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Microstructure Characterization of High Explosives by Wavelet Transform

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  • Xianzhen Jia
  • Peng Cao
  • Yutong Han
  • Hang Zheng
  • Yushuai Wu
  • Junxing Zheng
  • John D. Clayton

Abstract

The key macro properties of high explosives including sensitivity to shock, the possibility of initiation, and the subsequent chemical reaction are known to be controlled by processes occurring at their microstructure level. However, there is a lack of an easy, effective, and accurate method to quantify the microstructure, termed as fabric, of high explosives despite an abundance of evidence regarding its importance. This study proposes a rotational Haar wavelet transform (RHWT) method to characterize the fabric of high explosives from two-dimensional images, yielding key fabric parameters including rose diagram, fabric direction, and degree of fabric anisotropy. The fabric tensor commonly used in numerical simulations and constitutive models can also be determined by RHWT. The RHWT was implemented on microscopic images of six high explosives captured by various imaging techniques including scanning electrical microscopy, polarized light microscopy, and micro X-ray computed tomography. Despite these variables, the proposed RHWT successfully identifies fabric in these images, demonstrating robustness and validity of RHWT.

Suggested Citation

  • Xianzhen Jia & Peng Cao & Yutong Han & Hang Zheng & Yushuai Wu & Junxing Zheng & John D. Clayton, 2022. "Microstructure Characterization of High Explosives by Wavelet Transform," Mathematical Problems in Engineering, Hindawi, vol. 2022, pages 1-16, April.
    • Handle: RePEc:hin:jnlmpe:3833205
    DOI: 10.1155/2022/3833205
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