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Dynamical energy analysis on mesh grids: a new tool for describing the vibro-acoustic response of complex mechanical structures

Chappell, David J.; Loechel, Dominik; Sondergaard, Niels; Tanner, Gregor

Dynamical energy analysis on mesh grids: a new tool for describing the vibro-acoustic response of complex mechanical structures Thumbnail


Authors

David J. Chappell

Dominik Loechel

Niels Sondergaard



Abstract

We present a new approach for modelling noise and vibration in complex mechanical structures in the mid-to-high frequency regime. It is based on a dynamical energy analysis (DEA) formulation which extends standard techniques such as statistical energy analysis (SEA) towards non-diffusive wave fields. DEA takes into account the full directionality of the wave field and makes sub-structuring obsolete. It can thus be implemented on mesh grids commonly used, for example, in the finite element method (FEM). The resulting mesh based formulation of DEA can be implemented very efficiently using discrete flow mapping (DFM) as detailed in Chappell et al. (2013) and described here for applications in vibro- acoustics. A mid-to-high frequency vibro-acoustic response can be obtained over the whole modelled structure. Abrupt changes of material parameter at interfaces are described in terms of reflection/transmission matrices obtained by solving the wave equation locally. Two benchmark model systems are considered: a double-hull structure used in the ship- building industry and a cast aluminium shock tower from a Range Rover. We demonstrate that DEA with DFM implementation can handle multi-mode wave propagation effectively, taking into account mode conversion between shear, pressure and bending waves at interfaces, and on curved surfaces.

Citation

Chappell, D. J., Loechel, D., Sondergaard, N., & Tanner, G. (2014). Dynamical energy analysis on mesh grids: a new tool for describing the vibro-acoustic response of complex mechanical structures. Wave Motion, 51(4), https://doi.org/10.1016/j.wavemoti.2014.01.004

Journal Article Type Article
Acceptance Date Jun 1, 2013
Online Publication Date Jan 30, 2014
Publication Date Jun 30, 2014
Deposit Date Sep 28, 2017
Publicly Available Date Sep 28, 2017
Journal Wave Motion
Print ISSN 0165-2125
Electronic ISSN 1878-433X
Publisher Elsevier
Peer Reviewed Peer Reviewed
Volume 51
Issue 4
DOI https://doi.org/10.1016/j.wavemoti.2014.01.004
Public URL https://nottingham-repository.worktribe.com/output/729864
Publisher URL http://www.sciencedirect.com/science/article/pii/S0165212514000067?via%3Dihub
Related Public URLs http://dx.doi.org/10.1016/j.wavemoti.2014.01.004
Contract Date Sep 28, 2017

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