Applied Sciences (May 2022)

Deep Learning-Based Weld Contour and Defect Detection from Micrographs of Laser Beam Welded Semi-Finished Products

  • Christian Nowroth,
  • Tiansheng Gu,
  • Jan Grajczak,
  • Sarah Nothdurft,
  • Jens Twiefel,
  • Jörg Hermsdorf,
  • Stefan Kaierle,
  • Jörg Wallaschek

DOI
https://doi.org/10.3390/app12094645
Journal volume & issue
Vol. 12, no. 9
p. 4645

Abstract

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Laser beam welding is used in many areas of industry and research. There are many strategies and approaches to further improve the weld seam properties in laser beam welding. Metallography is often needed to evaluate welded seams. Typically, the images are examined and evaluated by experts. The evaluation process qualitatively provides the properties of the welds. Particularly in times when artificial intelligence is being used more and more in processes, the quantization of properties that could previously only be determined qualitatively is gaining importance. In this contribution, we propose to use deep learning to perform semantic segmentation of micrographs of complex weld areas to achieve the automatic detection and quantization of weld seam properties. A semantic segmentation dataset is created containing 282 labeled images. The training process is performed with DeepLabv3+. The trained model achieves a value of around 95% for weld contour detection and 76.88% of mean intersection over union (mIoU).

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