Applied Sciences (Mar 2024)

A Deep Learning Approach to Semantic Segmentation of Steel Microstructures

  • Jorge Muñoz-Rodenas,
  • Francisco García-Sevilla,
  • Valentín Miguel-Eguía,
  • Juana Coello-Sobrino,
  • Alberto Martínez-Martínez

DOI
https://doi.org/10.3390/app14062297
Journal volume & issue
Vol. 14, no. 6
p. 2297

Abstract

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The utilization of convolutional neural networks (CNNs) for semantic segmentation has proven to be successful in various applications, such as autonomous vehicle environment analysis, medical imaging, and satellite imagery. In this study, we investigate the application of different segmentation networks, including Deeplabv3+, U-Net, and SegNet, each recognized for their effectiveness in semantic segmentation tasks. Additionally, in the case of Deeplabv3+, we leverage the use of pre-trained ResNet50, ResNet18 and MobileNetv2 as feature extractors for a comprehensive analysis of steel microstructures. Our specific focus is on distinguishing perlite and ferrite phases in micrographs of low-carbon steel specimens subjected to annealing heat treatment. The micrographs obtained using an optical microscope are manually segmented. Preprocessing techniques are then applied to create a dataset for building a supervised learning model. In the results section, we discuss in detail the performance of the obtained models and the metrics used. The models achieve a remarkable 95% to 98% accuracy in correctly labeling pixels for each phase. This underscores the effectiveness of our approach in differentiating perlite and ferrite phases within steel microstructures.

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