Enhancing creep rupture life prediction of high‐temperature titanium alloys using convolutional neural networks

Enhancing creep rupture life prediction of high‐temperature titanium alloys using convolutional neural networks

Abstract Prediction of creep rupture life of high‐temperature titanium alloys is crucial for their practical applications. The efficient representations (features) of the information encoded in the data are essential to achieve an accurate prediction model. Here, using convolutional neural networks...

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Bibliographic Details
Main Authors: Bangtan Zong, Jinshan Li, Changlu Zhou, Ping Wang, Bin Tang, Ruihao Yuan
Format: Article
Language:English
Published: Wiley-VCH 2024-12-01
Series:Materials Genome Engineering Advances
Subjects:
convolutional neural networks
creep rupture life
high‐temperature titanium alloys
Online Access:https://doi.org/10.1002/mgea.68
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Summary:Abstract Prediction of creep rupture life of high‐temperature titanium alloys is crucial for their practical applications. The efficient representations (features) of the information encoded in the data are essential to achieve an accurate prediction model. Here, using convolutional neural networks (CNN) enhanced features, we obtain largely improved prediction models for creep rupture life. Comparison of CNN‐based features with the original features in describing different samples reveals that the former, by assigning more individualized labels, outperforms the latter and underpins improved prediction models. This work suggests that beyond images, CNN is also suitable for numerical data to obtain enhanced features and surrogate models.
ISSN:2940-9489
2940-9497

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