering structures in Cameroon. Thus, a better knowledge on Karal-type soil behavior is required to adapt soil treatment for road construction and foundation dimensioning. The physicoch...

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Published in:	European journal of environmental and civil engineering 2024-07, Vol.28 (10), p.2345-2365
Main Authors:	Bakaiyang, Lemankreo, Duc, Myriam, Boussafir, Yasmina, Szymkiewicz, Fabien, Madjadoumbaye, Jérémie
Format:	Article
Language:	English
Subjects:	Clays Engineering Sciences expansive soils geotechnical characteristics karal shrinkage swelling
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container_title	European journal of environmental and civil engineering
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creator	Bakaiyang, Lemankreo Duc, Myriam Boussafir, Yasmina Szymkiewicz, Fabien Madjadoumbaye, Jérémie
description	Karal soils mainly composed of swelling clays are considered as one of the main causes of degradation in civil engineering structures in Cameroon. Thus, a better knowledge on Karal-type soil behavior is required to adapt soil treatment for road construction and foundation dimensioning. The physicochemical, mineralogical and geotechnical characterization of ten soils collected in North and Far North Cameroon allowed to classify Karal among plastic soils. As expected, the optimum water contents and maximum dry densities of dynamically compacted Karal reflected the particle size distribution and the mineralogical soil composition with various amounts of swelling clay (montmorillonite) and quartz associated to sand and silt fractions. Then the swelling/shrinkage properties of compacted specimens evaluated by free swelling test and volume shrinkage test were correlated to soil characteristics to propose a suitable classification for Karal-type soils. Not only swelling but also shrinkage properties were assessed and combined to define a new parameter called the total amplitude of swelling and shrinkage deformation, allowing the exclusion of the soil initial water content when evaluating soil deformation. After comparison of usual indirect methods to classify swelling soils, a predictive method of clay-rich soils deformation under moisture variation for Karal was proposed and discussed.
doi_str_mv	10.1080/19648189.2024.2314114
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ispartof	European journal of environmental and civil engineering, 2024-07, Vol.28 (10), p.2345-2365
issn	1964-8189 2116-7214
language	eng
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source	Taylor and Francis Science and Technology Collection
subjects	Clays Engineering Sciences expansive soils geotechnical characteristics karal shrinkage swelling
title	Swelling-shrinkage properties of compacted Karal soils from North and Far North Cameroon: a physicochemical and geotechnical approach
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