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A user material approach for the solution of multi-field problems in Abaqus: Theoretical foundations, gradient-enhanced damage mechanics and thermo-mechanical coupling

Lennart Sobisch, Tobias Kaiser, Tim Furlan, Andreas Menzel

2024Finite Elements in Analysis and Design13 citationsDOIOpen Access PDF

Abstract

The solution of multi-field problems and the numerical implementation by means of the finite element method constitute a sophisticated part of the characterisation of industrial processes. A comprehensive implementation framework for such a system of coupled field equations into a non-linear large strain finite element formulation is provided. The procedure is derived for a micromorphic approach in a thermo-mechanical setting. Although the provided framework contributes to a particular three-field problem it is not limited to a specific application or a specific number of coupled field equations from a conceptual point of view. The solution of the considered system of equations is separated into two coupled domains, with the balance of linear momentum and a balance equation of heat equation-type being solved on each of them. Since both, the balance of micromorphic momentum and the heat balance equation, are partial differential equations of Laplace-type, the resulting two-instance problem can be solved in the framework of commercial finite element software, such as Abaqus, based on a thermo-mechanical user material. To assess the framework for a particular constitutive model, a gradient-enhanced damage model in a thermo-mechanical setting is applied and representative simulation results are discussed. The Abaqus framework is made available as an open-source code on GitHub ( https://github.com/InstituteOfMechanics/Thermomechanical_Gradient_Enhanced_Damage_UMAT ).

Topics & Concepts

Finite element methodCoupling (piping)Damage mechanicsField (mathematics)Structural engineeringMaterials scienceMechanical engineeringComputer scienceMechanicsEngineeringPhysicsMathematicsPure mathematicsNumerical methods in engineeringComposite Structure Analysis and OptimizationNonlocal and gradient elasticity in micro/nano structures
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