Release Time:2019-03-13  Hits:

Indexed by: Journal Article

Date of Publication: 2016-05-01

Journal: JOURNAL OF BRIDGE ENGINEERING

Included Journals: Scopus、SCIE

Volume: 21

Issue: 5

ISSN: 1084-0702

Key Words: Bridge; Flutter derivative; Exponentially modified sinusoidal oscillation; Numerical simulation

Abstract: With the use of a computational fluid dynamics (CFD) numerical simulation, in this study an unusual exponentially modified sinusoidal (EMS) oscillation was forcibly imposed on deck section to simulate amplitude-varying self-excited forces. This approach facilitated the investigation of the influence of EMS transient oscillation and amplitude on self-excited forces and flutter derivatives. Study results show that for an ideal thin plate, the sensitivities of and to oscillation decaying/diverging ratio were higher than those of . With different amplitudes, , and reduced wind velocities, the self-excited forces of one flat plate and two bluff bridge decks were numerically calculated and the flutter derivatives were extracted and compared with the theoretical and experimental results. If ||<0.1, its influence was almost negligible, by which the traditional sinusoidal oscillation technique was validated. The heaving and torsional amplitudes had different influences on each flutter derivative. The influences were also related to deck cross sections and reduced wind velocities. The proposed numerical simulation of EMS oscillation enables a better understanding of the influence of oscillation amplitude and on bridge deck flutter derivatives.