Citas bibligráficas
Carrasco, S., Ccorahua, F. (2021). Mejoramiento en la resistencia a la compresión, flexión y tracción del concreto con agregado grueso reciclado, agregado fino natural y vidrio triturado para viviendas unifamiliares en lima metropolitana [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/657843
Carrasco, S., Ccorahua, F. Mejoramiento en la resistencia a la compresión, flexión y tracción del concreto con agregado grueso reciclado, agregado fino natural y vidrio triturado para viviendas unifamiliares en lima metropolitana [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2021. http://hdl.handle.net/10757/657843
@misc{renati/397562,
title = "Mejoramiento en la resistencia a la compresión, flexión y tracción del concreto con agregado grueso reciclado, agregado fino natural y vidrio triturado para viviendas unifamiliares en lima metropolitana",
author = "Ccorahua Espinoza, Fiorela Ytala",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2021"
}
In recent years there is an increasingly growing demand for infrastructure; Currently in Peru the construction sector has been in constant growth; However, it is one of the most polluting due to the manufacture of concrete and its components, since the concrete industry is responsible for the extraction of non-renewable resources; concrete being the fundamental material for the different types of projects under development. Faced with this environment, the use of demolition waste is proposed as a sustainable alternative, that is, coarse aggregate of recycled concrete to replace the natural coarse aggregate; However, in previous research, its replacement shows a decrease in compressive and flexural strength of 10% -25% and 23.7%, respectively. For this reason, the crushed glass from the recycling of colorless bottles was selected since it is an eco-friendly material and features that contribute to the strength of the concrete. Consequently, the use of these recycled aggregates is proposed in total and partial replacement of the coarse and fine aggregate respectively. The results of these tests indicated an increase in the mechanical properties of the concrete and the optimum percentage of replacement of crushed glass is 20%, where an increase of 12.33% in Compressive Strength, 17.19% in Resistance to Compression was obtained. flexion and 1.98% in tensile strength.
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