Estudio para determinar la capacidad portante del suelo como parámetro geotécnico, aplicando el ensayo de cono dinámico de penetración (DCP), en los terrenos aledaños a la Facultad de Ciencias Matemáticas Físicas y Químicas
DOI:
https://doi.org/10.33936/riemat.v4i2.2193Keywords:
California Support Value (CBR), Dynamic Standard Penetration Cone (DCP), Resilient Module, Test, Subgrade, Pavement.Abstract
The present investigation is based on the development of a study that determines the soil bearing capacity as a geotechnical parameter, applying the DCP penetration dynamic cone test, in the adjacent areas to the Faculty of Mathematical, Physical and Chemical Sciences. The values obtained from the DCP index correlated with experimental formulas allowed obtaining the soil bearing capacity, also establishing parameters such as grain size, humidity, compaction, Atterberg limits, resilient module regulated by the AASTHO, subsequently characterizing the different samples from the results obtained in the soil mechanics laboratory. When defining the results obtained in the investigation, parameters were determined that detail the composition of the soil at the study site, in which a CBR was obtained categorizing it as “poor to regulate” in terms of the quality of the subgrade. Furthermore, the texture of the material was classified as silt soils from low to high plasticity. Thus, it is proposed to use the information obtained in the investigation for the projection of future civil works that contribute to the integral development of this alma mater. Index Terms- California Support Value (CBR), Dynamic Standard Penetration Cone (DCP), Resilient Module, Test, Subgrade, Pavement.Downloads
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References
ASTMD6951M-09. (2009). Standard Test Method for Use of the Dynamic Cone Penetrometer in Shallow Pavement Applications. American Society for Testing and Materials, 04, 03 - (2009).
KLEYN, E. G. . (1975). The Use of the Dynamic Cone Penetrometer (DCP). Report 2/74, Transvaal Roads Department, Pretoria, South Africa, july, p. 35. .
LIVNEH, M., and ISHAI, I. (1987). Pavement and Material Evaluation by a Dynamic Cone. SIXTH INTERNATIONAL CONFERENCE ON THE STRUCTURAL, Vol 1, p. 665-674.
SCALA, A. J. (1956). Simple Methods of Flexible Pavement Design Using Cone. PROCEEDINGS OF THE SECOND AUSTRALIAN SOIL MECHANICSCONFERENCE, New Zealand, New Zealand Engineer, Vol 11 No.2, pp. 34-44. .
SIERRA, J. D. (2016). Validación Del Método De Dcp Aplicado En Campo En Relación Al Ensayo Cbr En Laboratorio. 14th LACCEI International Multi-Conference for Engineering, Education, and Technology “Engineering Innovations for Global Sustainability”.
TIPÁN, C. O. (2002). Estudio experimental del penetrómetro dinámico de cono DCP y su aplicación en la exploración y muestreo de suelos para diseño de cimentaciones. Bachelor's thesis, QUITO/PUCE/2002.
TUPIA CÓRDOVA, C. A. (2001). Determinación de las características de soporte de un terreno de cimentación de un pavimento por medio de un equipo dinámico.
ZUMRAWI, M. M. (2014). Prediction of in-situ CBR of subgrade cohesive soils from dynamic cone penetrometer and soil properties. International Journal of Engineering and Technology, 6(5), 439.
FRATESCHI, A., FRANCISCA, F. M., BOLLANO, L., DEGOY, A., & TANCO, A. (2001). Aplicaciòn del dcp en el control de subrasantes y terraplenes.
KLEYN, E. G. . (1975). The Use of the Dynamic Cone Penetrometer (DCP). Report 2/74, Transvaal Roads Department, Pretoria, South Africa, july, p. 35. .
LIVNEH, M., and ISHAI, I. (1987). Pavement and Material Evaluation by a Dynamic Cone. SIXTH INTERNATIONAL CONFERENCE ON THE STRUCTURAL, Vol 1, p. 665-674.
SCALA, A. J. (1956). Simple Methods of Flexible Pavement Design Using Cone. PROCEEDINGS OF THE SECOND AUSTRALIAN SOIL MECHANICSCONFERENCE, New Zealand, New Zealand Engineer, Vol 11 No.2, pp. 34-44. .
SIERRA, J. D. (2016). Validación Del Método De Dcp Aplicado En Campo En Relación Al Ensayo Cbr En Laboratorio. 14th LACCEI International Multi-Conference for Engineering, Education, and Technology “Engineering Innovations for Global Sustainability”.
TIPÁN, C. O. (2002). Estudio experimental del penetrómetro dinámico de cono DCP y su aplicación en la exploración y muestreo de suelos para diseño de cimentaciones. Bachelor's thesis, QUITO/PUCE/2002.
TUPIA CÓRDOVA, C. A. (2001). Determinación de las características de soporte de un terreno de cimentación de un pavimento por medio de un equipo dinámico.
ZUMRAWI, M. M. (2014). Prediction of in-situ CBR of subgrade cohesive soils from dynamic cone penetrometer and soil properties. International Journal of Engineering and Technology, 6(5), 439.
FRATESCHI, A., FRANCISCA, F. M., BOLLANO, L., DEGOY, A., & TANCO, A. (2001). Aplicaciòn del dcp en el control de subrasantes y terraplenes.
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2020-01-09
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