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Consistent numerical implementation of hypoelastic constitutive models

Mehrdad Palizi, Salvatore Federico, Samer Adeeb

2020Zeitschrift für angewandte Mathematik und Physik16 citationsDOIOpen Access PDF

Abstract

Abstract In hypoelastic constitutive models, an objective stress rate is related to the rate of deformation through an elasticity tensor. The Truesdell, Jaumann, and Green–Naghdi rates of the Cauchy and Kirchhoff stress tensors are examples of the objective stress rates. The finite element analysis software ABAQUS uses a co-rotational frame which is based on the Jaumann rate for solid elements and on the Green–Naghdi rate for shell and membrane elements. The user subroutine UMAT is the platform to implement a general constitutive model into ABAQUS, but, in order to update the Jacobian matrix in UMAT, the model must be expressed in terms of the Jaumann rate of the Kirchhoff stress tensor. This study aims to formulate and implement various hypoelastic constitutive models into the ABAQUS UMAT subroutine. The developed UMAT subroutine codes are validated using available solutions, and the consequence of using wrong Jacobian matrices is elucidated. The UMAT subroutine codes are provided in the “Electronic Supplementary Material” repository for the user’s consideration.

Topics & Concepts

SubroutineConstitutive equationCauchy elastic materialJacobian matrix and determinantFinite element methodStress (linguistics)Tensor (intrinsic definition)Computer scienceElasticity (physics)MathematicsApplied mathematicsStructural engineeringEngineeringPhysicsGeometryLinguisticsOperating systemPhilosophyThermodynamicsElasticity and Material ModelingElasticity and Wave PropagationFatigue and fracture mechanics
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