Bibliographic citations
Espinoza, A., Jimenez, B. (2020). Estudio comparativo de las propiedades técnicas de tres mezclas de concreto empleando materiales reciclados como el POC y caucho en reemplazo parcial de la arena en la ciudad de Pucallpa [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/652533
Espinoza, A., Jimenez, B. Estudio comparativo de las propiedades técnicas de tres mezclas de concreto empleando materiales reciclados como el POC y caucho en reemplazo parcial de la arena en la ciudad de Pucallpa [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2020. http://hdl.handle.net/10757/652533
@misc{renati/391034,
title = "Estudio comparativo de las propiedades técnicas de tres mezclas de concreto empleando materiales reciclados como el POC y caucho en reemplazo parcial de la arena en la ciudad de Pucallpa",
author = "Jimenez Guerrero, Benji Boris",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2020"
}
Currently, the construction sector is one of the most polluting sectors worldwide, it is considered one of the maximum contributors of carbon emissions. In this industry, materials such as cement and steel are used, whose elements are considered as materials with high energy incorporated. The manufacture of these materials has a considerable CO2 impact; Cement alone represents 5% of CO2 emissions worldwide. Also, the concrete industry is responsible for the indiscriminate extraction of non-renewable resources such as water and aggregates, sand and stone, coming from quarries, gravel, rock, etc. The purpose of this thesis is the comparative analysis of the technical properties of concrete mixtures made from recycled aggregates and / or by-products from industries such as Palm Oil Clinker (POC) and rubber; in order to reduce the indiscriminate extraction of aggregates from quarries that are used by the concrete industry. Also, reduce the amount of CO2 that is produced by the extraction of these aggregates as they are highly polluting for the environment. The work of our research is based on performing 156 test specimens with recycled aggregates in the concrete mixture giving different structural benefits such as increased flexion, compression and traction. It is presented as a feasible project that proposes an eco-friendly alternative to counteract the negative environmental impact caused by the concrete industry through a comparative study of three concrete mixtures using recycled materials such as POC and rubber in partial sand replacement.
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