Bibliographic citations
Sanchez, J., Eulogio, I. (2024). Diseño de combinación de concreto f’c=210 kg/cm2 mejorado con partículas cerámicas Mohs 6 sustituyendo el agregado grueso para mejorar la resistencia a la compresión y flexión en Lima metropolitana [Trabajo de Suficiencia Profesional, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/674138
Sanchez, J., Eulogio, I. Diseño de combinación de concreto f’c=210 kg/cm2 mejorado con partículas cerámicas Mohs 6 sustituyendo el agregado grueso para mejorar la resistencia a la compresión y flexión en Lima metropolitana [Trabajo de Suficiencia Profesional]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2024. http://hdl.handle.net/10757/674138
@misc{renati/418600,
title = "Diseño de combinación de concreto f’c=210 kg/cm2 mejorado con partículas cerámicas Mohs 6 sustituyendo el agregado grueso para mejorar la resistencia a la compresión y flexión en Lima metropolitana",
author = "Eulogio Campo, Irwin Adolfo",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2024"
}
The present study of work of professional sufficiency presented was elaborated through an investigation that has the objective of evaluating and comparing the mechanical behavior of the resistance to compression and flexion of a conventional concrete of f'c 210 Kg/cm2 as well as the design of concrete made plus the addition of Mohs 6 ceramic residues through the percentage replacement of coarse aggregate. Four concrete mixes were made with replacement designs at 5%, 10% and 15%, in addition, in order to verify the research, 9 specimens of 4x8“ of each percentage replacement were made, which were evaluated by means of tests applying compression and flexural rupture at the age of 7, 14 and 28 days, being 3 samples of each percentage. As a final result of the evaluation, it was obtained that the replaced percentages of the coarse aggregate all comply with reaching the design f'c, being the 5% proportion that from the age of 7 days already exceeds the value of f'c 210 Kg/cm2, on the flexural strength the replacement proportions at 5 and 10% improve the resistance of the modulus of rupture exceeding the maximum of the mix design obtaining values above the f'c 42 Kg/cm2.
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