1. Accounting for weak interfaces in computing the effective crack energy of heterogeneous materials using the composite voxel technique.
- Author
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Ernesti, Felix and Schneider, Matti
- Subjects
- *
INHOMOGENEOUS materials , *BRITTLE fractures , *BRITTLE materials , *MATERIALS science , *CAPABILITIES approach (Social sciences) , *COMPOSITE materials - Abstract
We establish a computational methodology to incorporate interfaces with lower crack energy than the surrounding phases when computing the effective crack energy of brittle composite materials. Recent homogenization results for free discontinuity problems are directly applicable to the time-discretized Francfort-Marigo model of brittle fracture in the anti-plane shear case, and computational tools were introduced to evaluate the effective crack energy on complex microstructures using FFT-based solvers and a discretization scheme based on a combinatorially consistent grid. However, this approach only accounts for the crack resistance per volume and is insensitive to the crack resistance of the interface which is expected to play a significant role by considerations from materials science. In this work we introduce a remedy exploiting laminate composite voxels. The latter were originally introduced to enhance the accuracy of solutions for elasticity problems on regular voxel grids. We propose an accurate approximation of the effective crack energy of a laminate with weak interface where an explicit solution is available. We incorporate this insight into an efficient algorithmic framework. Finally, we demonstrate the capabilities of our approach on complex microstructures with weak interfaces between different constituents. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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