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Non-linear parametric vibration of the laminated composite shallow shells including primary and 1:2 internal resonances

Kamran Foroutan, Liming Dai, Haixing Zhao

2023Mechanics of Advanced Materials and Structures11 citationsDOI

Abstract

This research aims to study the non-linear parametric vibration of laminated composite shallow (LCS) shells with the optimal fiber angles exposed to external and parametric excitations, including primary and 1:2 internal resonances. In this regard, optimal fiber angles are found with implementations of the P-T method for the objective functions and utilization of the particle swarm optimization (PSO). Also, the non-linear model of the shallow shells is established based on the stress function and the first-order shear deformation theory (FSDT). According to FSDT, Hooke’s law, von-Kármán equation, Hamilton’s principle, and Galerkin method, two-degree-of-freedom non-linear ordinary differential governing equations are discretized.

Topics & Concepts

Galerkin methodParametric statisticsDiscretizationVibrationOrdinary differential equationComposite numberParticle swarm optimizationMathematicsMathematical analysisPhysicsStructural engineeringDifferential equationEngineeringFinite element methodMathematical optimizationAcousticsAlgorithmStatisticsComposite Structure Analysis and OptimizationTopology Optimization in EngineeringAeroelasticity and Vibration Control