Investigating Various Failure Models on Commercial Silicon Carbide

Pawan Chaugule; Mark C. Messner; Bipul Barua; Dileep Singh

doi:10.52825/solarpaces.v1i.711

SolarPACES Conference Proceedings (Mar 2024)

Investigating Various Failure Models on Commercial Silicon Carbide

Pawan Chaugule,
Mark C. Messner,
Bipul Barua,
Dileep Singh

Affiliations

Pawan Chaugule: ORCiD; Argonne National Laboratory
Mark C. Messner: ORCiD; Argonne National Laboratory
Bipul Barua: ORCiD; Argonne National Laboratory
Dileep Singh: ORCiD; Argonne National Laboratory

DOI: https://doi.org/10.52825/solarpaces.v1i.711
Journal volume & issue: Vol. 1

Abstract

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Structures and components made from ceramic materials are often brittle and can fail by the unstable growth of existing flaws such as voids and cracks. There have been several failure criteria developed for ceramics, in the past and they are broadly categorized based on their dependency on crack geometry. The present work implements eight failure criteria using an open-source software package – srlife, which predicts the lifetime or failure probability of concentrated solar power (CSP) structural components. The present work also checks the viability of building a ceramic CSP receiver, by analyzing the reliability predictions from srlife for a SiC ceramic. The reliability predictions for a biaxial loading problem indicated the Shetty Mixed-Mode criterion gives the most conservative predictions. Whereas, in case of the CSP receiver, the predictions show that the co-planar strain energy criterion gives the most conservative predictions as it is agnostic towards the type of stress, and therefore, is not recommended to be used designing ceramic receivers.

Published in SolarPACES Conference Proceedings

ISSN: 2751-9899 (Online)
Publisher: TIB Open Publishing
Country of publisher: Germany
LCC subjects: Science: Physics
Website: https://www.tib-op.org/ojs/index.php/solarpaces/index

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