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2021 | OriginalPaper | Chapter

Vector-Valued Intensity Measures to Predict Peak and Hysteretic Energy Demands of 3D R/C Buildings

Authors : José I. Torres, Edén Bojórquez, Alfredo Reyes, Juan Bojórquez

Published in: Energy-Based Seismic Engineering

Publisher: Springer International Publishing

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Abstract

In this study, several peak and energy vector-valued ground motion intensity measures (IMs) are proposed to predict maximum inter-story drift and hysteretic energy demands of 3D reinforced concrete (R/C) buildings subjected to narrow-band motions. The selected vector-valued IMs are based on the spectral acceleration, pseudo-velocity, velocity and input energy at first mode of the structure as first component. As the second component, ground motion parameters based on peak, integral and spectral shape proxies such as the well-known N_p are used. The objective of the present study is to provide vector-valued IMs whit the ability to predict the maximum inter-story drift and hysteretic energy demands on 3D framed structures. It is observed that vector-valued IMs based on N_p provide a high relation whit maximum inter-story drift and hysteretic energy demands of reinforced concrete framed buildings.

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previous chapter Efficiency of Viscous Damping in Seismic Energy Dissipation and Response Reduction

next chapter Evaluation of Earthquake Resistance of Steel Moment Resisting Frames

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Title: Vector-Valued Intensity Measures to Predict Peak and Hysteretic Energy Demands of 3D R/C Buildings
Authors: José I. Torres
Edén Bojórquez
Alfredo Reyes
Juan Bojórquez
Publisher: Springer International Publishing
Book: Energy-Based Seismic Engineering
Print ISBN: 978-3-030-73931-7

Electronic ISBN: 978-3-030-73932-4

Copyright Year: 2021
DOI: https://doi.org/10.1007/978-3-030-73932-4_18

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