Experimental structure-borne energy flow contribution analysis for vibro-acoustic source ranking

•Multi-point and multi-DOF experimental energy flow analysis.•NVH assessment and ranking of vibro-acoustic sources done investigating energy quantities.•Finite difference methodology definition to estimate excitations and velocities.•Case study application on a gearbox-like structure. Noise legislat...

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Bibliographic Details
Published inMechanical systems and signal processing Vol. 115; pp. 753 - 768
Main Authors Acri, A., Nijman, E., Conrado, E., Offner, G.
Format Journal Article
LanguageEnglish
Published Berlin Elsevier Ltd 15.01.2019
Elsevier BV
Subjects
Acoustic emission testing
Acoustic noise
Acoustics
Bearings
Commercial vehicles
Degrees of freedom
Dynamic loads
Electricity distribution
Energy flow
Energy flow analysis
Finite difference method
Gearboxes
Load
Methodology
Noise
Power transmission
Ranking
Sound sources
Sources assessment
Sources assessment
Bearings
Power transmission
Energy flow analysis
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Summary:•Multi-point and multi-DOF experimental energy flow analysis.•NVH assessment and ranking of vibro-acoustic sources done investigating energy quantities.•Finite difference methodology definition to estimate excitations and velocities.•Case study application on a gearbox-like structure. Noise legislations and the increasing customer demands determine the NVH (Noise Vibration and Harshness) development of modern commercial vehicles. In order to meet the stringent legislative requirements for the vehicle noise emission, exact knowledge of all vehicle noise sources and their acoustic behavior is required. The development of new analysis tools to investigate the vibroacoustic behaviour within vehicle development process is of essential importance to achieve better products in combination with time and cost reduction. This paper discusses the application of an experimental multi-point and multi-DOF energy flow analysis (EFA) methodology for the NVH assessment and ranking of vibro-acoustic sources. The methodology consists of two steps in which the system mobility matrix are obtained by direct measurements whereas the dynamic loads under operational conditions are obtained through an inverse procedure. A finite difference technique is used to distinguish between degrees of freedom. A practical example is given for a gearbox, for which the noise paths from the gears through the gear-supporting shafts and bearings into the gearbox housing has been experimentally assessed in terms of energy flows. This paper also discusses the accuracy and limits of the methodology.
ISSN:0888-3270
1096-1216
DOI:10.1016/j.ymssp.2018.06.050