Crystals (Sep 2023)

Monitoring of Joint Gap Formation in Laser Beam Butt Welding using Neural Network-Based Acoustic Emission Analysis

  • Saichand Gourishetti,
  • Leander Schmidt,
  • Florian Römer,
  • Klaus Schricker,
  • Sayako Kodera,
  • David Böttger,
  • Tanja Krüger,
  • András Kátai,
  • Joachim Bös,
  • Benjamin Straß,
  • Bernd Wolter,
  • Jean Pierre Bergmann

DOI
https://doi.org/10.3390/cryst13101451
Journal volume & issue
Vol. 13, no. 10
p. 1451

Abstract

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This study aimed to explore the feasibility of using airborne acoustic emission in laser beam butt welding for the development of an automated classification system based on neural networks. The focus was on monitoring the formation of joint gaps during the welding process. To simulate various sizes of butt joint gaps, controlled welding experiments were conducted, and the emitted acoustic signals were captured using audible-to-ultrasonic microphones. To implement an automated monitoring system, a method based on short-time Fourier transformation was developed to extract audio features, and a convolutional neural network architecture with data augmentation was utilized. The results demonstrated that this non-destructive and non-invasive approach was highly effective in detecting joint gap formations, achieving an accuracy of 98%. Furthermore, the system exhibited promising potential for the low-latency monitoring of the welding process. The classification accuracy for various gap sizes reached up to 90%, providing valuable insights for characterizing and categorizing joint gaps accurately. Additionally, increasing the quantity of training data with quality annotations could potentially improve the classifier model’s performance further. This suggests that there is room for future enhancements in the study.

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