基本情况

孟祥宁,东北大学冶金学院副教授。

 

研究领域

材料加工过程数值模拟与新技术开发、工业余废热能源利用系统建模仿真与新技术开发

 

论文发表

  1. Meng X N and Suzuki R O: Thermoelectric analysis for helical power generation systems. Journal of Electronic Materials, 2014, online
  2. Yang J, Meng X N and Zhu M Y: Experimental study on mold flux lubrication for continuous casting. Steel Research International, 2014, online
  3. Meng X N and Zhu M Y: Effect of cooling structure on thermal behavior of copper plates of slab continuous casting mold. Journal of Central South University, 2013, 20(2), 318-325
  4. Meng X N and Zhu M Y: Mechanism of explaining liquid friction and flux consumption during non-sinusoidal oscillation in a slab continuous casting mold. Canadian Metallurgical Quarterly, 2011, 50(1), 45-53
  5. Meng X N and Zhu M Y: Thermal behavior of hot copper plates for slab continuous casting mold with high casting speed. ISIJ International, 2009, 49(9), 1356-1361
  6. Meng X N and Zhu M Y: Optimisation of non-sinusoidal oscillation parameters for slab continuous casting mould with high casting speed. Ironmaking and Steelmaking, 2009, 36(4), 300-310
  7. Meng X N, Wang W L and Zhu M Y: Cheng N L and Jiang Z K: Effect of cooling structure on stress distribution of copper plates of slab continuous casting mold. The Chinese Journal of Nonferrous Metals, 2012, 22(8), 2238-2245
  8. Meng X N, Wang W L and Zhu M Y: Effect of cooling structure on deformation of copper plates of slab continuous casting mold. Journal of University of Science and Technology Beijing, 2012, 34 (12), 1416-1420
  9. Meng X N and Zhu M Y: Analysis of liquid flux consumption mechanism for slab continuous casting mold with high casting speed. Acta Metallurgica Sinica, 2009, 45(4), 485-489
  10. Meng X N and Zhu M Y: Analysis of liquid friction mechanism for slab continuous casting mold with high casting speed. Acta Metallurgica Sinica, 2008, 44(10), 1193-1197
  11. Meng X N, Zhu M Y and Cheng N L: Formation mechanism of oscillation marks and optimization of oscillation parameters for slab continuous casting with high casting speed. Acta Metallurgica Sinica, 2007, 43(8), 839-846
  12. Meng X N, Zhu M Y, Liu X D, Cheng N L and Jiang Z K: Study on non-sinusoidal oscillation factor for continuous casting mold with high casting speed. Acta Metallurgica Sinica, 2007, 43(2), 205-210
  13. Meng X N and Zhu M Y: Effect of continuous casting mold oscillation parameters on slab surface cracks formation under high casting speed. Iron and Steel, 2009, 44(8), 34-38
  14. Meng X N and Zhu M Y: Optimization of non-sinusoidal oscillation parameters for continuous casting mold with high casting speed. Journal of Iron and Steel Research International, 2008, 15(S1), 510-516
  15. Meng X N, Zhu M Y, Cheng N L and Jiang Z K: Non-sinusoidal oscillation amplitude for continuous casting mold with high casting speed. The Chinese Journal of Nonferrous Metals, 2007, 17(3), 446-452
  16. Meng X N and Zhu M Y: Non-sinusoidal oscillation waveform conformation and parametrical research for continuous casting mold. China Mechanical Engineering, 2007, 18(15), 1779-1782
  17. Meng X N and Zhu M Y: Non-sinusoidal oscillation synchro-control model for continuous casting mold with high casting speed. Journal of Iron and Steel Research, 2007, 19(7), 19-23
  18. Meng X N and Zhu M Y: Determination of non-sinusoidal oscillation frequency for continuous casting mold with high casting speed. Journal of Northeastern University – Natural Science, 2007, 28(S2), 181-184
  19. Meng X N, Zhu M Y, Liu X D, Cheng N L and Jiang Z K: Study on non-sinusoidal oscillation frequency for Continuous casting mold with high casting speed. Foundry Technology, 2007, 28(4), 523-526
  20. Meng X N, Zhu M Y and Liu X D: Determination of non-sinusoidal oscillation amplitude for casting mold. Special Steel, 2007, 28(2), 13-15
  21. Meng X N and Zhu M Y: Non-sinusoidal oscillation profile for continuous casting mold with high casting speed. The Chinese Journal of Process Engineering, 2006, 6(S1), 91-94
  22. Meng X N and Zhu M Y: Non-sinusoidal oscillation parameters control based on dimensional analysis for continuous casting mold. Metallurgical Industry Automation, 2006, 30(S2), 142-144
  23. Meng X N, Zhang H Y and Zhu M Y: A modified regression prediction model for BOF steel-making process. Journal of Materials and Metallurgy, 2004, 3(4), 246-249
  24. Zhang H X, Meng X N and Zhu M Y: A new fuzzy-PID based CC mold level control method. Steelmaking, 2008, 24(5), 54-57
  25. Zhao Q, Meng X N and Zhu M Y: Breakout prediction based on fuzzy clustering and fuzzy neural network in continuous casting process. China Metallurgy, 2008, 18(2), 41-45
  26. Du S and Meng X N: Prediction models of converter steel-making endpoint based on RBF neural network. Metallurgical Industry Automation, 2005, 29(S1), 97-100
  27. Cai Z Z, Zhu M Y, Meng X N, Song J X and Cheng N L: Development for slab continuous casting mold monitoring integrated system with high efficiency. China Metallurgy, 2008, 18(12), 38-43
  28. Zhao Q, Zhu M Y and Meng X N: Study on breakout diagnosis prediction based on a novel fuzzy neural network in continuous casting process. Foundry Technology, 2008, 29(4), 478-482
  29. Meng X N, Wang W L, Zhu M Y, Suzuki R O: Deformation simulation of copper plates of slab continuous casting mold. TMS 2013 Annual Meeting and Exhibition, TMS, March 2013, 411-416
  30. Meng X N, Wang W L, Zhu M Y: Effect of cooling structure on stress distribution of copper plates of slab continuous casting mold. TMS 2012 Annual Meeting and Exhibition, TMS, March 2012, 363-369