ABSTRACT
This research project assesses the geotechnical characterization of soils used for the construction
of the failed sections along Ikole- Oye Ekiti Road, Ekiti State, Nigeria. This road spans 23kms.
The study area falls within coordinates 7. 7979306° N (Oye) - 7. 7982660 N (Ikole) and
5.3285505°E (Oye) - 5.5144930°E (Ikole). It is a known fact throughout the world that the
conditions of any road largely depend upon its geotechnical properties such properties includes
soil strength, compaction, particle size classification, etc. Four different locations were
considered in which sampling point method was used in taking disturbed samples from the depth
of 750mm.The coordinates of the locations are sampling point l (7.474693° N, 5.280855° E),
sampling point 2 (7.483325° N, 5.240643° E), sampling point 3 (7.479756° N, 5.220363° E),
sampling point 4 (7.480405° N, 5.189875° E). Laboratory tests was carried on the samples
collected in order to determine soil geotechnical properties of Ikole- Oye road. The tests carried
out are; Compaction test, Sieve analysis , Permeability test, Natural moisture content, Specific
gravity, California bearing ratio test and Consistency limit test.
The results showed that the subgrade soil materials used along the road have high percentages of
clayey and silt/gravel/sand materials respectively (rated as fair to poor materials for road use)
based on AASHTO design standard ( 1986). The Natural and Optimum Moisture Contents are
low for all the Base, Sub-base and Sub-grade courses samples which ranges between 7. 7% and
21.8%. The Maximum Dry Density (MOD) values ranges between I .59-2.0kg/1113 for subgradc,
l.66-2.02kg/m3 for sub-base and I .70-2.02kg/m3 and Optimum Moisture contents values ranges
between 14.5-19 .6% for subgrade, 10-20.20% for sub 7base and 12-15 .5% for base materials.
Sub grade course samples met the specified specification of MOD of not less than l.76kg/m3 but
sub-base and base materials does not meet the specification by AASHTO ( 1986) of MOD not
less than 2.0kg/m3. From the tests result analysis of the Ikole-Oye road stretch within Ikole and
Oye local Government areas, it appears the subgrade materials under the failed sections of the
road is suitable according to AASHTO design standard (1986) while those of sub-base and base
materials are not suitable. Therefore, It is imperative that sustainable solutions addressing the
issue of using sub-standard materials for sub-base and base materials should be focused on, to curtail the incessant occurrence of road failures on the Ikole Oye road stretch.
SEGUN, J (2021). Geotechnical Characterization Of Failed Sections Along Ikole - Oye Ekiti Road, Ekiti State, Nigeria. Afribary. Retrieved from https://track.afribary.com/works/geotechnical-characterization-of-failed-sections-along-ikole-oye-ekiti-road-ekiti-state-nigeria
SEGUN, JIMOH "Geotechnical Characterization Of Failed Sections Along Ikole - Oye Ekiti Road, Ekiti State, Nigeria" Afribary. Afribary, 20 May. 2021, https://track.afribary.com/works/geotechnical-characterization-of-failed-sections-along-ikole-oye-ekiti-road-ekiti-state-nigeria. Accessed 27 Nov. 2024.
SEGUN, JIMOH . "Geotechnical Characterization Of Failed Sections Along Ikole - Oye Ekiti Road, Ekiti State, Nigeria". Afribary, Afribary, 20 May. 2021. Web. 27 Nov. 2024. < https://track.afribary.com/works/geotechnical-characterization-of-failed-sections-along-ikole-oye-ekiti-road-ekiti-state-nigeria >.
SEGUN, JIMOH . "Geotechnical Characterization Of Failed Sections Along Ikole - Oye Ekiti Road, Ekiti State, Nigeria" Afribary (2021). Accessed November 27, 2024. https://track.afribary.com/works/geotechnical-characterization-of-failed-sections-along-ikole-oye-ekiti-road-ekiti-state-nigeria