Failure modes of irregular ceramic foam under compression: Development of a new image based strut segmentation strategy

TL;DR

This study investigates the failure mechanisms of irregular ceramic foam under compression, introducing a novel image segmentation and pruning strategy to identify critical struts and their failure modes, revealing new dominant failure behaviors.

Contribution

It develops a physics-based pruning strategy for image segmentation of foam microstructure, enabling detailed analysis of failure modes beyond traditional models.

Findings

Identifies mixed compression-tension and pure compression as dominant failure modes.

Reveals significant differences from Gibson-Ashby model predictions.

Provides a new methodology for microstructural failure analysis.

Abstract

The work investigates the failure modes of the microstructure of an irregular ceramic foam subjected to uniaxial compression loading. The foam material is manufactured using the direct foaming method and has polydispersed pores homogeneously distributed in the microstructure. The effective stress-strain curve and the macroscopic strength of the material differs significantly with the predictions of the Gibson-Ashby model that assumes a regular microstructure. The objective of this work is to determine the reasons. The work builds upon an image segmentation algorithm that utilizes a skeletonization method followed by geometric pruning strategies to isolate the struts in the foam microstructure. In this work, a novel pruning strategy defined by a physics-based significance measure is proposed, which identifies the struts whose failure leads to macroscopic failure of the material. The stresses in the struts are calculated by a finite element simulation, which is then utilized to determine their failure modes. This also reveals the relationship between the strut orientation and their failure modes.The energy dissipated by the individual failure modes as the loading is increased shows that there are two dominant modes which are different from the bending failure reported in the Gibson-Ashby model. These failure modes are mixed compression-tension and pure compression.