Caracterización geotécnica de la formación Mangán, mediante métodos geofísicos

Abstract

The variety of structures built by civil engineers are supported by the ground, generating stresses towards the geomaterials below the foundations. Within the design criteria established in the Ecuadorian Construction Policy 2015 (NEC-15), it must be ensured that the induced strain does not cause excessive deformation or failure on the ground or foundations. Therefore, it is essential to know the material properties that define its deformability and resistance, in order to elaborate a correct design for any type of infrastructure.

In recent years, geophysical methods have been introduced in Ecuador, and have contributed to the geological-geotechnical interpretation of soil profiles, the establishment of soil properties through correlations, and consequently in the execution of geotechnical studies. However, limited research to verify the validity of the correlations between the results of the geophysical test, and the geotechnical parameters used in practice for geotechnical designs, has been carried out. Through the use of geophysical prospecting with multichannel surface wave analysis (MSWA), refraction seismic and conventional laboratory essays, such as direct shear and triaxial compression tests, this project achieved the geotechnical characterization of stratigraphic horizons of low depth in the Mangan formation of the city of Cuenca, which are located within the depth of stresses transmission in shallow foundations. The results obtained after the application of these methods were contrasted to analyze the correlation between the geotechnical parameters obtained with direct methods, and the ratio between the compression and shear wave velocities.