A non-linear coupled fluid–structure aeroelastic analysis of a slender bridge deck

A two-degree-of-freedom airfoil with a freeplay non-linearity in the pitch and plunge directions has been analyzed in the transonic and low-supersonic #ow region, where aerodynamic non-linearities also exist. The primary purpose of this study is to show aeroelastic characteristics due to freeplay st

Numerous experimental and numerical studies have shown that the stability of rotors is strongly influenced by fluid elements. When considering elements such as journal bearings or seals, the classical rotordynamic approach has been widely used and validated. On the other hand, the rigid wheel assump

In this paper a dynamic formulation is presented for the coupled textile-rotor system. Both the partial differential equation for the textile thread and the ordinary differential equation for the rotor whirling vibration are derived by Hamilton's principle. When the textile is wound either on or off

A new non-linear model of a straight pipe conveying #uid is presented for vibration analysis when the pipe is "xed at both ends. Using the Euler}Bernoulli beam theory and the non-linear Lagrange strain theory, from the extended Hamilton's principle the coupled non-linear equations of motion for the