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Machine learning algorithms for the prediction of non-metallic inclusions in steel wires for tire reinforcement

Author

Listed:
  • Miguel Cuartas

    (University of Cantabria, E.T.S. de Ingenieros de Caminos, Canales y Puertos)

  • Estela Ruiz

    (Global Steel Wire, GSW)

  • Diego Ferreño

    (University of Cantabria, E.T.S. de Ingenieros de Caminos, Canales y Puertos)

  • Jesús Setién

    (University of Cantabria, E.T.S. de Ingenieros de Caminos, Canales y Puertos)

  • Valentín Arroyo

    (University of Cantabria, E.T.S. de Ingenieros de Caminos, Canales y Puertos)

  • Federico Gutiérrez-Solana

    (University of Cantabria, E.T.S. de Ingenieros de Caminos, Canales y Puertos)

Abstract

Non-metallic inclusions are unavoidably produced during steel casting resulting in lower mechanical strength and other detrimental effects. This study was aimed at developing a machine learning algorithm to classify castings of steel for tire reinforcement depending on the number and properties of inclusions, experimentally determined. 855 observations were available for training, validation and testing the algorithms, obtained from the quality control of the steel. 140 parameters are monitored during fabrication, which are the features of the analysis; the output is 1 or 0 depending on whether the casting is rejected or not. The following algorithms have been employed: Logistic Regression, K-Nearest Neighbors, Support Vector Classifier (linear and RBF kernels), Random Forests, AdaBoost, Gradient Boosting and Artificial Neural Networks. The reduced value of the rejection rate implies that classification must be carried out on an imbalanced dataset. Resampling methods and specific scores for imbalanced datasets (recall, precision and AUC rather than accuracy) were used. Random Forest was the most successful algorithm providing an AUC in the test set of 0.85. No significant improvements were detected after resampling. The optimized Random Forest allows the samples with a higher probability of being rejected to be selected, thus improving the effectiveness of the quality control. In addition, the optimized Random Forest has enabled to identify the most important features, which have been satisfactorily interpreted on a metallurgical basis.

Suggested Citation

  • Miguel Cuartas & Estela Ruiz & Diego Ferreño & Jesús Setién & Valentín Arroyo & Federico Gutiérrez-Solana, 2021. "Machine learning algorithms for the prediction of non-metallic inclusions in steel wires for tire reinforcement," Journal of Intelligent Manufacturing, Springer, vol. 32(6), pages 1739-1751, August.
    • Handle: RePEc:spr:joinma:v:32:y:2021:i:6:d:10.1007_s10845-020-01623-9
    DOI: 10.1007/s10845-020-01623-9
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    References listed on IDEAS

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    1. J.S. Cramer, 2002. "The Origins of Logistic Regression," Tinbergen Institute Discussion Papers 02-119/4, Tinbergen Institute.
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    1. Pengfei Gao & Xinggang Yan & Yao Wang & Hongwei Li & Mei Zhan & Fei Ma & Mingwang Fu, 2023. "An online intelligent method for roller path design in conventional spinning," Journal of Intelligent Manufacturing, Springer, vol. 34(8), pages 3429-3444, December.

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