Bibliographic citations
Castillejo, M., Lozada, J. (2021). Determinación de la concentración de arsénico en la mezcla de Silikabor road y material agregado en carreteras afirmadas, para no superar el eca de suelo – Arequipa 2019 [Universidad Tecnológica del Perú]. https://hdl.handle.net/20.500.12867/4285
Castillejo, M., Lozada, J. Determinación de la concentración de arsénico en la mezcla de Silikabor road y material agregado en carreteras afirmadas, para no superar el eca de suelo – Arequipa 2019 []. PE: Universidad Tecnológica del Perú; 2021. https://hdl.handle.net/20.500.12867/4285
@misc{renati/805223,
title = "Determinación de la concentración de arsénico en la mezcla de Silikabor road y material agregado en carreteras afirmadas, para no superar el eca de suelo – Arequipa 2019",
author = "Lozada Rosas, Jesus Andre",
publisher = "Universidad Tecnológica del Perú",
year = "2021"
}
The problem is the Arsenic content in the Silikabor Road that exceeds the Eca of the soil, and we want to use this material to build affirmed roads and thus contribute to improving the road networks under development. At the national level there are 48% of roads that are not paved, they need periodic maintenance. The objective was to determine the concentration of Arsenic in the Silikabor Road mixture and material added in affirmed roads so as not to exceed the Eca of the soil. The method used was Inductive, because from the particular characteristics of Silikabor Road we came to determine the general properties as a soil stabilizer. The research approach was mixed, quantitative by the determinations of the Silikabor Road characteristics and qualitative by the descriptions during use. The Silikabor Road is mainly made up of 74% of the sulfate family, the content of 89.2 ppm of Arsenic is high, but the contribution of Arsenic in the affirmed folder built is close to 18 ppm, lower than the maximum values of the ECAs of the ground. We conclude that the determination of Arsenic in the Silikabor Road mixture and Aggregate Material allows not to exceed the ECA of the soil and has served to develop a new material for affirmed roads, in our case the ratio of the mixture 20% of Silikabor Road with 80% The vi aggregate material complies with the EG-213 standard and the proctor obtained with the 58% CBR complies with paved roads.
This item is licensed under a Creative Commons License