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Stability study of the compressible Mooney-Rivlin hyperelastic model

Balázs Fodor, Attila Kossa

2024The Journal of Strain Analysis for Engineering Design15 citationsDOI

Abstract

The unstable behavior of the isotropic, compressible Mooney-Rivlin hyperelastic model is investigated and described. The constitutive equation is parameterized with the help of the ground-state Poisson’s ratio and the dimensionless ratio of the material parameters [Formula: see text] and [Formula: see text]. Transverse stretch solutions are obtained for standard homogeneous loading modes, and the stress solutions are computed numerically for the physically permitted range of the ground-state Poisson’s ratio. We introduce a numerical technique to isolate subdomains with non-unique transverse stretch responses. Our analysis revealed some limitations of the model and allowed us to make critical observations about the strengths and weaknesses of the model. The analyses we present are essential to understand the characteristics of this widely used hyperelastic model. The novel results have important implications for the application of the isotropic, compressible Mooney-Rivlin hyperelastic material model.

Topics & Concepts

Hyperelastic materialIsotropyCompressibilityDimensionless quantityPoisson's ratioOgdenConstitutive equationMechanicsPoisson distributionMathematical analysisPhysicsMathematicsFinite element methodThermodynamicsStatisticsQuantum mechanicsElasticity and Material ModelingElasticity and Wave PropagationAdvanced Numerical Methods in Computational Mathematics