Litcius/Paper detail

A one-dimensional model for axisymmetric deformations of an inflated hyperelastic tube of finite wall thickness

Xiang Yu, Yibin Fu

2023Journal of the Mechanics and Physics of Solids17 citationsDOIOpen Access PDF

Abstract

We derive a one-dimensional (1d) model for the analysis of bulging or necking in an inflated hyperelastic tube of finite wall thickness from the three-dimensional (3d) finite elasticity theory by applying the dimension reduction methodology proposed by Audoly and Hutchinson (2016). The 1d model makes it much easier to characterize fully nonlinear axisymmetric deformations of a thick-walled tube using simple numerical schemes such as the finite difference method . The new model recovers the diffuse interface model for analyzing bulging in a membrane tube and the 1d model for investigating necking in a stretched solid cylinder as two limiting cases. It is consistent with, but significantly refines, the exact linear and weakly nonlinear bifurcation analyses . Comparisons with finite element simulations show that for the bulging problem, the 1d model is capable of describing the entire bulging process accurately, from initiation, growth, to propagation. The 1d model provides a stepping stone from which similar 1d models can be derived and used to study other effects such as anisotropy and electric loading, and other phenomena such as rupture.

Topics & Concepts

Hyperelastic materialFinite element methodNeckingRotational symmetryMechanicsNonlinear systemFinite differenceCylinderFinite difference methodBifurcationMaterials scienceIsotropyTube (container)Finite strain theoryElasticity (physics)MathematicsMathematical analysisStructural engineeringPhysicsGeometryEngineeringComposite materialOpticsQuantum mechanicsElasticity and Material ModelingFluid Dynamics Simulations and InteractionsStructural Analysis and Optimization