Abstract
Ground investigation is a prerequisite for any construction work that ultimately transfers its loads to the earth. Geotechnical investigation eliminates the uncertainties of ground conditions and can be planned for and considered accordingly during actual design and construction. In Kenya, ground investigation is not given the weight it deserves since most players in the sector use their experience and physical inspection to judge on the soil conditions. This is however very risky especially for high-rise buildings. Moi University, the case study, is one of the institutions that has in its plan, a series of construction developments. This study aimed at investigating, determining and mapping of index properties and bearing capacity of subsurface soil. Direct shear box and tri-axial tests results were used to map soil bearing capacity by geospatial interpolation within geographical information system platform (GIS). 9 trial pits mapped by triangulation and visual inspection were excavated and soil samples obtained at a depth of up to 3 m. The soil samples were tested for soil index and engineering properties and classified using the USCS approach. A relationship between tri-axial and direct shear box test results was developed by correlating soil bearing capacity results from the two tests. This paper provides a thematic map of the bearing capacity for the study area derived from spatial interpolation. Four geospatial interpolation methods namely; Ordinary Kriging (OK), spline, Natural Neighbour (NN) and Inverse Distance Weighting (IDW) were used. In this paper, the most suitable method for interpolating the soil bearing capacity of the four methods is provided. Six of nine sample test results were used for interpolation and the other three used for validation and error correction. Ordinary Kriging generated satisfactory results for soil bearing capacity for the study area with a relative error of 2.23 % and R 2 of 0.9993. From the safe bearing capacity map, the ground conditions of the study area varied gradually with the bearing capacity ranging from to . Generally, the amount of clay in the soil within the area affected to a large extent, the soil bearing capacity. Keywords: Soil bearing capacity, Geospatial interpolation, Deterministic interpolation, correlation. DOI: 10.7176/CER/12-7-05 Publication date: July 31 st 2020
Highlights
Uncertainties of the subsurface soil within an area or region earmarked for construction development can vary remarkably
This study aims at improving ground investigation by applying geospatial interpolation within Geographical Information System (GIS) platform in an expansive remote area of Moi University where structures and construction developments are planned with particular interest in mapping of index properties and bearing capacity of subsurface soil
The main aim of this study was to investigate, determine and map the index properties and soil bearing capacity of the sub-surface soil for Moi University, Kenya, for the purposes of guiding the design of foundations of structures planned to be constructed in future
Summary
Uncertainties of the subsurface soil within an area or region earmarked for construction development can vary remarkably. The heterogeneity of soil conditions necessitates ground investigations. This depends mainly on the magnitude of the structure to be built. Geotechnical investigation brings into clarity the uncertainties underlying the ground surface before construction. Where inadequate ground investigation is carried out, unforeseen construction challenges are always stumbled upon at the excavation stage and during foundation construction or in the worst case, it can lead to total failure of the structure. This study aims at improving ground investigation by applying geospatial interpolation within Geographical Information System (GIS) platform in an expansive remote area of Moi University where structures and construction developments are planned with particular interest in mapping of index properties and bearing capacity of subsurface soil
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