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Physics-Informed Machine Learning for Steel Development: A Computational Framework and CCT Diagram Modelling

arXiv — cs.LGThursday, December 4, 2025 at 5:00:00 AM
PositiveArtificial Intelligence
  • A new computational framework has been introduced that integrates physics-informed machine learning (ML) to develop a continuous cooling transformation (CCT) model for steel. This model, trained on a dataset of 4,100 diagrams, aims to enhance the understanding of the relationship between chemical composition, processing parameters, and resulting microstructure and properties of steel.
  • The development of this CCT model is significant as it addresses the challenges faced in applying general-purpose ML frameworks to complex industrial materials like steel, potentially accelerating the design and production processes in materials science.
  • This advancement reflects a broader trend in materials science where machine learning is increasingly utilized to optimize manufacturing processes and enhance defect detection. The integration of ML with traditional scientific approaches signifies a shift towards more efficient and innovative methodologies in the field.
— via World Pulse Now AI Editorial System
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