Effect of disorder on shrinkage-induced fragmentation of a thin brittle layer

We investigate the effect of the amount of disorder on the shrinkage-induced cracking of a thin brittle layer attached to a substrate. Based on a discrete element model we study how the dynamics of cracking and the size of fragments evolve when the amount of disorder is varied. In the model a thin l...

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Published in	Physical review. E Vol. 96; no. 3-1; p. 033006
Main Authors	Halász, Zoltán, Nakahara, Akio, Kitsunezaki, So, Kun, Ferenc
Format	Journal Article
Language	English
Published	United States 01.09.2017
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Abstract	We investigate the effect of the amount of disorder on the shrinkage-induced cracking of a thin brittle layer attached to a substrate. Based on a discrete element model we study how the dynamics of cracking and the size of fragments evolve when the amount of disorder is varied. In the model a thin layer is discretized on a random lattice of Voronoi polygons attached to a substrate. Two sources of disorder are considered: structural disorder captured by the local variation of the stiffness and strength disorder represented by the random strength of cohesive elements between polygons. Increasing the amount of strength disorder, our calculations reveal a transition from a cellular crack pattern, generated by the sequential branching and merging of cracks, to a disordered ensemble of cracks where the merging of randomly nucleated microcracks dominate. In the limit of low disorder, the statistics of fragment size is described by a log-normal distribution; however, in the limit of high disorder, a power-law distribution is obtained.
AbstractList	We investigate the effect of the amount of disorder on the shrinkage-induced cracking of a thin brittle layer attached to a substrate. Based on a discrete element model we study how the dynamics of cracking and the size of fragments evolve when the amount of disorder is varied. In the model a thin layer is discretized on a random lattice of Voronoi polygons attached to a substrate. Two sources of disorder are considered: structural disorder captured by the local variation of the stiffness and strength disorder represented by the random strength of cohesive elements between polygons. Increasing the amount of strength disorder, our calculations reveal a transition from a cellular crack pattern, generated by the sequential branching and merging of cracks, to a disordered ensemble of cracks where the merging of randomly nucleated microcracks dominate. In the limit of low disorder, the statistics of fragment size is described by a log-normal distribution; however, in the limit of high disorder, a power-law distribution is obtained.
Author	Halász, Zoltán Kitsunezaki, So Nakahara, Akio Kun, Ferenc
Author_xml	– sequence: 1 givenname: Zoltán surname: Halász fullname: Halász, Zoltán organization: Institute for Nuclear Research, Hungarian Academy of Sciences (Atomki), P.O. Box 51, H-4001 Debrecen, Hungary – sequence: 2 givenname: Akio surname: Nakahara fullname: Nakahara, Akio organization: Laboratory of Physics, College of Science and Technology, Nihon University, 7-24-1 Narashinodai, Funabashi 274-8501, Japan – sequence: 3 givenname: So surname: Kitsunezaki fullname: Kitsunezaki, So organization: Research Group of Physics, Division of Natural Sciences, Faculty of Nara Women's University, Nara 630-8506, Japan – sequence: 4 givenname: Ferenc surname: Kun fullname: Kun, Ferenc organization: Department of Theoretical Physics, University of Debrecen, P.O. Box 5, H-4010 Debrecen, Hungary
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