Finite element model to describe crack deflection and constrained micro-cracking
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2019. 371-374 Beitrag in 8th GACM Colloquium on Computational Mechanics, Kassel, Deutschland.
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T1 - Finite element model to describe crack deflection and constrained micro-cracking
AU - Tauscher, Markus
AU - Pletz, Martin
AU - Arbeiter, Florian
AU - Schuecker, Clara
PY - 2019/8/28
Y1 - 2019/8/28
N2 - An incremental finite element model is presented that predicts the growth of a crack through a 2Dstructure containing round pores. The crack is deflected due to the influence of the pores on the strain fieldand might grow into a pore. Furthermore, the initiation of cracks from the pore surfaces is modelled with acombined stress-energy criterion. The model contributes to the understanding of toughening mechanisms inheterogeneous materials. It is capable of showing the influence of the pore content, the pore arrangement andpore shape on the resistance to crack propagation.
AB - An incremental finite element model is presented that predicts the growth of a crack through a 2Dstructure containing round pores. The crack is deflected due to the influence of the pores on the strain fieldand might grow into a pore. Furthermore, the initiation of cracks from the pore surfaces is modelled with acombined stress-energy criterion. The model contributes to the understanding of toughening mechanisms inheterogeneous materials. It is capable of showing the influence of the pore content, the pore arrangement andpore shape on the resistance to crack propagation.
M3 - Paper
SP - 371
EP - 374
T2 - 8th GACM Colloquium on Computational Mechanics
Y2 - 28 August 2019 through 30 August 2019
ER -