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-aco...
Modeling techniques and solution tools to analyze the dynamic and vibro-acoustic behavior of complex...
Most of the currently available numerical prediction techniques for the analysis of steady-state dyn...
At mid- and high-frequency bands, displacement-based approaches such as the finite element method (F...
We present a new approach for modelling noise and vibration in complex mechanical structures in the ...
Standard methods for describing the intensity distribution of mechanical and acoustic wave fields in...
The vibro-acoustic response of mechanical structures can in general be well approximated in terms of...
Future aircraft concepts utilizing innovative lightweight structures and novel propulsion concepts a...
Modelling the vibro-acoustic properties of mechanical built-up structures is a challenging task. Com...
The approximate vibrational and acoustical responses of structural-acoustic systems can be modeled b...
Modelling vibroacoustic problems in the field of building design is a challenging problem due to the...
Vibration transmission analysis is important to understand vibration problems occurring in dynamic s...
The medium frequency vibration of a built-up plate structure is studied by an energy flow analysis w...
The Energy Finite Element Method (EFEM) is based upon an approximation of the partial differential e...
AbstractDynamical energy analysis was recently introduced as a new method for determining the distri...
Modelling vibro-acoustics is of crucial importance in many areas of mechanical engineering and indus...
Modeling techniques and solution tools to analyze the dynamic and vibro-acoustic behavior of complex...
Most of the currently available numerical prediction techniques for the analysis of steady-state dyn...
At mid- and high-frequency bands, displacement-based approaches such as the finite element method (F...
We present a new approach for modelling noise and vibration in complex mechanical structures in the ...
Standard methods for describing the intensity distribution of mechanical and acoustic wave fields in...
The vibro-acoustic response of mechanical structures can in general be well approximated in terms of...
Future aircraft concepts utilizing innovative lightweight structures and novel propulsion concepts a...
Modelling the vibro-acoustic properties of mechanical built-up structures is a challenging task. Com...
The approximate vibrational and acoustical responses of structural-acoustic systems can be modeled b...
Modelling vibroacoustic problems in the field of building design is a challenging problem due to the...
Vibration transmission analysis is important to understand vibration problems occurring in dynamic s...
The medium frequency vibration of a built-up plate structure is studied by an energy flow analysis w...
The Energy Finite Element Method (EFEM) is based upon an approximation of the partial differential e...
AbstractDynamical energy analysis was recently introduced as a new method for determining the distri...
Modelling vibro-acoustics is of crucial importance in many areas of mechanical engineering and indus...
Modeling techniques and solution tools to analyze the dynamic and vibro-acoustic behavior of complex...
Most of the currently available numerical prediction techniques for the analysis of steady-state dyn...
At mid- and high-frequency bands, displacement-based approaches such as the finite element method (F...