Â鶹APP

NURC

Publications

  1. Wang, P., Tao, Q., Dong, H., & El-Fallah, G. M. A. M. (2025). Advanced machine learning analysis of radiation hardening in reduced-activation ferritic/martensitic steels. Computational Materials Science. doi:
  2. Li, M., Fu, J., Ren, N., Tao, B., Scholes, A., Li, J., . . . Dong, H. -B. (2024). Numerical simulation and experimental investigation of manufacturing route of directional casting super slab. Journal of Iron and Steel Research Â鶹APP. doi:
  3. Ghalati, M. K., Zhang, J., Elâ€Fallah, G. M. A. M., Nenchev, B., & Dong, H. (2023). Toward learning steelmaking—A review on machine learning for basic oxygen furnace process.Materials Genome Engineering Advances. doi:
  4. Yang, X., El-Fallah, G. M. A. M., Tao, Q., Fu, J., Leng, C., Shepherd, J., & Dong, H. (2023). Dimensionality reduction for machine learning using statistical methods: A case study on predicting mechanical properties of steels. Materials Today Communications, 34. doi:
  5. Li, Q., Qin, B., Zhang, J., Dong, H., Li, M., Tao, B., . . . Liu, Q. (2023). Design Improvement of Four-Strand Continuous-Casting Tundish Using Physical and Numerical Simulation. Materials, 16(2). doi:
  6. Fu, J., El-Fallah, G. M. A. M., Tao, Q., & Dong, H. (2023). A Parameterized Leblond-Devaux Equation for Predicting Phase Evolution during Welding E36 and E36Nb Marine Steels.. Materials, 16(8). doi:
  7. Nenchev, B., Panwisawas, C., Yang, X., Fu, J., Dong, Z., Tao, Q., Gebelin, J. C., Dunsmore, A., Dong, H., Li, M., Tao B., Li, F., Ru, J., Wang, F. (2022), Metallurgical Data Science for Steel Industry: A Case Study on Basic Oxygen Furnace. Steel Research Â鶹APP, doi:
  8. Nenchev, B., Tao, Q., Dong, Z., Panwisawas, C., Li, H., Tao, B., & Dong, H. (2022). Evaluating data-driven algorithms for predicting mechanical properties with small datasets: A case study on gear steel hardenability. Â鶹APP Journal of Minerals, Metallurgy and Materials, 29(4), 836-847. doi:
  9. Fu, J., Tao, Q., Yang, X., Nenchev, B., Li, M., Tao, B., & Dong, H. (2022). The Effect of Heat Source Path on Thermal Evolution during Electro-Gas Welding of Thick Steel Plates. MATERIALS, 15(6), 16 pages. doi:

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