# A phase field approach for damage propagation in periodic   microstructured materials

**Authors:** Francesca Fantoni, Andrea Bacigalupo, Marco Paggi, Jos\`e Reinoso

arXiv: 1908.02993 · 2019-08-09

## TL;DR

This paper introduces a multiscale computational method combining homogenization and phase field fracture modeling to analyze damage evolution in periodic composite materials, accounting for microstructural effects.

## Contribution

It presents a novel finite element-based multiscale approach integrating homogenization with phase field fracture modeling for damage analysis in microstructured materials.

## Key findings

- Damage evolution depends on microstructural topology and inclusion content.
- The method predicts tensile strength and post-peak behavior influenced by microstructure.
- Full microscopic field reconstruction is possible through down-scaling relations.

## Abstract

In the present work, the evolution of damage in periodic composite materials is investigated through a novel finite element-based multiscale computational approach. The methodology is developed by means of the original combination of homogenization methods with the phase field approach of fracture. This last is applied at the macroscale level on the equivalent homogeneous continuum, whose constitutive properties are obtained in closed form via a two-scale asymptotic homogenization scheme. The formulation allows considering different assumptions on the evolution of damage at the microscale (e.g., damage in the matrix and not in the inclusion/fiber), as well as the role played by the microstructural topology. Numerical results show that the proposed formulation leads to an apparent tensile strength and a post-peak branch of unnotched and notched specimens dependent not only on the internal length scale of the phase field approach, as for homogeneous materials, but also on the inclusion volumetric content and its shape. Down-scaling relations allow the full reconstruction of the microscopic fields at any point of the macroscopic model, as a simple post-processing operation.

## Full text

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## Figures

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## References

99 references — full list in the complete paper: https://tomesphere.com/paper/1908.02993/full.md

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Source: https://tomesphere.com/paper/1908.02993