Fractal and Fractional (Sep 2022)

Characterization of Ceramic Thermal Shock Cracks Based on the Multifractal Spectrum

  • Changxu Shao,
  • Hao Guo,
  • Songhe Meng,
  • Yingfeng Shao,
  • Shanxiang Wang,
  • Shangjian Xie,
  • Fei Qi

DOI
https://doi.org/10.3390/fractalfract6100539
Journal volume & issue
Vol. 6, no. 10
p. 539

Abstract

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Ceramics are commonly used as high-temperature structural materials which are easy to fracture because of the propagation of thermal shock cracks. Characterizing and controlling crack propagation are significant for the improvement of the thermal shock resistance of ceramics. However, observing crack morphology, based on macro and SEM images, costs much time and potentially includes subjective factors. In addition, complex cracks cannot be counted and will be simplified or omitted. Fractals are suitable to describe complex and inhomogeneous structures, and the multifractal spectrum describes this complexity and heterogeneity in more detail. This paper proposes a crack characterization method based on the multifractal spectrum. After thermal shocks, the multifractal spectrum of alumina ceramics was obtained, and the crack fractal features were extracted. Then, a deep learning method was employed to extract features and automatically classify ceramic crack materials with different strengths, with a recognition accuracy of 87.5%.

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