Bibliographic citations
Saldaña, W., Celis, Y. (2022). Innovación tecnológica para estabilización de suelo en el camino vecinal tramo EMP. PE- 5N10 – Buenos Aires – San Antonio de Paujilzapa – el Mirador – Picota – San Martín [Tesis, Universidad Científica del Perú]. http://hdl.handle.net/20.500.14503/1989
Saldaña, W., Celis, Y. Innovación tecnológica para estabilización de suelo en el camino vecinal tramo EMP. PE- 5N10 – Buenos Aires – San Antonio de Paujilzapa – el Mirador – Picota – San Martín [Tesis]. PE: Universidad Científica del Perú; 2022. http://hdl.handle.net/20.500.14503/1989
@misc{renati/1038755,
title = "Innovación tecnológica para estabilización de suelo en el camino vecinal tramo EMP. PE- 5N10 – Buenos Aires – San Antonio de Paujilzapa – el Mirador – Picota – San Martín",
author = "Celis Oblitas, Yeni Judith",
publisher = "Universidad Científica del Perú",
year = "2022"
}
This research seeks to improve the physical-mechanical properties of the material placed on the local road SECTION EMP.PE-5N10 - BUENOS AIRES - SAN ANTONIO DE PAUJILZAPA - EL MIRADOR - PICOTA - SAN MARTIN, adding an ionizing additive called (CONSOLID). The influence of an additive based on organic enzymes that is used as a possible improver of soil stability was evaluated and would allow to increase the resistance of floors placed with affirmed material. The research level is experimental, because it aims to determine the causal relationship that exists between the study variables; The study population is considering the neighborhood road section EMP.PE-5N10 - Buenos Aires - San Antonio de Paujilzapa - El Mirador, with an approximate distance of 22 + 200 KM, for which the sample of the critical section was taken according to the typology of the terrain and the topography of the same, having as a study section from km 12 + 600 to km 22 + 200, since this section is the most critical and adheres to the objective of this thesis. For the development of the research work, laboratory tests were carried out adding CONSOLID chemical additive at 15%, 30%, 45% and 60% to determine the plasticity of the soil, the degree of compaction, and the CBR bearing capacity. Thus, achieving to demonstrate that by increasing the ionic additive to the quarry material, increases in the degree of compaction of said material were obtained, it was also shown that the CBR support capacity is increased by 244.35% when adding 60% of CONSOLID additive.
This item is licensed under a Creative Commons License