Citas bibligráficas
Obando, E., Machuca, M. (2023). Diseño y evaluación de un concreto f´c= 210 kg/cm2 usando áridos reciclados y polvo residual de aserrín para viviendas económicas en Pachacamac (Manchay) [Trabajo de Suficiencia Profesional, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/671786
Obando, E., Machuca, M. Diseño y evaluación de un concreto f´c= 210 kg/cm2 usando áridos reciclados y polvo residual de aserrín para viviendas económicas en Pachacamac (Manchay) [Trabajo de Suficiencia Profesional]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2023. http://hdl.handle.net/10757/671786
@misc{renati/413295,
title = "Diseño y evaluación de un concreto f´c= 210 kg/cm2 usando áridos reciclados y polvo residual de aserrín para viviendas económicas en Pachacamac (Manchay)",
author = "Machuca Lobaton, Maria Jose",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2023"
}
The research proves the advantages of recycled aggregate and sawdust as a material to create concrete. The use of recycled aggregates reduces the amount of waste and promotes the recycling of waste, thus avoiding accumulation and contamination. In addition, the use of this waste and dust contributes to significantly reduce the extraction of natural resources and helps to reduce the amount of carbon footprint per construction site. In this research the recycled aggregate will be studied, as material extracted, cleaned and processed in recycling plants, in addition to the sawdust extracted from sawmills in order to take it to the laboratory where the tests will be carried out with different dosages and when compared with the standard concrete, the resistance of the new concrete with recycled aggregates and sawdust can be determined, giving veracity to the central hypothesis of the research which is to achieve a resistance greater or equal to 210 kg/cm2 , resistance allowed in Peru for construction works. Compression and tensile tests were elementary to measure the strength of concrete specimens with recycled aggregate and sawdust powders, air content and permeability, among other properties, were also studied. These data obtained in the laboratory were elementary to compare with the properties of conventional concrete. In conclusion, by using recycled aggregates and residual sawdust dust for the elaboration of concrete for any construction work, we reduce costs and do not harm the strength of the concrete, since this study will prove that it meets the specifications to build a quality and safe house, thus contributing to a sustainable development of waste in our country.
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