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Vibration of solid and thin-walled slender structures made of soft materials by high-order beam finite elements

A. Pagani, Piero Chiaia, Erasmo Carrera

2023International Journal of Non-Linear Mechanics11 citationsDOIOpen Access PDF

Abstract

In this work, high-order beam (1D) finite element models for the modal analysis of structures made of compressible and nearly-incompressible hyperelastic soft materials are presented in the well-established framework of Carrera Unified Formulation (CUF). In this investigation, the modal behavior of soft structures subjected to progressively increasing loads can be correctly predicted by higher-order structural theories, and the influence of pre-stress conditions applied on the modal response of structures is investigated. The mathematical formulation of hyperelastic isotropic materials is presented in terms of invariants of the right Cauchy–Green strain tensor, obtaining the most general expression of the Piola-Kirchoff 2 stress tensor and tangent elasticity tensor, both independent of the model adopted for the material strain energy function. Governing equations in matrix forms for the static nonlinear analysis and subsequent vibration problem around non-trivial equilibrium states are derived through the Principle of Virtual Displacements (PVD) under a total Lagrangian formulation, defining the fundamental nuclei of stiffness matrices and internal and external forces vector, all independent of expansion theories and kinematic models adopted in the mathematical modeling of finite elements. Actual numerical results are obtained by an iterative Newton–Raphson linearized scheme coupled with line-search algorithms, and they are compared with results obtained by the commercial code ABAQUS. Our proposed models are tested with large strains problems involving hyperelastic slender and thin-walled structures, for which mode aberration such as crossing or bearing are observed.

Topics & Concepts

Hyperelastic materialFinite element methodTangent stiffness matrixCauchy stress tensorInfinitesimal strain theoryMathematicsTensor (intrinsic definition)Mathematical analysisVirtual workStress resultantsElasticity (physics)Finite strain theoryStiffness matrixStructural engineeringGeometryPhysicsEngineeringThermodynamicsElasticity and Material ModelingComposite Structure Analysis and OptimizationFluid Dynamics and Vibration Analysis
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