Título
Surface defect detection with predictive models in the galvanizing process
Autor
BARUC EMET PEREZ BENITEZ
Nivel de Acceso
Acceso Abierto
Materias
Resumen o descripción
Hot-dip galvanizing is a widely used process worldwide to provide metal products with a
protective layer that enhances its corrosion resistance. The effectiveness of such layer relies on the
uniformity of the coverage, thus, any alteration in the galvanizing layer may be considered as a
defect. These defects are catalogued as surface defects where two groups are identified: Bare Spots
and Dross-Derived defects. Currently, these defects are detected at the end of the line where no
preventive actions can be performed. Consequently, the surface defects’ occurrence is not avoided,
increasing in turn the expenses of the company. For that reason, a project oriented to these defects’
prediction is proposed.
This project consists on a set of predictive models, which are tested to be able to predict these
defects’ occurrence at an early stage that let the people of the galvanizing line to design and unleash
preventive actions that could alleviate the surface defects’ incidents. Four models are studied:
Stepwise Logistic Regression, Random Forest Classifier, Gradient Boosting Classifier, and Low
FNR Low FPR Random Forest Classifier (LFNR-LFPR RFC) ensemble. LFNR-LFPR RFC is a
custom-made multi-objective ensemble designed in this project, which basic learners are two
Random Forest Classifiers. To test the models’ performance, the False Negative Rate (FNR) and
False Positive Rate (FPR) scores are employed, where the acceptance criteria is to at most have a
15% of FNR and a 25% FPR. From the models tested, LFNR-LFPR RFC was able to outperform
the others while achieving FNR and FPR scores under the acceptance criteria for most of the
studied cases (two out of three for Bare Spots and one out of two for Dross-Derived defects).
Furthermore, the importance of the variables selected for the LFNR-LFPR RFC model was
evaluated. As a result, variables from different sources, such as the galvanizing line per se, the
chemistry of the coil and from upstream processes, were obtained. In turn, these lists of variables
can provide insights on how to design preventive actions that could decrease the surface defects’
occurrence. Finally, the economic impact of the defects and the predictive models is assessed,
where, according to the LFNR-LFPR RFC ensemble’s results, savings are possible.
Maestro en Ciencias de la Ingeniería
Editor
Instituto Tecnológico y de Estudios Superiores de Monterrey
Fecha de publicación
4 de diciembre de 2020
Tipo de publicación
Tesis de maestría
Recurso de información
Formato
application/pdf
Idioma
Inglés
Audiencia
Público en general
Repositorio Orígen
Repositorio Institucional del Tecnológico de Monterrey
Descargas
0