Prediction of Pitting Corrosion Characteristics of AL-6XN Steel with Sensitization and Environmental Variables Using Multiple Linear Regression Method

IF 0.8 Q4 ELECTROCHEMISTRY Corrosion Science and Technology-Korea Pub Date : 2020-01-01 DOI:10.14773/CST.2020.19.6.302

Seong-Jong Kim, K. Jung

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引用次数: 2

Abstract

This study aimed to predict the pitting corrosion characteristics of AL-6XN super-austenitic steel using multiple linear regression. The variables used in the model are degree of sensitization, temperature, and pH. Experiments were designed and cyclic polarization curve tests were conducted accordingly. The data obtained from the cyclic polarization curve tests were used as training data for the multiple linear regression model. The significance of each factor in the response (critical pitting potential, repassivation potential) was analyzed. The multiple linear regression model was validated using experimental conditions that were not included in the training data. As a result, the degree of sensitization showed a greater effect than the other variables. Multiple linear regression showed poor performance for prediction of repassivation potential. On the other hand, the model showed a considerable degree of predictive performance for critical pitting potential. The coefficient of determination (R 2 ) was 0.7745. The possibility for pitting potential prediction was confirmed using multiple linear regression.

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基于敏化度和环境变量的AL-6XN钢点蚀特性多元线性回归预测

本研究旨在利用多元线性回归预测AL-6XN超奥氏体钢的点蚀特性。模型中使用的变量为敏化度、温度和ph值。据此设计实验并进行循环极化曲线测试。循环极化曲线试验数据作为多元线性回归模型的训练数据。分析了各因素(临界点蚀电位、再钝化电位)对反应的影响。使用训练数据中未包含的实验条件对多元线性回归模型进行验证。结果表明，敏化程度比其他变量的影响更大。多元线性回归对再钝化电位的预测效果较差。另一方面，该模型对临界点蚀电位具有相当程度的预测性能。决定系数(r2)为0.7745。利用多元线性回归验证了点蚀电位预测的可能性。

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来源期刊

Corrosion Science and Technology-Korea ELECTROCHEMISTRY-

CiteScore

1.30

自引率

66.70%

发文量