Pech, S., Lukacevic, M., & Füssl, J. (2022). Validation of a hybrid multi-phase field model for fracture of wood. Engineering Fracture Mechanics, 275, Article 108819. https://doi.org/10.1016/j.engfracmech.2022.108819
E202-02 - Forschungsbereich Struktursimulation und Ingenieurholzbau
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Journal:
Engineering Fracture Mechanics
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ISSN:
0013-7944
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Date (published):
Nov-2022
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Number of Pages:
16
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Publisher:
Elsevier
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Peer reviewed:
Yes
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Keywords:
Cohesive fracture; Multi-phase field model; Orthotropic materials; Wood
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Abstract:
Fracture mechanics simulations are crucial for understanding the failure of wood, where the microstructure strongly influences mechanical properties. In particular, complex crack topologies present a challenge for which not many modeling approaches are suited. Therefore, a hybrid multi-phase field model, supporting cohesive failure in orthotropic materials with favorable fracture planes, is used. We show that the model agrees well with the investigated experiments, with tensile strengths and fracture energy release rates in a reasonable range for wood. Those findings allow the application of this model to more complex situations like wooden boards with multiple knots and complex fiber courses and show that the model's input parameters are not purely numerical values but rather material parameters.
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Project title:
Holz durch computergestützte Methoden berechenbar machen: Y 1093-N30 (Fonds zur Förderung der wissenschaftlichen Forschung (FWF))
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Research Areas:
Biological and Bioactive Materials: 50% Modeling and Simulation: 20% Computational Materials Science: 30%
CC BY 4.0
