Citas bibligráficas
Aranivar, K., Zuniga, J. (2021). Evaluación de la influencia de tuberías embebidas en porcentajes de 0.4% a 4% en la rigidez axial de testigos de concreto de sección cuadrada y circular sometidos a esfuerzos de compresión [Universidad Andina del Cusco]. https://hdl.handle.net/20.500.12557/4637
Aranivar, K., Zuniga, J. Evaluación de la influencia de tuberías embebidas en porcentajes de 0.4% a 4% en la rigidez axial de testigos de concreto de sección cuadrada y circular sometidos a esfuerzos de compresión []. PE: Universidad Andina del Cusco; 2021. https://hdl.handle.net/20.500.12557/4637
@misc{renati/959840,
title = "Evaluación de la influencia de tuberías embebidas en porcentajes de 0.4% a 4% en la rigidez axial de testigos de concreto de sección cuadrada y circular sometidos a esfuerzos de compresión",
author = "Zuniga Pimentel, Jhohan",
publisher = "Universidad Andina del Cusco",
year = "2021"
}
In this research thesis, the theoretical explanation and application of the evaluation of the influence on the axial stiffness of circular and square cores with embedded pipes is developed. This influence was determined by carrying out laboratory work and its subsequent verification of the seismic response of a building with vertical elements with these characteristics. The compression tests were carried out according to the regulations in the technical standard NTP 339.034 in which cylindrical and square type test specimens were used, evaluating their resistance to compression at 7 and 28 days, later the rigidity was determined. axial of both circular and square specimens. The structural models evaluated were based on the criteria and requirements established in the current Peruvian regulations on earthquake resistant design, reinforced concrete and loads (NTP E. 020, E. 030 and E. 060), the structural analysis for gravity loads and earthquake was developed in the ETABS program in its educational V.17. Once the axial stiffness calculation was carried out, it was possible to determine the influence of axial stiffness by placing embedded pipes in the cross section in percentages of 0.4% to 4%, the variations are a maximum of 18.10% and 14.58% for circular and square sections, respectively. It was possible to determine that the influence is reduced as the percentage of section with embedded pipes is reduced, it is reduced to a greater degree when the embedded pipes are located concentrically and a surface treatment is performed. When performing a surface treatment on PVC pipes using wire No. 16, an improvement in stiffness of 4.6% is achieved, the improvement is less when they are square samples, when modeling a structure and calculating the seismic response, it is determined that the variation is less than 5% and not more, achieving a maximum variation of 3.8% in drifts and a 1.20% variation in the resistant shear force in each mezzanine. These results are compared with some elements that do not have the variation in the section product of the location of pipes embedded in vertical earthquake-resistant elements of a building.
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