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Research on transmission paths of a coupled beam-cylindrical shell system by power flow analysis
G. P. Feng
The Journal of Mechanical Science and Technology, vol. 23, no. 8, pp.2138-2148, 2009
Abstract : A power flow analysis based on a substructure approach is performed to exhibit vibration transmission in a complex
coupled beam-cylindrical shell system. The system is divided into a shell substructure and a beam substructure, which
are coupled by three spring-dampers. The theoretical receptance function of each substructure with a free-free interface
condition is formulated by modal analysis to describe the dynamical behavior. On the basis of the receptance functions
of the two substructures as well as synthesis through the geometrical compatibility and force balance conditions at the
coupling interfaces, the dynamic characteristics of the coupled system are calculated. Both the input and transmitted
powers within the system are estimated, and the influences of the excitation locations, the stiffness and loss factor of
the spring-dampers on the vibration transmission are investigated as well.
Keyword : Vibration power flow; Substructure approach; Receptance; Transmission |
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