Citas bibligráficas
Requejo, L., (2021). Efecto en las propiedades físicas-mecánicas del concreto con resistencias 210 y 280 kg/cm² al sustituir material cementicio por costra producto de la elaboración del Clínker [Tesis, Universidad Privada Antenor Orrego - UPAO]. https://hdl.handle.net/20.500.12759/7313
Requejo, L., Efecto en las propiedades físicas-mecánicas del concreto con resistencias 210 y 280 kg/cm² al sustituir material cementicio por costra producto de la elaboración del Clínker [Tesis]. PE: Universidad Privada Antenor Orrego - UPAO; 2021. https://hdl.handle.net/20.500.12759/7313
@misc{renati/374681,
title = "Efecto en las propiedades físicas-mecánicas del concreto con resistencias 210 y 280 kg/cm² al sustituir material cementicio por costra producto de la elaboración del Clínker",
author = "Requejo Amaya, Luis Alejandro",
publisher = "Universidad Privada Antenor Orrego - UPAO",
year = "2021"
}
The objective of this research was to evaluate the effects on the physical-mechanical properties of 210 and 280 kg / cm2 concrete when substituting cementitious material for crust, which is a residue that is produced inside the kiln during the process of making the clinker. Therefore, it was compared to a concrete pattern versus concrete experimental. The research focused on cylindrical and prismatic concrete specimens, which were made with Cemento Pacasmayo type I, fine and coarse aggregates that were sampled from the pile of aggregates of Dino S.R.L and crust that was collected from the company's clearing area. Cementos Pacasmayo S.A.A, the same one that was ground to a certain fineness. Likewise, the pozzolanic activity of the crust was evaluated according to the ASTM C311 and ASTM C989 standards. Eight different types of designs were made (4 for concretes 210 kg/cm2 and 4 for concretes 280 kg/cm2 ) according to the method Modulus of fineness combination of the aggregates, which were dosed in proportions of 0%, 20%, 35 % and 50% replacement. The samples consisted of 96 4 x 8” cylindrical specimens that were evaluated for their compressive strength at 1, 3, 7 and 28 days; 24 cylindrical specimens of 6 x 12” which were evaluated for their air permeability and electrical resistivity; and 16 prismatic specimens (beams) of 22 x 6 x 6“ which were evaluated for their flexural strength at 28 days. Likewise, each design was evaluated for its temperature, consistency (settlement) and unit weight, from which normal-type concretes with settlements between 5 “- 6“ were obtained, thus classifying them as fluid mixtures. As a conclusion, it was obtained that the optimum percentage of substitution of crust for cement is 20%, since it is there where there is a balance between cost-performance, having increases with respect to compressive strength, maintaining flexural strength, permeability and electrical resistivity. In addition, it is 10% cheaper than standard designs and contributes positively to caring for the environment as a consequence of the reduction of C02 emissions to the environment by using less cement.
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