Bibliographic citations
Chirinos, A., Moreno, C. (2024). Propuesta de concreto f’c = 210 kg/cm2 para columnas en edificaciones multifamiliares añadiendo polvo de ladrillo de arcilla como reemplazo del cemento para reducir la contaminación de su fabricación, Lima Metropolitana, Lima [Trabajo de Suficiencia Profesional, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/674259
Chirinos, A., Moreno, C. Propuesta de concreto f’c = 210 kg/cm2 para columnas en edificaciones multifamiliares añadiendo polvo de ladrillo de arcilla como reemplazo del cemento para reducir la contaminación de su fabricación, Lima Metropolitana, Lima [Trabajo de Suficiencia Profesional]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2024. http://hdl.handle.net/10757/674259
@misc{renati/418776,
title = "Propuesta de concreto f’c = 210 kg/cm2 para columnas en edificaciones multifamiliares añadiendo polvo de ladrillo de arcilla como reemplazo del cemento para reducir la contaminación de su fabricación, Lima Metropolitana, Lima",
author = "Moreno Cuadros, Carlos Martin",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2024"
}
The present investigation contemplates the replacement of cement in the concrete used in building columns in Metropolitan Lima, given the atmospheric pollution it generates at the time of its production and its growth over the years. It was evaluated with a compressive strength of 210kg/cm2, as well as its results in indirect traction and bending tests on beams; adding clay brick dust (PLA) as a percentage replacement to the cement. With this, 4 concrete mixtures were designed: Concrete with a master mix with 0% PLA and concrete mixtures adding 4%, 6% and 8% PLA. Once the mixtures were generated, results were obtained at 7, 14 and 28 days of curing in which, at 28 days of curing, values of 227.67 kg/cm2, 219.67 kg/cm2, 209.33 kg/cm2 and 201 kg were obtained. /cm2 for the pattern mixtures, 4%, 6% and 8% respectively. With respect to the indirect traction tests, values of 25.50 kg/cm2, 25.07 kg/cm2, 24.77 kg/cm2 and 22.87 kg/cm2 were obtained respectively. Similarly, with the bending tests on beams they obtained values of 37.83 kg/cm2, 35.37 kg/cm2, 33.30 kg/cm2 and 30.97kg/cm2 respectively. Concluding that, as the % of PLA replaced in cement is increased, lower resistance is achieved in the 3 tests, but permissible up to a % of PLA replaced of 4% and having a significant impact on cement savings, therefore, a reduction in the emission of 18 kg of COeq/m3 of concrete.
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