Bibliographic citations
Paliza, I., Ccama, J. (2018). Análisis comparativo de la influencia de la variación de niveles de ph (6.5, 7.0, 7.5 y 8.0) del agua de amasado y curado en el endurecimiento, tiempo de fraguado, resistencia a la compresión y resistencia a la tracción del concreto de f’c 210 kg/cm2. [Tesis, Universidad Andina del Cusco]. https://hdl.handle.net/20.500.12557/2216
Paliza, I., Ccama, J. Análisis comparativo de la influencia de la variación de niveles de ph (6.5, 7.0, 7.5 y 8.0) del agua de amasado y curado en el endurecimiento, tiempo de fraguado, resistencia a la compresión y resistencia a la tracción del concreto de f’c 210 kg/cm2. [Tesis]. : Universidad Andina del Cusco; 2018. https://hdl.handle.net/20.500.12557/2216
@misc{renati/955654,
title = "Análisis comparativo de la influencia de la variación de niveles de ph (6.5, 7.0, 7.5 y 8.0) del agua de amasado y curado en el endurecimiento, tiempo de fraguado, resistencia a la compresión y resistencia a la tracción del concreto de f’c 210 kg/cm2.",
author = "Ccama Canal, Jhon Freddy",
publisher = "Universidad Andina del Cusco",
year = "2018"
}
The purpose of the present investigation was to compare the influence of four pH levels (6.5, 7.0, 7.5 and 8.0) on the mixing and curing water on concrete properties (hardening, setting time, compressive strength and resistance to traction) with design strength f'c = 210 kg / cm2; modifying for it the pH of the water that was used in the kneading and curing of the concrete. Before the test, tests of control, modification and monitoring of the pH were developed taking into account the norm NTP 339.073; Also the quality control of the aggregates was carried out by tests standardized by the ASTM C33, to then make the mix design taking into account the method ACI 211.1 for the manufacture of cylindrical concrete briquettes of 4 “x 8“, for the tests of resistance to compression and traction; for the setting time, the normal consistency of the cement was determined (MTC 605), and then the setting time was determined using the water with the different pH levels according to the norm NTP 334.006: 2003; for the hardening evaluation, a mortar based on Otawa sand and Yura IPtype Portland cement was prepared with a f'c = 210kg / cm2 taking into account the recommendations of the Edibon Practices Manual. The Brinell hardness tests were performed at 2, 6, 14 and 28 days while for the compression and traction tests were performed at 7, 14 and 28 days. In the Brinell hardness test, it was observed that as the pH level increases from 6.5 to 8.5, the hardness also increases, obtaining values of 13.9 to 29.3 HB similar to that of wood and aluminum, whose values are between 1 and 23 HB. In the setting time it was observed that the more the pH increases the more it also increases the setting time; it was also observed that the alkalinity increases the compressive strength of 3.3-4.4% and the tensile strength of 2.1-6.5%, with respect to the standard sample while the acidity decreases the compressive strength of 3.6-5.6% and the tensile strength of 2.5-3.6% of the standard sample. After finishing the evaluation, it can be affirmed that the pH of the water can be a beneficial factor that should be taken advantage of and that it should be taken into account for the concrete mixing designs, for this reason its study should be continued.
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