Citas bibligráficas
Miranda, I., Lock, J. (2023). Análisis del estado del arte del adobe estabilizado con diversos materiales [Trabajo de Suficiencia Profesional, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/671932
Miranda, I., Lock, J. Análisis del estado del arte del adobe estabilizado con diversos materiales [Trabajo de Suficiencia Profesional]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2023. http://hdl.handle.net/10757/671932
@misc{renati/413447,
title = "Análisis del estado del arte del adobe estabilizado con diversos materiales",
author = "Lock Curmayari, Joysy Pamela",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2023"
}
The objective of this research work is to develop the state of the art of stabilized adobe and make a comparison, evaluating different additions that can be used in adobe according to the current state of the art, where different articles published in the world are being analyzed and reviewed. . Likewise, an empirical case is being analyzed to determine the compression resistance, absorption and erosion tests of adobe stabilized with bamboo fibers and cement. The samples of this empirical case are found in the Pichari-Cusco district, where 10 types of mixtures were made, including a sample of traditional adobe and nine of them with different amounts of cement and bamboo fibers. The compression test of the adobe was evaluated with different types of additions, the best being the addition of 4.5% of reed fiber, which increases its compression resistance to 36.26 kg/cm2 compared to its traditional adobe of 14.38 kg/cm2. Likewise, the flexural resistance test was evaluated, with the best addition being 4.5% sawdust shavings with a result of 23.34 kg/cm2 compared to its traditional adobe of 18.10 kg/cm2. Finally, the absorption percentage test for the adobe with the addition of 1.00% sheep wool is 21.19% compared to its standard adobe of 31.05%, this being the one with the best result. Subsequently, in the empirical case, it was obtained that the highest resistance to compression was Mixture 9 (7% cement, 25% bamboo, 34% clay and 34% sand), which obtained a resistance of 62.36 Kg/cm2, while the Traditional mixture obtained a resistance of 12.48Kg/cm2. Likewise, this mixture also obtained the best result for the absorption and erosion percentage test of 16.41% and 17.30% respectively, compared to its traditional adobe of 17.57% and 20.60% respectively.
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