论文信息 - Hybrid power flow analysis using coupling loss factor of SEA for low-damping system—Part II: Formulation of 3-D case and hybrid PFFEM

Hybrid power flow analysis using coupling loss factor of SEA for low-damping system—Part II: Formulation of 3-D case and hybrid PFFEM

The hybrid power flow analysis (PFA) is an analytic method proposed for the effective prediction of vibrational and acoustic responses of low-damping system in the medium-to-high frequency ranges by using the PFA algorithm and statistical energy analysis (SEA) coupling concepts. This paper presents the hybrid boundary condition on 3-D case for hybrid PFA in addition to 1-D and 2-D cases which are derived in the other companion paper, and formulates the hybrid power flow finite-element method (PFFEM) including coupling loss factor (CLF) of SEA to extend the application area of hybrid PFA to built-up structures. To verify the derived boundary condition and hybrid PFFEM, numerical analyses were successfully performed for various analytic models and reverberance factors.

Young-Ho Park | Suk-Yoon Hong | Suk-Yoon Hong | Young-Ho Park

[1] S. H. Sung,et al. Power Flow Finite Element Analysis of Dynamic Systems: Basic Theory and Application to Beams , 1989 .

[2] Suk-Yoon Hong,et al. Development of PFFEM Software-"PFADS R3": (II) Applications to Vehicle Vibration Analysis , 2003 .

[3] Young-Ho Park,et al. Development of PFFEM Software-"PFADS R3" : (I)Program Structures and Functions , 2003 .

[4] Robert J. Bernhard,et al. Models of space-averaged energetics of plates , 1992 .

[5] Phillip Eung-Ho Cho. Energy flow analysis of coupled structures , 1993 .

[6] F. Fahy,et al. Sound and Structural Vibration: Radiation, Transmission and Response , 1987 .