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Many materials exhibit micro cracks, which strongly influence the propagation behavior of macro cracks and thus are vitally important for the overall load-carrying capacity of a material. Using a singlescale analysis for this class of problems is not feasible, as the incorporation of micro cracks requires a very fine discretization, which results in a high computational effort. As micro cracks only need to be accounted for in the vicinity of a macro crack front, a multiscale approach is proposed as an elegant and efficient alternative to singlescale analysis. The multiscale method is implemented in context of the three-dimensional eXtended Finite Element Method (XFEM). Special measures are taken to improve robustness and accuracy of the XFEM. A crack face contact formulation is proposed, which prevents the faces of a crack from penetrating each other and thus provides for physically meaningful results.
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A multiscale method for fracturing solids, Dana Müller-Braun
- Sprache
- Erscheinungsdatum
- 2012
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- Titel
- A multiscale method for fracturing solids
- Sprache
- Englisch
- Autor*innen
- Dana Müller-Braun
- Verlag
- 2012
- ISBN10
- 3941302051
- ISBN13
- 9783941302051
- Kategorie
- Skripten & Universitätslehrbücher
- Beschreibung
- Many materials exhibit micro cracks, which strongly influence the propagation behavior of macro cracks and thus are vitally important for the overall load-carrying capacity of a material. Using a singlescale analysis for this class of problems is not feasible, as the incorporation of micro cracks requires a very fine discretization, which results in a high computational effort. As micro cracks only need to be accounted for in the vicinity of a macro crack front, a multiscale approach is proposed as an elegant and efficient alternative to singlescale analysis. The multiscale method is implemented in context of the three-dimensional eXtended Finite Element Method (XFEM). Special measures are taken to improve robustness and accuracy of the XFEM. A crack face contact formulation is proposed, which prevents the faces of a crack from penetrating each other and thus provides for physically meaningful results.