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A review on inverse analysis models in steel material design

Yoshitaka Adachi, Ta‐Te Chen, Fei Sun, Daichi Maruyama, Kengo Sawai, Yoshihito Fukatsu, Zhilei Wang

2024Materials Genome Engineering Advances14 citationsDOIOpen Access PDF

Abstract

Abstract This paper reviews various inverse analysis models used in steel material design, with a focus on integrating process, microstructure, and properties through advanced machine learning techniques. The study underscores the importance of establishing comprehensive models that effectively link these elements for enhanced materials engineering. Key models discussed include the convolutional neural network–artificial neural network‐coupled model, which employs convolutional neural networks for feature extraction; the Bayesian‐optimized generative adversarial network–conditional generative adversarial network model, which generates diverse virtual microstructures; the multi‐objective optimization model, which concentrates on process–property relationships; and the microstructure–process parallelization model, which correlates microstructural features with process conditions. Each model is assessed for its strengths and limitations, influencing its practical applicability in material design. The paper concludes by advocating for continued improvements in model accuracy and versatility, with the ultimate goal of enhancing steel properties and expanding the scope of data‐driven material development.

Topics & Concepts

Computer scienceProcess (computing)Scope (computer science)Generative grammarConvolutional neural networkArtificial neural networkArtificial intelligenceAdversarial systemKey (lock)Feature (linguistics)Engineering design processMachine learningEngineeringMechanical engineeringLinguisticsPhilosophyOperating systemComputer securityProgramming languageMicrostructure and Mechanical Properties of SteelsMachine Learning in Materials ScienceMetallurgy and Material Forming
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