6Bernhard R J,,Huff J E.Structural-acoustic design at high fre-quency using the energy finite element method. Journal of Vi-bration and Acoustics . 1999
7Nefske D J,Sung S H.Power flow finite elementanalysis dynamic systems:basic theory andapplication to beams. J Vib Acoust StressReliab . 1999
8Wang S,Bernhard RJ.Energy finite elementmethod and statistical energy analysis of a heavyequipment. Proceedings of SAE99 Noise&Vibration Conference . 1999
3Klos J. Modeling point excited plates using an energy finite element method [C]//The 2004 National Conference on Noise Control Engineering. Baltimore, Maryland:INCE,2004 : 355-366.
4Zhang W, Vlahopoulos N, Wu K. An energy finite element formulation for high-frequency vibration analysis of externally fluid-loaded cylindrical shells with periodic circumferential stiffeners subjected to axisymmetric excitation [J]. Journal of Sound and Vibration, 2005, 282(3-5) : 679-700.
5Seo S, Hong S, Kil H. Power flow analysis of reinforced beam-plate coupled structures [J]. Journal of Sound and Vibration, 2003, 259(5): 1109-1129.
6Bernhard R J, Huff J E. Structural-acoustic design at high frequeney using the energy finite element method [J]. Journal of Vibration and Acoustics, Transactions of the ASME, 1999, 121(3): 295-301.
7Nefske D J, Sung S H. Power flow finite element analysis of dynamic systems: Basic theory and application to beams[J].Transactions of the ASME, 1989, 111(1) :94 - 100.
8Wohlever J C. Vibration power flow analysis of rods and beams[ D]. Purder University, 1988.
9Wohlever J C, Bernhard R J. Mechanical energy flow models of rods and beams [ J]. J Sound and Vibration, 1992, 152(1) :1 -19.
10Cho P E. Energy flow analysis of coupled structures [ D ]. Purder University, 1994.