Bibliographic citations
Mujica, A., Taboada, P. (2023). Análisis comparativo de la influencia al incorporar 1% de fibras de vidrio, polipropileno y acero en la resistencia a la compresión de concreto f'c=210 kg/cm² elaborado con cemento tipo he en la ciudad de Cusco 2022 [Universidad Andina del Cusco]. https://hdl.handle.net/20.500.12557/5937
Mujica, A., Taboada, P. Análisis comparativo de la influencia al incorporar 1% de fibras de vidrio, polipropileno y acero en la resistencia a la compresión de concreto f'c=210 kg/cm² elaborado con cemento tipo he en la ciudad de Cusco 2022 []. PE: Universidad Andina del Cusco; 2023. https://hdl.handle.net/20.500.12557/5937
@misc{renati/1123441,
title = "Análisis comparativo de la influencia al incorporar 1% de fibras de vidrio, polipropileno y acero en la resistencia a la compresión de concreto f'c=210 kg/cm² elaborado con cemento tipo he en la ciudad de Cusco 2022",
author = "Taboada Ore, Paolo Cesar",
publisher = "Universidad Andina del Cusco",
year = "2023"
}
In the thesis carried out, the differences in the mechanical properties of conventional concrete samples compared with additions of glass fibers, polypropylene and metal added to 1% of the volume of the matrix of concrete made with HE type cement were compared in order to determine the better use of these for the usual structural elements in the city of Cusco. The research was carried out in a quantitative, descriptive and correlational way, with the aim of knowing the behavior of each of the samples and seeking to improve their resistance to compression. Among the results obtained for the concrete added with fiberglass, it was observed that they exceeded the estimated resistance, with an average of 209.63 Kg/cm² (7 days old) and 254.02 Kg/cm² (28 days old), for the addition with metal fibers was 194.26 Kg/cm² (7 days old) and 237.87 Kg/cm² (28 days old) for the addition with polypropylene fiber was 219.44 (7 days old) and 259.57 (28 days old). days old). Therefore, it is observed that for the 1% alloy based on the volume of the concrete matrix, the compressive strength of the concrete at 7 days of age improved an average of 12.72% (fiberglass), improved a average of 02.27% (metal fiber) and improved an average of 20.32% (polypropylene fiber) compared to the conventional standard concrete, and for an age of 28 days old improved an average of 15.02% (fiberglass), improved an average of 07.71% (metal fiber) and improved an average of 17.54% (polypropylene fiber) compared to the conventional concrete pattern.
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