Bibliographic citations
Medina, D., (2020). Influencia de diferentes porcentajes de tiras de plástico en la permeabilidad, resistencia a la compresión y flexión del concreto permeable y su aplicación como pavimento rígido, Trujillo 2019 [Tesis, Universidad Privada del Norte]. https://hdl.handle.net/11537/23973
Medina, D., Influencia de diferentes porcentajes de tiras de plástico en la permeabilidad, resistencia a la compresión y flexión del concreto permeable y su aplicación como pavimento rígido, Trujillo 2019 [Tesis]. PE: Universidad Privada del Norte; 2020. https://hdl.handle.net/11537/23973
@misc{sunedu/4116845,
title = "Influencia de diferentes porcentajes de tiras de plástico en la permeabilidad, resistencia a la compresión y flexión del concreto permeable y su aplicación como pavimento rígido, Trujillo 2019",
author = "Medina Torres, Dín Enaí",
publisher = "Universidad Privada del Norte",
year = "2020"
}
The present investigation was carried out in Trujillo, at the Universidad Privada del Norte, the influence of the different percentages of plastic strips on the permeability, compressive strength and bending of the pervious concrete was determined, for the realization of the thesis an experimental, quasi-experimental design was used, sampling was simple probabilistic, for the data collection the observation technique was performed, the instrument used was the observation guide, to analyze the data the statistical inference was used, the problem is that the little resistance of permeable concrete limits its application as a rigid pavement and in the face of urban growth, it generates that the natural aquifers do not recharge, likewise there is great contamination with plastics, as they are not recycled, it was possible to determine the influence of the plastic strips on the permeability, compressive strength and bending of pervious concrete and found that the resistance to compression incorporation of 0.10%, increase in 17.09%; from 185.40 kg/cm2 to 217.09 kg/cm2 and the flexural strength increases by 49.81%; from 34.69 kg/cm2 to 51.97 kg/cm2, the permeability affected in all the percentages incorporated, at 0.10% shows a decrease of 19.83%.
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