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Journal of Materials Engineering and Performance

Erschienen in:

30.04.2018

Prediction and Computation of Corrosion Rates of A36 Mild Steel in Oilfield Seawater

verfasst von: Subir Paul, Rajdeep Mondal

Erschienen in: Journal of Materials Engineering and Performance | Ausgabe 6/2018

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Abstract

The parameters which primarily control the corrosion rate and life of steel structures are several and they vary across the different ocean and seawater as well as along the depth. While the effect of single parameter on corrosion behavior is known, the conjoint effects of multiple parameters and the interrelationship among the variables are complex. Millions sets of experiments are required to understand the mechanism of corrosion failure. Statistical modeling such as ANN is one solution that can reduce the number of experimentation. ANN model was developed using 170 sets of experimental data of A35 mild steel in simulated seawater, varying the corrosion influencing parameters SO₄²⁻, Cl⁻, HCO₃⁻,CO₃²⁻, CO₂, O₂, pH and temperature as input and the corrosion current as output. About 60% of experimental data were used to train the model, 20% for testing and 20% for validation. The model was developed by programming in Matlab. 80% of the validated data could predict the corrosion rate correctly. Corrosion rates predicted by the ANN model are displayed in 3D graphics which show many interesting phenomenon of the conjoint effects of multiple variables that might throw new ideas of mitigation of corrosion by simply modifying the chemistry of the constituents. The model could predict the corrosion rates of some real systems.

Vorheriger Artikel On the Variation of Hardness Due to Uniaxial and Equi-Biaxial Residual Surface Stresses at Elastic–Plastic Indentation

Nächster Artikel Effects of Coatings on the High-Cycle Fatigue Life of Threaded Steel Samples

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Titel: Prediction and Computation of Corrosion Rates of A36 Mild Steel in Oilfield Seawater
verfasst von: Subir Paul
Rajdeep Mondal
Publikationsdatum: 30.04.2018
Verlag: Springer US
Erschienen in: Journal of Materials Engineering and Performance / Ausgabe 6/2018
Print ISSN: 1059-9495
Elektronische ISSN: 1544-1024
DOI: https://doi.org/10.1007/s11665-018-3385-8

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