Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
4928800 | Transportation Geotechnics | 2017 | 27 Pages |
Abstract
A laboratory study on the stabilization of black cotton soil (BCS) with up to 8% lime admixed with up to 10% iron ore tailing (IOT) by dry weight of soil compacted with British Standard light, BSL energy (relative compaction - 100%) was carried out to establish the soil improving potential of the lime - IOT blend. Tests carried out include index, compaction, strength and durability. Unconfined compressive strength (UCS), CBR (soaked and unsoaked condition) and resistance to loss in strength of specimen yielded peak values at 8% lime/8% IOT treatment. Microanalysis using scanning electron microscope (SEM) revealed that crystalline hydration products present in the optimally treated black cotton soil majorly contributed to the gain in strength. The batch equilibrium test results on the leaching potential of iron (Fe2+) from the BCS-lime-IOT mixture into the environment show that the desorbed value 0.272Â mg/l of iron (Fe2+) concentration for 8% lime/8% IOT content falls within the permissible value of not more than 0.3Â mg/l iron (Fe2+) concentration for drinking water recommended by the World Health Organisation (WHO) and Nigerian Industrial Standard (NIS). Based on strength criterion, an optimal 8% lime/8% IOT is recommended for treatment of black cotton soil for use as sub base material in the construction of low volume roads. The benefits of the application include reduction in the environmental impact of the disposal of iron ore tailings.
Related Topics
Physical Sciences and Engineering
Earth and Planetary Sciences
Geotechnical Engineering and Engineering Geology
Authors
R.K. Etim, A.O. Eberemu, K.J. Osinubi,