Inelastic floor spectra for designing anchored acceleration-sensitive nonstructural components

Autor: Ricardo A. Medina, Erin Santini-Bell, Hamidreza Anajafi
Rok vydání: 2019
Předmět:
Zdroj: Bulletin of Earthquake Engineering. 18:2115-2147
ISSN: 1573-1456
1570-761X
DOI: 10.1007/s10518-019-00760-8
Popis: In this study, inelastic floor spectra are developed for designing acceleration-sensitive nonstructural components (NSCs). The parameters response modification (reduction) factor, $$ R_{\text{cc}} $$, and inelastic displacement ratio, $$ C_{\text{cc}} $$, are evaluated to quantify the effects of NSCs inelasticity on their seismic-induced force and displacement demands, respectively. The results of the conducted response history analyses illustrate that the inelastic behavior of NSCs can significantly de-emphasize the effects of their tuning period ratio and viscous damping ratio, and of the characteristics of the primary structure and ground excitation. Due to the quasi-harmonic characteristic of building floor motions, NSC inelasticity is more effective for NSCs attached to buildings than for those attached to the ground. NSC inelasticity is most effective for a low-damping roof-mounted NSC tuned to the first modal period of an elastic building (i.e., the most critical NSC from the design point of view). Adopting even a mild level of inelasticity for tuned NSCs not only decreases their seismic force demands significantly but also reduces their displacement demands. For non-tuning conditions, particularly for rigid NSCs, achieving even a relatively small $$ R_{\text{cc}} $$ (i.e., a small reduction in force demand) leads to a significant increase in NSC displacement and ductility demands suggesting that these NSCs should be designed to remain elastic. Results illustrate that the amplitude of $$ R_{\text{cc}} $$ and $$ C_{\text{cc}} $$ depends on the tuning ratio, viscous damping, and level of inelasticity of NSCs, and to a lesser extent, on the characteristics of the primary structure and ground motion. Simplified yet reliable equations are proposed for the estimation of the parameter $$ R_{\text{cc}} $$ for non-rigid NSCs with different levels of inelasticity and viscous damping.
Databáze: OpenAIRE
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