Bibliographic citations
Guillermo, A., Silva, S. (2019). Evaluación y diseño de dos propuestas de reforzamiento para vigas y columnas de concreto armado en una edificación de hotel [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/628230
Guillermo, A., Silva, S. Evaluación y diseño de dos propuestas de reforzamiento para vigas y columnas de concreto armado en una edificación de hotel [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2019. http://hdl.handle.net/10757/628230
@misc{renati/369670,
title = "Evaluación y diseño de dos propuestas de reforzamiento para vigas y columnas de concreto armado en una edificación de hotel",
author = "Silva Tupac Yupanqui, Sergio",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2019"
}
The present investigation lies in the technical-economic evaluation of two types of structural reinforcement, such as the carbon fiber reinforced polymer (CFRP) and the reinforced concrete jacketing in the structural elements: beams and columns. The objective is to determine the optimal solution alternative, taking into account that the option of reinforced concrete cladding is commonly the most used in the sector. As for the project, it corresponds to a hotel building in which change of use is required on floors 3 and 4 incorporating a gymnasium in the aforementioned floors. Regarding the design of reinforcement alternatives, these ruled by the requirements of the National Building Regulations of Peru (E020 – Loads, E030 – Seismic Resistant Design, E060 – Reinforced Concrete) and international standards such as the ACI (ACI 440 – FRP, ACI 369 – Seismic Rehabilitation of Existing Concrete Frame Builidings, ACI 318 - Requirements for Structural Concrete). Likewise, the program was used to complement the analysis of the structural behavior of the buildings and the reinforcement alternatives. After the design, the technical-economic evaluation was carried out, proposing an execution plan (schedule) according to the characteristics and context of the project, and an economic budget for each case. Finally, by means of a comparative analysis that contrasts both criteria, the optimal reinforcement alternative for the hotel building analyzed is concluded is the CFRP.
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