Quantum machine learning for corrosion resistance in stainless steel

Quantum machine learning for corrosion resistance in stainless steel

This study evaluates the efficacy of quantum machine learning (QML) models in predicting stainless steel corrosion behaviour. Using two datasets, the quantum support vector classifier (QSVC) outperformed classical models, achieving accuracies of 95.46 % and 94.80 % for Dataset A and Dataset B, respe...

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Bibliographic Details
Main Authors: Muhamad Akrom, Supriadi Rustad, Totok Sutojo, De Rosal Ignatius Moses Setiadi, Hermawan Kresno Dipojono, Ryo Maezono, Moses Solomon
Format: Article
Language:English
Published: Elsevier 2024-09-01
Series:Materials Today Quantum
Subjects:
Quantum machine learning
QSVC
Corrosion
Stainless steel
Classification
Online Access:http://www.sciencedirect.com/science/article/pii/S2950257824000131
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Summary:This study evaluates the efficacy of quantum machine learning (QML) models in predicting stainless steel corrosion behaviour. Using two datasets, the quantum support vector classifier (QSVC) outperformed classical models, achieving accuracies of 95.46 % and 94.80 % for Dataset A and Dataset B, respectively. The QSVC excelled in identifying complex corrosion classes and demonstrated robust performance across diverse environments. This QML approach accurately predicts corrosion without experimental testing, saving significant time and cost. Future research will aim to include more environmental variables and steel types, broadening the model's applicability.
ISSN:2950-2578

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