Free vibration analysis of laminated cylindrical adhesive joints with conical composite shell adherends

In this paper, a unified method is proposed to predict the free and forced vibration behavior of the combined conical-cylindrical shell (CCS) structure in the steady-state thermal environment. The first-order shear deformation theory (FSDT) and the thermal strain are utilized to establish the energy equation of the combined structure, and the artificial virtual spring technique is introduced to realize the coupling between the substructures and the arbitrary boundary conditions of the CCS. The displacement function of the structure is constructed by the spectral-geometry method, and the vibration equation is solved by using the Rayleigh–Ritz method. The accuracy of the present model is verified by comparing the numerical results with the finite element method. The factors that may affect the vibration behavior of the CCS under thermal environment are analyzed specifically, and the results demonstrate that point constraints on the shell surface can effectively suppress shell vibration. This paper provides a compelling reference for vibration control of CCS in practical applications.

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Free vibration analysis of laminated cylindrical adhesive joints with conical composite shell adherends

Cited by 4 publications

References 39 publications

Adhesively Bonded Tublar Single Lap Joint Effects on the Free Vibration Analysis of Laminated Composite Circular–Cylindrical Shells

Adhesively Bonded Tublar Single Lap Joint Effects on the Free Vibration Analysis of Laminated Composite Circular–Cylindrical Shells

On the influence of joining processes on the vibration of structures

Analysis of thermal-vibration coupling modeling of combined conical-cylindrical shell under complex boundary conditions

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