Three-dimensional cellular automata modelling of cleavage propagation across crystal boundaries in polycrystalline microstructures

A three-dimensional cellular automata (CA) with rectilinear layout is used in this work to create and cleave polycrystalline microstructures. Each crystal is defined by a unique randomly generated orientation tensor. Separate states for grains, grain boundaries, crack flanks and crack fronts are cre...

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Veröffentlicht in:	Proceedings of the Royal Society. A, Mathematical, physical, and engineering sciences Mathematical, physical, and engineering sciences, 2015-05, Vol.471 (2177), p.20150039
Hauptverfasser:	Shterenlikht, A., Margetts, L.
Format:	Artikel
Sprache:	eng
Schlagworte:	Cellular Automata Cleavage Finite-Elements Grain Boundary Polycrystals Three-Dimensional
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container_title	Proceedings of the Royal Society. A, Mathematical, physical, and engineering sciences
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creator	Shterenlikht, A. Margetts, L.
description	A three-dimensional cellular automata (CA) with rectilinear layout is used in this work to create and cleave polycrystalline microstructures. Each crystal is defined by a unique randomly generated orientation tensor. Separate states for grains, grain boundaries, crack flanks and crack fronts are created. Algorithms for progressive cleavage propagation through crystals and across grain boundaries are detailed. The mesh independent cleavage criterion includes the critical cleavage stress and the length scale. Resolution of an arbitrary crystallographic plane within a 26-cell Moore neighbourhood is considered. The model is implemented in Fortran 2008 coarrays. The model gives realistic predictions of grain size and mis-orientation distributions, grain boundary topology and crack geometry. Finally, we show how the proposed CA model can be linked to a finite-element model to produce a multi-scale fracture framework.
doi_str_mv	10.1098/rspa.2015.0039
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subjects	Cellular Automata Cleavage Finite-Elements Grain Boundary Polycrystals Three-Dimensional
title	Three-dimensional cellular automata modelling of cleavage propagation across crystal boundaries in polycrystalline microstructures
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