The nonlinear effects exhibited by structures under the action of wind loads have gradually
stepped into the vision of wind-resistant researchers. By summarizing the prominent wind …

Continuously growing number and span length of long-span bridges in coastal region of
China require a robust aeroelastic design to against the tropical-cyclone (TC)-induced flutter …

The research on vibration characteristics of long-span bridges is of great importance to
flutter analysis, yet the literature is limited which concerns the phase difference characteristic …

Different engineering structures, eg, long-span bridges, bundled conductors, and cable-
supported photovoltaic modules, exhibit various frequency relationships among different …

Among the consequences of wind-induced excitation on long-span cable-supported
bridges, flutter instability is the most dangerous and can collapse bridge structures. Until …

The assessment of wind-induced vibrations is considered vital for the design of long-span
bridges. The aim of this research is to develop a methodological framework for robust and …

Long-span bridges, high-rise buildings, chimneys, or wind turbines are often susceptible to
wind-induced vibrations due to their high flexibility and lightweight. Therefore, these …

Fluid-particle-structure interactions (FPSI) govern a wide range of natural and engineering
phenomena, from landslides to erosion in abrasive water jet cutting nozzles. Despite the …

Nowadays, predicting aerodynamics phenomena on bridges with global climate change and
enlarging span length, no doubt it isn't easy. One of the significant factors for designing long …

The clarification of the nonlinear and unsteady aerodynamic characteristics of a quasi-flat
plate is of great importance to predict its wind-induced post-flutter behavior. Forced motion …