Material Fracture Life Prediction Under High Creep Conditions Using Decision Trees and Rule-based Techniques

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URI: https://hdl.handle.net/11556/2611
ISBN: 9781665461665
DOI: 10.1109/RIVF55975.2022.10013817
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2022
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Institute of Electrical and Electronics Engineers Inc.
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Abstract
Several elements in power plants suffer from high creep conditions in its normal service life. This fact makes that high efficiency materials are used to manufacture critical components of the system. Among them, high chrome content alloy steels are widely applied in these cases to optimize the final mechanical properties of critical elements. Although knowing the mechanical properties at creep conditions is not an easy task, since creep tests are a high time consuming process. Due to these problems, the use of regression models to get a better understanding and a prediction of mechanical properties of the material is a really helpful technique. In this work, several regression techniques, based on decision trees and decision rules, are applied to predict the time when the material fracture happens. In order to build these models, a representative dataset of the problem was studied to get a better knowledge of the problem using several techniques of multivariate analysis. Then, a validation methodology based on cross validation training and simple validation testing was applied to verify the generalization of the models. The algorithms applied in this methodology show how decision trees and decision rules techniques can achieve accurate results in their prediction, obtaining low RMSE close to a 7%. And finally, among the studied algorithms, the one based on rule-based cubist technique performed the most accurate results.
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Publisher Copyright: © 2022 IEEE.
Keywords
cubist model , decision trees , rules-based techniques , validation methodology , Artificial Intelligence , Computer Networks and Communications , Computer Science Applications , Signal Processing , Information Systems and Management
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conference output
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Martinez , R F , Jimbert , P , Callejo , L M & Barbero , J I 2022 , Material Fracture Life Prediction Under High Creep Conditions Using Decision Trees and Rule-based Techniques . in V N Q Bao & T M Ha (eds) , Proceedings - 2022 RIVF International Conference on Computing and Communication Technologies, RIVF 2022 . Proceedings - 2022 RIVF International Conference on Computing and Communication Technologies, RIVF 2022 , Institute of Electrical and Electronics Engineers Inc. , pp. 244-249 , 2022 RIVF International Conference on Computing and Communication Technologies, RIVF 2022 , Ho Chi Minh City , Viet Nam , 20/12/22 . https://doi.org/10.1109/RIVF55975.2022.10013817
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