Bibliographic citations
Herencia, S., (2024). Influencia en la capacidad de soporte al adicionar 2%, 4% y 6% de nanotecnología(terrasil) en la sub rasante de la vía urbana asociación de tejas y ladrillos Sucso Aucaylle - San Jerónimo [Universidad Andina del Cusco]. https://hdl.handle.net/20.500.12557/7066
Herencia, S., Influencia en la capacidad de soporte al adicionar 2%, 4% y 6% de nanotecnología(terrasil) en la sub rasante de la vía urbana asociación de tejas y ladrillos Sucso Aucaylle - San Jerónimo []. PE: Universidad Andina del Cusco; 2024. https://hdl.handle.net/20.500.12557/7066
@misc{renati/1123960,
title = "Influencia en la capacidad de soporte al adicionar 2%, 4% y 6% de nanotecnología(terrasil) en la sub rasante de la vía urbana asociación de tejas y ladrillos Sucso Aucaylle - San Jerónimo",
author = "Herencia Aguilar, Sayda",
publisher = "Universidad Andina del Cusco",
year = "2024"
}
The present research evaluates the influence of nanotechnology, specifically Terrasil, on the support capacity of natural soil. Terrasil is a next-generation additive composed of 100% organosilanes, which has been shown to have the potential to significantly increase the CBR (California Bearing Ratio) value of the soil. To carry out this study, standardized tests were carried out that included soil classification, determination of moisture content, liquid and plastic limits, as well as the modified Proctor test. In addition, special tests were carried out to determine the CBR, all following the Peruvian Technical Standards and the Test Manual of the Ministry of Transportation and Communications (MTC). The study included the construction of four pits, where the effect of adding 2%, 4% and 6% of Terrasil in each drilling was evaluated. The evaluation of the results obtained from the analyzed soils indicates an increase in the support capacity of the soil as the percentage of Terrasil added increases. This increase is notable depending on the plasticity indices of the soils in question. As a result, soils treated with Terrasil are classified as good to very good quality subgrades, suggesting significant potential for use in infrastructure projects. This innovative approach not only improves the mechanical properties of soil, but also highlights the importance of nanotechnology in contemporary civil engineering, opening new opportunities for the improvement of soil performance in various applications.
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