Abstract
This study investigated the geotechnical and microstructural properties of cement-treated laterites stabilized with rice husk ash and bamboo leaf ash. In going about the tests, the soil sample was subjected to compaction, California Bearing Ratio (CBR) and preliminary tests; such as specific gravity, particle size distribution and Atterbergs limits to determine its index properties. Thereafter, the soil sample was mixed with cement at varying proportions of 0–12% at 2% intervals and also, separately mixed with bamboo leaf ash (BLA) and rice husk ash (RHA) in proportions of 0–16% at 2% intervals. The mixes at each stage were subjected to compaction, Atterberg limits and CBR tests. The highest values were 66.7% and 54.8% for unsoaked and soaked CBR at 6% cement+8% BLA and 78.5% and 63.8% for unsoaked and soaked CBR at 8% cement+8% RHA. Samples at these optimal CBR values were subjected into Scanning Electron Microscopy (SEM) and X-Ray Diffraction (XRD) tests. Results showed that new compounds were formed and there were changes in the microstructural arrangements. It can therefore be concluded that pozzolanic and cement hydration reactions actually took place in the course of stabilization.
Highlights
According to Bello et al [1], soil stabilization is the treatment of soils to enable their strength and durability to be improved upon in such a way that they become adequately suitable for construction beyond their original capability
CaO is added as lime or cement, Al2O3 and SiO2 can be present in the material to develop cementation gels to be added as cement or, for example, with a pozzolan
It is in this process that the hydration of the CaO liberates OH− ions, which causes an increase pH values up to approximate 12.4. Under these conditions pozzolanic reactions occur: the Si and Al combine with the available Ca, resulting in cementitious compounds called Calcium Silicate Hydrates (CSH) and Calcium Aluminate Hydrates (CAH) [23, 24]
Summary
According to Bello et al [1], soil stabilization is the treatment of soils to enable their strength and durability to be improved upon in such a way that they become adequately suitable for construction beyond their original capability. The need for improvement in the strength and durability of lateritic soil in recent times cannot be overemphasized, this has motivated researchers towards using stabilizing materials that can be sourced locally at a very low cost [1]. These local materials can be categorised as either agricultural or industrial wastes [8]. CaO is added as lime or cement, Al2O3 and SiO2 can be present in the material to develop cementation gels to be added as cement or, for example, with a pozzolan It is in this process that the hydration of the CaO liberates OH− ions, which causes an increase pH values up to approximate 12.4.
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