Citas bibligráficas
Doza, D., Pinedo, J. (2023). Estudio De La Contracción Del Concreto Cementoarena, Con Cemento Portland Tipo I Y Aditivo Superplastificante Masterease 3900, Iquitos - 2022 [Tesis, Universidad Científica del Perú]. http://hdl.handle.net/20.500.14503/2558
Doza, D., Pinedo, J. Estudio De La Contracción Del Concreto Cementoarena, Con Cemento Portland Tipo I Y Aditivo Superplastificante Masterease 3900, Iquitos - 2022 [Tesis]. PE: Universidad Científica del Perú; 2023. http://hdl.handle.net/20.500.14503/2558
@misc{renati/197171,
title = "Estudio De La Contracción Del Concreto Cementoarena, Con Cemento Portland Tipo I Y Aditivo Superplastificante Masterease 3900, Iquitos - 2022",
author = "Pinedo Burga, Juan Pedro Germán",
publisher = "Universidad Científica del Perú",
year = "2023"
}
Civil construction in our country and the different construction methodologies are complex and vary throughout the territory, this due to the great climatic and geological diversity and accessibility to resources and materials throughout our country, and even more so. It is reflected in the construction methodologies in our Loreto region due to the lack of natural coarse aggregate and fine aggregate quarries that meet the standards of the Peruvian technical construction standard, and we also have a changing tropical climate. The tests to be carried out in the first stage of this research were to establish the physical properties of the aggregate to be used, then the development of the mix designs for cement-sand concrete with a water/cement ratio of 0.60 with 0.5%, 1.0% and 1.5%. of additive added; to later carry out the concrete tests in the fresh state and in the hardened state, as well as the contraction tests. In the case of the concrete contraction test, 10 prisms 75x75x285 mm prisms were used. for each Specifically, cement-sand concrete or also known as mortar tends to present cracking problems, more commonly in structural elements, such as lightened slabs, columns, beams or foundation beams, this due to volumetric changes of the concrete product of its own process. of setting, and that in most cases are not properly identified, analyzed and counteracted. Therefore, the analyzes of the present investigation, on the effect that the MasterEase 3900 superplasticizer additive and the fine aggregate used cause in cement-sand concrete, refer only to the parameters referred to shrinkage. The general problem of the investigation is, how does the use of type I portland cement and MasterEase 3900 superplasticizer additive influence the control of change in length associated with shrinkage in cement-sand concrete in Iquitos 2022? The main objective is “To study the contraction of cement-sand concrete using Type I portland cement and MasterEase 3900 superplasticizer additive for the measurement of longitudinal change, in Iquitos 2022“. xx concrete with a different percentage of additive added, at the same time it was grouped into “cured 28 days“ and “without curing“, making a total of 30 prisms of cement-sand concrete to be analyzed. Data was collected over 28 consecutive days. It was observed that there is a relatively significant difference in the contraction of the concrete “without curing“ and the concrete “cured 28 days“, presenting in both cases contraction of the concrete. Noticing less shrinkage in the prisms of cement-sand concrete with 0.5% MasterEase 3900 superplasticizer additive and cured for 28 days; while a greater contraction was observed in cement-sand concrete with 1.5% MasterEase 3900 superplasticizer additive without curing. From the information mentioned, it is concluded that, at a lower percentage of added additive, the concrete tends to contract to a lesser extent, the continuous process of curing cement-sand concrete being very important to obtain concrete with optimal development.
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