Citas bibligráficas
Benavente, E., Navarro, M. (2020). Estudio experimental del comportamiento mecánico-geotécnico de un suelo granular con adición de caucho reciclado proveniente de neumáticos inservibles [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/650334
Benavente, E., Navarro, M. Estudio experimental del comportamiento mecánico-geotécnico de un suelo granular con adición de caucho reciclado proveniente de neumáticos inservibles [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2020. http://hdl.handle.net/10757/650334
@misc{renati/389307,
title = "Estudio experimental del comportamiento mecánico-geotécnico de un suelo granular con adición de caucho reciclado proveniente de neumáticos inservibles",
author = "Navarro Cárdenas, Mauricio Enrique",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2020"
}
The reuse of discarded tires can reduce the great environmental problem associated with their inadequate final disposal. One way is its addition in compacted soils that can provide solutions to mechanical-geotechnical problems related to its low cut resistance. This study presents the behavior of a silty sand reinforced with grated rubber from unusable tires, through an experimental study. Physical characterization tests, Proctor Standard, direct cutting and consolidated triaxial undrained (CU) were carried out in order to establish patterns of mechanical behavior that define the influence of the addition of grated rubber in this soil. The triaxial and direct cut CU tests were performed on compacted soil samples at their maximum dry density and optimum humidity. The specimens tested in the direct cut were made with rubber contents of 0%, 5%, 10%, 15% and 20%, in relation to the dry weight of the soil. On the other hand, the triaxial test was carried out with specimens with grated rubber content of 0% and 5%. The results showed that the cut resistance increased in the samples with 5%, 10% and 15% of rubber addition with respect to natural soil and that the insertion is more effective for confinement stresses greater than 50 kPa.
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