This paper highlights interactions between modeling and experimentations for the dynamic analysis of bonded joint hybrid composite structure. Mathematical modeling based on response surface methodology (RSM) has been established. The validation of these models and the dynamic characterization of materials have been examined. The effect of boundary conditions and hybrid composite structure such as elastic modulus, volume fraction and bond line configuration on the frequency and damping factor values has been studied. The established mathematical models have been found to be quite unique, powerful and flexible. This model reflects the complex, interactive and higher order effects of the various input parameters. Through these models it can expect any experimental results of frequency and damping factor value with any combination of input parameters. The boundary condition and bond line configuration play an important role for controlling the dynamic behavior of hybrid composite structure

Dynamics; Hybrid Composite Structure; Bonded Joint; Modelling; Response Surface Methodology (RSM)