Design of Predictive Models to Estimate Corrosion in Buried Steel Structures

de Arriba-Rodríguez, Lorena-; Rodríguez-Montequín, Vicente; Villanueva-Balsera, Joaquín; Ortega-Fernández, Francisco

Design of Predictive Models to Estimate Corrosion in Buried Steel Structures

Lorena- de Arriba-Rodríguez, Vicente Rodríguez-Montequín, Joaquín Villanueva-Balsera and Francisco Ortega-Fernández
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Lorena- de Arriba-Rodríguez: Department of Mining Exploitation and Prospecting, University of Oviedo, 33004 Oviedo, Spain
Vicente Rodríguez-Montequín: Department of Mining Exploitation and Prospecting, University of Oviedo, 33004 Oviedo, Spain
Joaquín Villanueva-Balsera: Department of Mining Exploitation and Prospecting, University of Oviedo, 33004 Oviedo, Spain
Francisco Ortega-Fernández: Department of Mining Exploitation and Prospecting, University of Oviedo, 33004 Oviedo, Spain

Sustainability, 2020, vol. 12, issue 23, 1-14

Abstract: Corrosion is the main mechanism of the degradation of steel structures buried in the soil. Due to its aggressiveness, the material gradually loses thickness until the structure fails, which may cause serious environmental problems. The lack of a clearly established method in the design leads to the need for conservative excess thicknesses to ensure their useful life. This implies inefficient use of steel and an increase in the cost of the structure. In this paper, four quantitative and multivariate models were created to predict the loss of buried steel as a function of time. We developed a basic model, as well as a physical and an electrochemical one, based on multivariate adaptive regression spline (MARS), and a simpler model for comparative purposes based on clusters with Euclidean distance. The modeling was synthesized in a computer tool where the inputs were the characteristics of the soil and the time and the outputs were the loss of thickness of each predictive model and the description of the most similar real tests. The results showed that in all models, for relative errors of 10%, over 90% of predictions were correct. In addition, a real example of the operation of the tool was defined, where it was found that the estimates of the models allow the necessary optimization of steel to fulfill its useful life.

Keywords: steel corrosion; computer tool; predictive models; quantitative techniques; optimization; sustainable engineering (search for similar items in EconPapers)
JEL-codes: O13 Q Q0 Q2 Q3 Q5 Q56 (search for similar items in EconPapers)
Date: 2020
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