Citas bibligráficas
Amasifuen, R., Romero, J. (2021). Diseño de concreto de alta resistencia con aplicaciones de ceniza de coco y ceniza de cascarilla de arroz, para mejorar su resistencia a la compresión, San Martin – 2020 [Tesis, Universidad Científica del Perú]. http://hdl.handle.net/20.500.14503/1649
Amasifuen, R., Romero, J. Diseño de concreto de alta resistencia con aplicaciones de ceniza de coco y ceniza de cascarilla de arroz, para mejorar su resistencia a la compresión, San Martin – 2020 [Tesis]. PE: Universidad Científica del Perú; 2021. http://hdl.handle.net/20.500.14503/1649
@misc{renati/193563,
title = "Diseño de concreto de alta resistencia con aplicaciones de ceniza de coco y ceniza de cascarilla de arroz, para mejorar su resistencia a la compresión, San Martin – 2020",
author = "Romero Lopez, Jesabel",
publisher = "Universidad Científica del Perú",
year = "2021"
}
The use of organic waste such as rice husk and coconut has many uses, either as fertilizer, or as a material for the production of coal, or as many other utilities. However, we in this research will use ash from both residues as substitutes for cement in the design of high-strength concrete. As part of the main objectives of our research is to determine the compressive strength of concrete, partially replacing the cement with applications of coconut ash and rice husk ash in the percentages of 1%, 6% and 9%, as well as to determine the optimal percentage of resistance and the evaluation of unit costs with respect to the concrete pattern f'c=350 kg/cm2. This research has an experimental quantitative approach. The result obtained with the application of coconut ash and rice husk ash at the age of 28 days in the percentage of 1% is of resistance 93.07%, with 6% is of resistance 86.17% and with 9% is of resistance 73.93%. Finally, with the results obtained we conclude that the optimal percentage of addition of coconut ash and rice husk ash in partial replacement by cement is 1%, with which a resistance equivalent to 93.07% of the resistance of the standard concrete is reached that is f ́c= 350kg/cm2.
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