Bibliographic citations
Sacramento, R., Vargas, C. (2023). Influencia de la adición y sustitución porcentual de microsilice sika y z aditivos en el asentamiento, peso unitario y resistencia a compresión de un concreto con relación a/c=0.40 [Tesis, Universidad Privada Antenor Orrego - UPAO]. https://hdl.handle.net/20.500.12759/10397
Sacramento, R., Vargas, C. Influencia de la adición y sustitución porcentual de microsilice sika y z aditivos en el asentamiento, peso unitario y resistencia a compresión de un concreto con relación a/c=0.40 [Tesis]. PE: Universidad Privada Antenor Orrego - UPAO; 2023. https://hdl.handle.net/20.500.12759/10397
@misc{renati/381532,
title = "Influencia de la adición y sustitución porcentual de microsilice sika y z aditivos en el asentamiento, peso unitario y resistencia a compresión de un concreto con relación a/c=0.40",
author = "Vargas Saldaña, Christian André",
publisher = "Universidad Privada Antenor Orrego - UPAO",
year = "2023"
}
Faced with the need for durable and resistant structures over time, mineral additions capable of guaranteeing and increasing the compressive strength of the concrete were implemented. Being microsilica one of the materials that in recent decades has been used in large contemporary construction works, we have considered knowing its influence on physical and mechanical properties of concrete. In this investigation, various concrete mix designs were made with a W/C ratio of 0.40, with additions of Microsilica in the Sikafume and Microsilica Z brands. Percentage additions of 3&, 6% and 9% were used, as well as substitutions of 3%. and 6%, in all cases percentages determined based on the weight of the cement. To do this, aggregate characterization tests, concrete mix designs, tests on fresh and hardened concrete were carried out, in order to know how the additions and substitutions of commercial brand microsilicas influence. In this way, a total of 108 cylindrical concrete specimens were made for concrete compressive strength tests at ages of 07, 28 and 56 days of curing. It was determined that the optimal content of Microsilica corresponds to 6% addition, both for Sikafume and Microsilica Z, achieving compressive strength values close to 400 kg/cm2, so it is asserted that microsilica contributes to the gain in strength. to concrete compression. As part of our investigation, quantities of plasticizers were used for the w/c ratio dry condition, and it was found that microsilica negatively influences the workability values of concrete, as well as a reduction in unit weight, but it does not have influence on the temperature values of concrete in the fresh state
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