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Multiple internal resonances of rotating composite cylindrical shells under varying temperature fields

Yunfei Liu, Jun Wang, Jiaxin Hu, Zhaoye Qin, Fulei Chu

2022Applied Mathematics and Mechanics30 citationsDOIOpen Access PDF

Abstract

Abstract Composite cylindrical shells, as key components, are widely employed in large rotating machines. However, due to the frequency bifurcations and dense frequency spectra caused by rotation, the nonlinear vibration usually has the behavior of complex multiple internal resonances. In addition, the varying temperature fields make the responses of the system further difficult to obtain. Therefore, the multiple internal resonances of composite cylindrical shells with porosities induced by rotation with varying temperature fields are studied in this paper. Three different types of the temperature fields, the Coriolis forces, and the centrifugal force are considered here. The Hamilton principle and the modified Donnell nonlinear shell theory are used to obtain the equilibrium equations of the system, which are transformed into the ordinary differential equations (ODEs) by the multi-mode Galerkin technique. Thereafter, the pseudo-arclength continuation method, which can identify the regions of instability, is introduced to obtain the numerical results. The detailed parametric analysis of the rotating composite shells is performed. Multiple internal resonances caused by the interaction between backward and forward wave modes and the energy transfer phenomenon are detected. Besides, the nonlinear amplitude-frequency response curves are different under different temperature fields.

Topics & Concepts

Galerkin methodNonlinear systemShell (structure)PhysicsVibrationMultiple-scale analysisMechanicsNumerical continuationAmplitudeParametric statisticsParametric oscillatorClassical mechanicsInstabilityRotation (mathematics)Composite numberCentrifugal forceOrdinary differential equationDifferential equationFlow (mathematics)BifurcationMathematicsMaterials scienceGeometryOpticsAcousticsAlgorithmQuantum mechanicsComposite materialStatisticsVibration and Dynamic AnalysisComposite Structure Analysis and OptimizationVibration Control and Rheological Fluids
Multiple internal resonances of rotating composite cylindrical shells under varying temperature fields | Litcius