Power flow boundary element analysis for multi-domain problems in vibrational built-up structures

A power flow boundary element methodology for the treatment of multi-domain problems is developed to predict the vibrational responses of coupled structures in medium-to-high frequency ranges. In the proposed methodology, a matrix equation is formulated by utilizing the power flow coupling relationships at the interface of the domains. This analysis method is successfully applied to the treatment of simply supported coupled beams and coupled plates. The vibration analysis of these structures is then considered for all wave components. The vibrational energy density and intensity of two coupled structures obtained through numerical simulations are compared with those of the original power flow analysis, and these results show good agreement.

► Power flow boundary element method (PFBEM) is developed for multi-domain problems. ► PFBEM is developed for applying power flow analysis to complex structures. ► Traditionally, PFBEM can be applied to one domain problems. ► Now PFBEM can be applied to problems with multi-domain problems.