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A hierarchic isogeometric hyperelastic solid-shell

Leonardo Leonetti, H. M. Verhelst

2024Computational Mechanics15 citationsDOIOpen Access PDF

Abstract

Abstract The present study aims to develop an original solid-like shell element for large deformation analysis of hyperelastic shell structures in the context of isogeometric analysis (IGA). The presented model includes a new variable to describe the thickness change of the shell and allows for the application of unmodified three-dimensional constitutive laws defined in curvilinear coordinate systems and the analysis of variable thickness shells. In this way, the thickness locking affecting standard solid-shell-like models is cured by enhancing the thickness strain by exploiting a hierarchical approach, allowing linear transversal strains. Furthermore, a patch-wise reduced integration scheme is adopted for computational efficiency reasons and to annihilate shear and membrane locking. In addition, the Mixed-Integration Point (MIP) format is extended to hyperelastic materials to improve the convergence behaviour, hence the efficiency, in Newton iterations. Using benchmark problems, it is shown that the proposed model is reliable and resolves locking issues that were present in the previously published isogeometric solid-shell formulations.

Topics & Concepts

Hyperelastic materialIsogeometric analysisCurvilinear coordinatesShell (structure)Context (archaeology)Materials scienceConvergence (economics)Finite element methodComputer scienceApplied mathematicsMathematicsStructural engineeringTopology (electrical circuits)GeometryEngineeringComposite materialGeologyPaleontologyEconomic growthCombinatoricsEconomicsAdvanced Numerical Analysis TechniquesNumerical methods in engineeringPolynomial and algebraic computation
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