Bibliographic citations
Goñas, M., Arevalo, E. (2023). Influencia de la incorporación de la fibra PET reciclado en las propiedades mecánicas del adobe, Región San Martín 2022 [Universidad Nacional de San Martín. Fondo Editorial]. http://hdl.handle.net/11458/5042
Goñas, M., Arevalo, E. Influencia de la incorporación de la fibra PET reciclado en las propiedades mecánicas del adobe, Región San Martín 2022 []. PE: Universidad Nacional de San Martín. Fondo Editorial; 2023. http://hdl.handle.net/11458/5042
@misc{renati/1055163,
title = "Influencia de la incorporación de la fibra PET reciclado en las propiedades mecánicas del adobe, Región San Martín 2022",
author = "Arevalo Garcia, Ester",
publisher = "Universidad Nacional de San Martín. Fondo Editorial",
year = "2023"
}
The objective of this study was to determine how the use of recycled PET fiber influences the qualities of the characteristics of the compressive and flexural strength of adobe using PET. During its elaboration, the qualities of the clay for the design were taken into account, preparing the standard sample for comparison with different studies or tests according to the proportions of the material to be incorporated. An experimental comparative control was used with an elaboration of 36 samples, in which 0 g was applied in one group as the standard and the rest with additions of 10 g, 25 g and 40 g in groups of 4 with breaks at two times at 7 and 14 days. For the interpretation of the results, the observation techniques were applied with data collection sheets to calculate and determine the qualities of the soil, such as its classification, the determination of the bearing capacity to compression and bending of the samples under study. The result obtained is that the soil is a clayey sand of medium plasticity, with the second treatment of 25 grams, its capacity was 13.81 kg/cm2, being the most adequate combination proportion, presenting an increase of 10.48% in resistance in comparison with the standard. However, the bending capacity with treatment of 25 grams with a capacity of 16.62kg/cm2 is the most adequate combination because it presents an increase in resistance of 40.85% in comparison. This makes it evident that the behavior generated by the fibers complies with the standards established according to the E - 080 norm, increasing its mechanical qualities.
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