Aerodynamically coupled direct flutter analysis of long-span bridges;

Aerodynamically coupling flutter analysis and flutter mechanism for bridge deck sections;

The flutter analysis of the AGARD wing 445.

The proposed method overcomes the defects of the previous direct flutter analysis and it is a single parameter searching method.

A new approach of full-mode flutter analysis with double parameters is proposed,which is realized in ANSYS,based on the full-order discretized physical model of structure.

Based on the linear theory of flutter analysis,considering the nonlinear behavior of structural dynamic characteristics and aerodynamic forces which change with wind speed and structural deformation,an approach of three dimensional nonlinear flutter analysis for long span bridges is described herein.

On the engineering background of a suspension bridge tender project, the effectiveness of the airfoils in the flutter stability of the system is studied by a multi mode flutter analysis approach.