Transactions of Nanjing University of Aeronautics & Astronautics
Nonlinear Vibration and Stability Analysis of Axially Accelerating Beam in Axial Flow
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Abstract:
The dynamics of an axially accelerating beam subjected to axial flow is studied. Based on the Floquet theory and the Runge-Kutta algorithm, the stability and nonlinear vibration of the beam are analyzed by considering the effects of several system parameters such as the mean speed, flow velocity, axial added mass coefficient, mass ratio, slenderness ratio, tension and viscosity coefficient. Numerical results show that when the pulsation frequency of the axial speed is close to the sum of first- and second-mode frequencies or twice the lowest two natural frequencies, instability with combination or subharmonic resonance would occur. It is found that the beam can undergo the periodic-1 motion under subharmonic resonance and the quasi-periodic motion under combination resonance. With the change of system parameters, the stability boundary may be widened, narrowed or drifted. In addition, the vibration amplitude of the beam under resonance can also be affected by changing the values of system parameters.
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Project Supported:
This work was supported by the National Natural Science Foundation of China (Nos. 11972167, 12072119 and 12102139).
Clc Number:
O322
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