On the Investigations of Resilient Modulus of Residual Tropical Gravel Lateritic Soils from Senegal (West Africa) |
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| Authors: | Meissa Fall Auckpath Sawangsuriya Craig H Benson Tuncer B Edil Peter J Bosscher |
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| Institution: | (1) Faculty of Sciences and Techniques, Earth Sciences Institute, University Cheikh Anta Diop, BP 15 685 Dakar-Fann, Dakar, Senegal;(2) Department of Civil and Environmental Engineering, University of Wisconsin-Madison, Madison, WI 53706, USA |
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| Abstract: | Investigations on the mechanical behavior of compacted gravel lateritic soils have been the subject of several studies. Used
as road materials, soils tests were mainly performed using standard tests. Static loads as unconfined compression test (UCT)
remain the only engineering approach used. Alternative testing techniques can be chosen as supplementary tests for characterizing
pavement materials. These researches were conducted so as to determine the response of these particular and problematic soils
in its compacted form with road traffic loads. This paper presents the results of research conducted to investigate the effect
of the soil compacity on the resilient modulus of lateritic soils. The influence of the percentage of cement added so as to
stabilize each sample at the optimum modified proctor (OPM) State was also determined. Soil big specimens of around 180 mm
diameter (with length to diameter aspect ratio of 2:1) were prepared according to the standard procedure described by AASHTO
T 307 and then were subjected to repeated load triaxial tests. The models used, analyzed and developed in this paper are mainly
the Andrei and the Uzan–Witczak universal model. Test results showed that the specimen compacity has no significant influence
on the resilient modulus of the investigated gravel lateritic soils. Soil specimens with variation of the percentage of cement
added exhibited the highest resilient modulus values while the specimens with variation of the compacity exhibited the lowest
values. The resilient modulus variation seems to be independent of the level of stress. |
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| Keywords: | Lateritic soils Compaction Unconfining compression tests Triaxial tests Optimum modified proctor Resilient modulus Road design Geotechnical engineering AASHTO NCHRP |
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