Ho Yeop Lee scite author profile

Ho Yeop Lee

2Publications

1Citation Statement Received

26Citation Statements Given

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Prediction of bridge flutter under a crosswind flow

Lee²,

Choi

et al. 2013

Wind and Structures

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This paper presents a number of approximated analytical formulations for the flutter analysis of long-span bridges using the so-called uncoupled flutter derivatives. The formulae have been developed from the simplified framework of a bimodal coupled flutter problem. As a result, the proposed method represents an extension of Selberg's empirical formula to generic bridge sections, which may be prone to one of the aeroelastic instability such as coupled-mode or single-mode (either dominated by torsion or heaving mode) flutter. Two approximated expressions for the flutter derivatives are required so that only the experimental flutter derivatives of (* 2 * 1 , A H) are measured to calculate the onset flutter. Based on asymptotic expansions of the flutter derivatives, a further simplified formula was derived to predict the critical wind speed of the cross section, which is prone to the coupled-mode flutter at large reduced wind speeds. The numerical results produced by the proposed formulas have been compared with results obtained by complex eigenvalue analysis and available approximated methods show that they seem to give satisfactory results for a wide range of study cases. Thus, these formulas can be used in the assessment of bridge flutter performance at the preliminary design stage.

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The evaluation of aerodynamic capacity for a bridge cross section applying a new type of fairing

Lee¹,

Oh²,

Chun³

et al. 2014

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Ho Yeop Lee

Prediction of bridge flutter under a crosswind flow

The evaluation of aerodynamic capacity for a bridge cross section applying a new type of fairing

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