Estimation of Modal Damping for Structures with Localized Dissipation
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Titre | Estimation of Modal Damping for Structures with Localized Dissipation |
Type de publication | Conference Paper |
Year of Publication | 2015 |
Auteurs | Krifa M., Bouhaddi N., Cogan S. |
Editor | Allemang R |
Conference Name | SPECIAL TOPICS IN STRUCTURAL DYNAMICS, VOL 6, 2015 |
Publisher | IMAC; Soc Expt Mech |
Conference Location | 233 SPRING STREET, NEW YORK, NY 10013, UNITED STATES |
ISBN Number | 978-3-319-15048-2; 978-3-319-15047-5 |
Mots-clés | Bolted joints, Energetic method, Localized damping, Loss factor, Proportional damping |
Résumé | Damping plays an important role in bolted joints of assembled structures due to their significant capacity to dissipate energy. The underlying mechanisms of these dissipative phenomena are generally poorly understood and result from contact and friction effects within the joint interfaces. In order to provide useful virtual prototyping tools for reducing response levels, accurate model-based estimation of modal damping is required. The present study employs an energetic method to calculate the loss factor associated with the localized dissipative interfaces of a global linear structure. This method is based on the concept of the dissipated energy in the interfaces for which the closed-form expression of the loss factor is the ratio between dissipated energy and maximal potential energy, over a cycle of periodic vibration. The aim of this work is to investigate the advantages and drawbacks of this approach for particular conditions such as: modal projection, localized damping level and model density. Simulated academic examples, where accurate estimations of the exact solutions are available, will be used to illustrate the methodology and to explore the potential difficulties that may arise in more complex industrial applications. |
DOI | 10.1007/978-3-319-15048-2_17 |