Bibliographic citations
Rey, E., (2018). Propiedades físico – mecánicas de adoquines con polipropileno y caucho al 10% y 15% de reemplazo del agregado grueso, para su utilización en tránsito liviano en pavimentos articulados [Tesis, Universidad Privada del Norte]. https://hdl.handle.net/11537/13848
Rey, E., Propiedades físico – mecánicas de adoquines con polipropileno y caucho al 10% y 15% de reemplazo del agregado grueso, para su utilización en tránsito liviano en pavimentos articulados [Tesis]. PE: Universidad Privada del Norte; 2018. https://hdl.handle.net/11537/13848
@misc{sunedu/3005412,
title = "Propiedades físico – mecánicas de adoquines con polipropileno y caucho al 10% y 15% de reemplazo del agregado grueso, para su utilización en tránsito liviano en pavimentos articulados",
author = "Rey Angulo, Erick Daniel",
publisher = "Universidad Privada del Norte",
year = "2018"
}
This thesis project consists in the comparison of the physical-mechanical properties of paving stones made with the replacement of its coarse aggregate at 10% and 15% polypropylene and rubber, being a possible solution for plastic waste and disused tires in the city of Cajamarca First, the necessary tests of the aggregates were carried out for the design according to NTP 399.604, which was used for the elaboration of the paving stones, then the mixing design to be used for the paving stones was carried out, therefore the three types of paving stones were elaborated: conventional, with replacement of 10% and 15% of the volume of the coarse aggregate with polypropylene and with rubber, to then submit them to the tests, where the resistance to compression, resistance to flexion and absorption was evaluated. Then the results obtained showed that the properties of the paving stone with 10% polypropylene surpass in 5.84% the properties established in the NTP. 399,611 and both of the paving stones with 15% polypropylene and 10% rubber, have similar properties to type II pavers according to NTP 399,611, while with 15% rubber replacement their properties are reduced by 11.47%. In conclusion The physical-mechanical properties of paving stones with 10% polypropylene are better than conventional pavers. While paving stones with 15% polypropylene with 10% rubber pavers are similar to that of conventional pavers, it was determined that 10% rubber pavers do not comply with the properties established in the standard.
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