Bibliographic citations
Chuquizuta, K., Nieves, C. (2023). Análisis de la resistencia a la compresión, flexión y trabajabilidad en un concreto tradicional f’c=210 kg/cm2 con adición de fibras de panca de pacay al 2%, 4% y 6%, Lima Norte 2021 [Tesis, Universidad Privada del Norte]. https://hdl.handle.net/11537/35081
Chuquizuta, K., Nieves, C. Análisis de la resistencia a la compresión, flexión y trabajabilidad en un concreto tradicional f’c=210 kg/cm2 con adición de fibras de panca de pacay al 2%, 4% y 6%, Lima Norte 2021 [Tesis]. PE: Universidad Privada del Norte; 2023. https://hdl.handle.net/11537/35081
@misc{renati/522048,
title = "Análisis de la resistencia a la compresión, flexión y trabajabilidad en un concreto tradicional f’c=210 kg/cm2 con adición de fibras de panca de pacay al 2%, 4% y 6%, Lima Norte 2021",
author = "Nieves Acevedo, Christian Roberto",
publisher = "Universidad Privada del Norte",
year = "2023"
}
The following investigation is focused on the comparative analysis of a traditional concrete with a concrete added with 2%, 4% and 6% panca de pacay fibers, in order to help the environment in its conservation and at the same time improve the properties of concrete or concrete, it seeks to use alternative materials that are designated as waste or non-polluting waste. It seeks to analyze the forces of compression, flexion and workability of traditional concrete added with 2%, 4% and 6% panca de pacay fibers for the elaboration of the mixture designs, 2.5 cm long panca de pacay fibers were used. per 3mm thickness based on the weight of the cement. And after that, a comparison was made with the mechanical properties of traditional concrete. The research method was of a quantitative approach since it emphasizes the collection of numerical data, the summary of these data and the derivation of inferences. As results, when determining the compressive strength, bending of traditional concrete f'c= 210 kg/cm2 with the addition of 2%, 4% and 6% panca de pacay fiber; It is concluded, with a significance level of 5% than the traditional design, and it is significantly more technically efficient than traditional concrete, with 4% and 6% being the most significant, on the other hand, the opposite occurs with respect to the workability, we can conclude with a significance level of 5%, that the traditional design with the 2% specimen has a significantly more efficient effect with respect to the 4% and 6% specimens.
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