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Title: Tuned dynamic absorber using non-linear stiffness
Authors: Wong, Wai-lun
Keywords: Hong Kong Polytechnic University -- Dissertations
Structural dynamics
Shock (Mechanics)
Issue Date: 2004
Publisher: The Hong Kong Polytechnic University
Abstract: Undesirable excessive vibration due to structural resonance can be effectively reduced by either a dynamic vibration absorber or applying direct damping technique. However, linear absorber and damping are found not effective for complex practical cases. The aims of this project are (i) to optimize the performance of a dynamic vibration absorber with non-linear stiffness using a curved plate and (ii) to improve the non-linear damping coefficient of a non-viscous type air damper. Finally, their ability and feasibility are analyzed and compared. To reveal the damping and energy dissipation performance of a non-linear curved plate vibration absorber, the dynamic behavior of a curved plate is studied analytically. Softening spring and chaotic regions are found from the analytical solutions. Dynamic behavior of a two-degree-of-freedom using the non-linear softening spring absorber is then obtained through analytical formulations and numerical simulations. The amplitudes of the peak at lower frequencies are reduced and thus the suppression band-width is widened with small auxiliary damping while the curved plate undergoes softening spring vibration. Different combinations of system parameters are analyzed by the numerical integration method and an optimal design is obtained. The damping performance of the non-viscous type plate-air-plate air damper with non-linear damping coefficient is studied empirically. For a large air gap and small holes, the non-linearity of the damping vanished. The damping performance is improved by reducing the air gap thickness and enlarging the holes. After comparing the controllability, tuning complexity, installment feasibility and setup difficulties, the non-linear dynamic vibration absorber is found to be the more suitable choice.
Description: xi, 191 leaves : ill. (some col.) ; 30 cm.
PolyU Library Call No.: [THS] LG51 .H577M CSE 2004 Wong
Rights: All rights reserved.
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