Abstract
Accurate determination of allowable bearing capacity of soil is key to geotechnical foundations design so as to prevent collapse of structures built on them. Allowable bearing capacity of the study location has been determined by shear wave velocity approach. The seismic data used in this study are the in-situ shear and compressional wave velocities values measured by a 12-channel signal enhancement seismograph. Three layers were detected by the method. Empirical formulations and mathematical relationship between seismic velocities and elastic parameters were used to evaluate the allowable bearing capacity and other parameters presented in Table 1. Results show that allowable bearing capacity for layer 1 ranges from 123.56 to 173.54kN/m2. Layer 2 ranges from 233.24 to 377.62kN/m2, while layer 3 ranges from 437.62 – 616kN/m2. It was observed that allowable bearing capacity increases with depth – a 13% difference between layers 1 and 2 while between layer 2 and 3 there is a 22% difference. By comparison, the allowable bearing capacities evaluated in this study are in agreement with empirical values of allowable bearing capacity of soils proposed by other scholars. Findings show the study location is suitable for geotechnical foundation designs.Keywords: Ayila, Shear wave velocity, Allowable bearing capacity, Coefficient of subgrade reaction
Highlights
In the light of above, this study is focused on evaluation of allowable bearing capacity, unit weight, elastic modulus, bulk modulus, and coefficient of subgrade reaction of Ayila, SouthWest Nigeria using P-wave and S-wave velocities approach to ascertain its suitability for geotechnical foundations design
The seismic data are the in-situ values measured on the field using a 12-channel seismic enhancement seismograph, while the elastic parameters are calculated using Equations 1 to 14
Comparing the magnitude of deformation constants with their respective layer’s allowable bearing capacity, layer 3 being the layer with the lowest deformation constant has the greatest allowable bearing capacity when compared to layers 1 and 2
Summary
In the light of above, this study is focused on evaluation of allowable bearing capacity, unit weight, elastic modulus, bulk modulus, and coefficient of subgrade reaction of Ayila, SouthWest Nigeria using P-wave and S-wave velocities approach to ascertain its suitability for geotechnical foundations design. Three layers were detected by the method, and the value of seismic wave velocities determined is adopted for the determination of geotechnical parameters in this study.
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