Bibliographic citations
Villegas, D., (2023). Análisis comparativo del efecto del aditivo acelerante en la calidad del concreto con cemento Portland tipo ICo y GU [Tesis, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/25232
Villegas, D., Análisis comparativo del efecto del aditivo acelerante en la calidad del concreto con cemento Portland tipo ICo y GU [Tesis]. PE: Universidad Nacional de Ingeniería; 2023. http://hdl.handle.net/20.500.14076/25232
@misc{renati/712574,
title = "Análisis comparativo del efecto del aditivo acelerante en la calidad del concreto con cemento Portland tipo ICo y GU",
author = "Villegas Llicahua, David",
publisher = "Universidad Nacional de Ingeniería",
year = "2023"
}
The present investigation arose due to the need to accelerate the commissioning of the various civil works, for which it was required to know the effect of the accelerating additive in various types of cement. The experimental type study was carried out through the design of concrete applying the method of global aggregate for maximum resistance, using cement type ICo and type GU, fine aggregate from the Trapiche quarry, coarse aggregate from the Trapiche quarry with maximum nominal size for the mixture. of 1” and drinking water from the National University of Engineering in the a/c ratios of 0.4 and 0.5 with a settlement of 3” - 4”, thus obtaining the standard designs. In addition, designs were made with Chema 3 setting accelerating additive applied in concentrations of 0.5, 0.75 and 1 liter for each bag of cement used in each standard design. It was observed that under the test conditions, the CHEMA 3 additive did not have a specific trend in setting times, but rather varied according to the type of cement and w/c ratio. In the case of the tests in the hardened state, the CHEMA 3 admixture increased the compressive strength with respect to the standard in concrete made with ICO-type cement by up to 19.1%, while in concrete made with GU-type cement there was no specific trend. For the absorption and void tests in relation to w/c = 0.4, a tendency to decrease both values were evidenced, with greater intensity for concrete with ICo type cement. In the case of w/c ratio = 0.5, the absorption and voids increased with greater intensity for the concrete with GU type cement. Finally, the objective was achieved, comparing the effect of the additive between concretes with different types of cement, observing that it did not meet the hypothesis by delaying the setting times in several cases for the test conditions.
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