A generalized time-domain constitutive finite element approach for viscoelastic materials

Despite the existence of time domain finite element formulations for viscoelastic materials, there are still substantial ways to improve the analysis. To the authors’ knowledge, the formulation of the problem is always done with respect to a single constitutive relation and so limits the implementer...

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Bibliographic Details
Published in:Modelling and simulation in materials science and engineering 2024-04, Vol.32 (3), p.35028
Main Authors: Abercrombie, Eric, Gregory McDaniel, J, Walsh, Timothy
Format: Article
Language:English
Subjects:
constitutive relations
finite elements
viscoelasticity
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Summary:Despite the existence of time domain finite element formulations for viscoelastic materials, there are still substantial ways to improve the analysis. To the authors’ knowledge, the formulation of the problem is always done with respect to a single constitutive relation and so limits the implementer to a single scheme with which to model relaxation. Furthermore, all current constitutive relations involve the finding of fitting parameters for an analytical function, which is a sufficiently painful process to warrant the study of best fitting procedures to this day. In contrast, this effort is the first full derivation of the two dimensional problem from fundamental principles. It is also the first generalization of the problem, which frees users to select constitutive relations without re-derivation or re-expression of the problem. This approach is also the first approach to the problem that could lead to the elimination of constitutive relations for representing relaxation in viscoelastic materials. Following, the full derivation, several common constitutive relations are outlined with analysis of how they may best be implemented in the generalized form. Several expressions for viscoelastic terms are also provided given linear, quadratic, and exponential interpolation assumptions.
ISSN:0965-0393
1361-651X
DOI:10.1088/1361-651X/ad2ba1