Citas bibligráficas
Sifuentes, E., (2019). Mitigación de reacción álcali-sílice, mediante adición de puzolanas naturales en concreto compactado con rodillo de F'C=120 Kg/cm² [Tesis, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/20551
Sifuentes, E., Mitigación de reacción álcali-sílice, mediante adición de puzolanas naturales en concreto compactado con rodillo de F'C=120 Kg/cm² [Tesis]. PE: Universidad Nacional de Ingeniería; 2019. http://hdl.handle.net/20.500.14076/20551
@misc{renati/710964,
title = "Mitigación de reacción álcali-sílice, mediante adición de puzolanas naturales en concreto compactado con rodillo de F'C=120 Kg/cm²",
author = "Sifuentes Jiménez, Emilio André",
publisher = "Universidad Nacional de Ingeniería",
year = "2019"
}
In rolled compacted concrete used in dams, it is essential to avoid the expansion product of the alkali silica reactivity as it can cause serious damage to the dam structure with a significant reduction in the useful life of the structure. The present investigation consists in determining an optimum content of pozzolana as an addition in a rolled compacted concrete that mitigates the alkali silica reactivity to an innocuous level. To achieve this, a comparative analysis is made between a conventional CCR and one with the addition of pozzolan. In the first part, the optimum content of pozzolan is determined to mitigate alkali silica reactivity and at the same time not reducing significantly the compressive strength, for this purpose mortar tests were performed. The determination of alkali silica reactivity potential is obtained by ASTM C 1260 (without the use of additions) and ASTM C 1567 (with the use of additions). 6 dosages of pozzolan were used to determine the minimum percentage of addition that generated a non-detrimental behavior. This percentage varied according to the quarry used and the type of cement used. In addition, by adding pozzolan, the compressive strength was reduced, therefore, it was sought to determine the percentage of compressive strength reduction for each dosage used. This was done by the compression strength test in mortar cubes in accordance with ASTM C 109. In the second part, the design of the CCR added with pozzolana was carried out, based on the previous results in mortar specimens. For the design, the ACI guide and its recommendations regarding granulometry of the aggregates were used. The acceptable Vebe time for the designs was between 20s and 30s, for which they worked with 4 CCR mix designs varying the a / c ratio. Finally, with a 30% addition of natural pozzolan in CCR mixtures with alkali potential reactive silica and a / c ratio 0.72 it is possible to mitigate the reactive potential.
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