Contribution of Microalloying to the Strength of Hot-Rolled Steels

Joo Hyun Ryu Graduate Institute of Ferrous Technology (GIFT), Pohang University of Science and Technology, Pohang, South Korea

H. K. D. H. Bhadeshia Graduate Institute of Ferrous Technology (GIFT), Pohang University of Science and Technology, Pohang, South KoreaCorrespondence[email protected]

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Ali Derogar & Faramarz Djavanroodi. (2011) Artificial Neural Network Modeling of Forming Limit Diagram. Materials and Manufacturing Processes 26:11, pages 1415-1422.
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F. Djavanroodi, A. Pirgholi & E. Derakhshani. (2010) FEM and ANN Analysis in Fine-Blanking Process. Materials and Manufacturing Processes 25:8, pages 864-872.
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Siwei Wu, Jian Yang & Zhenyu Liu. (2020) Composition-Processing-Property Correlation Mining of Nb–Ti Microalloyed Steel Based on Industrial Data. MATERIALS TRANSACTIONS 61:4, pages 691-699.
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Siwei Wu, Jian Yang, Guangming Cao, Yunlong Qiu, Guoguang Cheng, Meiyi Yao & Jianxin Dong. (2020) Elevating Prediction Performance for Mechanical Properties of Hot-Rolled Strips by Using Semi-Supervised Regression and Deep Learning. IEEE Access 8, pages 134124-134136.
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K. Barat, G. Das, S. Bharathy & M. Ghosh. (2019) Compositional Optimization of a Commercially Produced Ferritic Steel Using Microstructural Heterogeneity and Mechanical Properties. Materials Performance and Characterization 8:1, pages 20190148.
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Siwei Wu, Xiaoguang Zhou, Guangming Cao, Naian Shi & Zhenyu Liu. (2018) High-Dimensional Data-Driven Optimal Design for Hot Strip Rolling of Microalloyed Steel. steel research international 89:7, pages 1800015.
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Itishree Mohanty, Appa Rao Chintha & Saurabh Kundu. (2018) Design Optimization of Microalloyed Steels Using Thermodynamics Principles and Neural-Network-Based Modeling. Metallurgical and Materials Transactions A 49:6, pages 2405-2418.
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Z.B. Jiao, J.H. Luan, M.K. Miller, Y.W. Chung & C.T. Liu. (2017) Co-precipitation of nanoscale particles in steels with ultra-high strength for a new era. Materials Today 20:3, pages 142-154.
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R.C. Dimitriu & H.K.D.H. Bhadeshia. (2010) Fatigue crack growth rate model for metallic alloys. Materials & Design 31:4, pages 2134-2139.
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Contribution of Microalloying to the Strength of Hot-Rolled Steels

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Contribution of Microalloying to the Strength of Hot-Rolled Steels

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