Hybrid of monolithic and staggered solution techniques for the computational analysis of fracture, assessed on fibrous network mechanics
Autor: | Vedad Tojaga, Artem Kulachenko, Sören Östlund, T. Christian Gasser |
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Rok vydání: | 2022 |
Předmět: |
Computer Sciences
Applied Mathematics Mechanical Engineering Staggered Computational Mechanics MathematicsofComputing_NUMERICALANALYSIS Ocean Engineering Monolithic Numerical Analysis (math.NA) Hybrid Computational Mathematics Fracture Datavetenskap (datalogi) Computational Theory and Mathematics FOS: Mathematics Mathematics - Numerical Analysis |
DOI: | 10.48550/arxiv.2203.15924 |
Popis: | The computational analysis of fiber network fracture is an emerging field with application to paper, rubber-like materials, hydrogels, soft biological tissue, and composites. Fiber networks are often described as probabilistic structures of interacting one-dimensional elements, such as truss-bars and beams. Failure may then be modeled as strong discontinuities in the displacement field that are directly embedded within the structural finite elements. As for other strain-softening materials, the tangent stiffness matrix can be non-positive definite, which diminishes the robustness of the solution of the coupled (monolithic) two-field problem. Its uncoupling, and thus the use of a staggered solution method where the field variables are solved alternatingly, avoids such difficulties and results in a stable, but sub-optimally converging solution method. In the present work, we evaluate the staggered against the monolithic solution approach and assess their computational performance in the analysis of fiber network failure. We then propose a hybrid solution technique that optimizes the performance and robustness of the computational analysis. It represents a matrix regularization technique that retains a positive definite element stiffness matrix while approaching the tangent stiffness matrix of the monolithic problem. The approach is general and may also accelerate the computational analysis of other failure problems. Comment: Numerical Analysis (math.NA) |
Databáze: | OpenAIRE |
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