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On the role of large cross-sectional deformations in the nonlinear analysis of composite thin-walled structures

Erasmo Carrera, A. Pagani, R. Augello

2020Archive of Applied Mechanics22 citationsDOIOpen Access PDF

Abstract

Abstract The geometrical nonlinear effects caused by large displacements and rotations over the cross section of composite thin-walled structures are investigated in this work. The geometrical nonlinear equations are solved within the finite element method framework, adopting the Newton–Raphson scheme and an arc-length method. Inherently, to investigate cross-sectional nonlinear kinematics, low- to higher-order theories are employed by using the Carrera unified formulation, which provides a tool to generate refined theories of structures in a systematic manner. In particular, beams and shell-like laminated composite structures are analyzed using a layerwise approach, according to which each layer has its own independent kinematics. Different stacking sequences are analyzed, to highlight the influence of the cross-ply angle on the static responses. The results show that the geometrical nonlinear effects play a crucial role, mainly when higher-order theories are utilized.

Topics & Concepts

Nonlinear systemKinematicsComposite numberStackingFinite element methodCross section (physics)Shell (structure)Structural engineeringMathematicsGeometryMathematical analysisMaterials sciencePhysicsClassical mechanicsEngineeringAlgorithmComposite materialQuantum mechanicsNuclear magnetic resonanceComposite Structure Analysis and OptimizationStructural Analysis and OptimizationAeroelasticity and Vibration Control