【 Education Background】

1. 2002.09-2006.06, University of Science and Technology Beijing, Iron and Steel Metallurgy, PhD

2. 1999.09- 2002.03, Kunming University of Science and Technology, Master of Nonferrous Metals Metallurgy

3. 1995.09-1999.07, Kunming University of Science and Technology, Iron and Steel Metallurgy, Bachelor

【 Work Experience】

1. 2020.07-Present, Collaborative Innovation Center of Steel Technology, University of Science and Technology Beijing, Researcher.

2. 2018.09-2019.03, Department of Iron and Steel Metallurgy, Leoben University of Mining, Austria, Visiting Scholar.

3. 2015.06-2020.06, Collaborative Innovation Center of Steel Technology, University of Science and Technology Beijing, Associate Researcher.

4. 2010.07-2015.05, Research Institute of Metallurgical Engineering, University of Science and Technology Beijing, Associate Researcher.

5. 2006.06-2010.06, Research Institute of Metallurgical Engineering, University of Science and Technology Beijing, Assistant Researcher.

【 Individual Resume】

Doctor of engineering, researcher, doctoral supervisor, selected in 2013 Beijing Young Talents Program, Liuzhou Municipal People's Government consultant, Tangshan Municipal People's government special expert, Int J Min Met Mater, Journal of Engineering Science, Journal of Iron and Steel, Journal of Iron and Steel Research, etc. Metall Mater Trans B, Steel Res Int, J Mater Res Technol, Mater Sci Technol, J Iron Steel Res Int, Engineering Science Journal, Iron and Steel, China Metallurgy, Iron and Steel Research Journal, continuous casting and other journals reviewer. He undertook more than 20 projects such as National Natural Science Foundation and school-enterprise cooperation projects, published more than 100 academic papers, including more than 60 papers included in SCI and EI, obtained 12 national invention patents, and wrote 3 books.

【Research Orientation】

1. Smelting technology of high-quality steel and quality control of casting billet

2. Metallurgical process simulation

3. Non-metallic inclusion control

【 Achievements】

【Research Projects】

1. National Natural Science Foundation of China, the formation mechanism and control of longitudinal cracks on the surface of high-aluminum steel continuous casting billet;

2. National foreign experts project, basic research on the behavior of liquid steel erosion resistant materials in the continuous casting process of high-aluminum steel;

3. National Natural Science Foundation of China, Research on the basis of deep removal of inclusions in steel by hydrogen evolution process;

4. National Natural Science Foundation of China, Study on solidification characteristics and regulatory mechanism of Fe-Mn-C (-Al) Twin-induced Plasticity (TWIP) steel;

5. National key research and development plan key projects, thin slab continuous casting and rolling automotive steel strong plasticity mechanism;

6. Beijing Young Talents Project, Research on near-phase interface liquid steel flow behavior in RH refining process;

7. Co-construction project of Beijing Municipal Education Commission, research on development and application of green high-performance automotive steel;

8. Co-construction project of Beijing Municipal Education Commission, Research on key technology and light quality of high performance ultra-high strength automobile steel preparation;

9. Beijing Municipal Education Commission co-construction project, automotive lightweight key materials and processing technology;

10. Co-construction project of Beijing Municipal Education Commission, key materials and preparation technology for ships;

11. Co-construction project of Beijing Municipal Education Commission, key materials and preparation technology for high-speed rail;

12. Inner Mongolia Autonomous Region project, key technology development and industrial application of tempering-free energy-saving heat treatment process for rare earth high-strength steel;

13. Research on quality control technology of microalloyed steel smelting and continuous casting billet in Guangxi Zhuang Autonomous Region;

14. Guangxi Zhuang Autonomous Region Project, development of cold-rolled high-strength automotive structural steel based on lightweight research and promotion and application in passenger vehicles;

15. Guangxi Zhuang Autonomous Region project, research and development of LiuGang cold-rolled high-performance automotive plate and its application and promotion on mini car series models;

16. Basic scientific research and business expenses of Central universities, research on key technologies of advanced steel materials with high performance and lightweight;

17. Central University basic research expenses project, high-strength automobile steel preparation and forming technology development;

18. Basic research expenses of central universities, RH circulation flow calculation model based on PIV technology;

19. School-enterprise cooperation project, development and control of characteristic analytical model of liquid level fluctuation of high-quality steel crystallizer;

20. School-enterprise cooperation project, physical simulation research on flow field of ESP continuous casting tundish;

21. School-enterprise cooperation project, development and research of new thin slab large-flux immersion nozzle;

22. School-enterprise cooperation project, research on physics and numerical simulation of shaped billet continuous casting;

23. School-enterprise cooperation project, application of mathematical and physical simulation in steelmaking;

24. School-enterprise cooperation project, quality control of high strength steel billet for automobile;

25. School-enterprise cooperation project, intermediate tank water model test, intermediate tank inclusions and bubble test;

26. School-enterprise cooperation project, technology of low strength SPHC steel strip;

27. School-enterprise cooperation project, research on inclusions control of tinplate DI material;

28. School-enterprise cooperation project, series research and development of high-quality bar products;

29. School-enterprise cooperation project, automotive steel technical Service Center - Key common technology research;

30. School-enterprise cooperation projects, board and belt product quality monitoring grading and judgment technology.

【 Academic Papers】

1. Jiang Liang, Liao Mingyu, Wang Zhendong, Zhu Hongxin, Cui Heng *. Effect of cooling rate on delta-Trip ladle crystal transformation. Journal of Engineering Sciences, 2023, 45(5): 747-754.

2. Mingyu Liao, Jinrui Liu, Hongxin Zhu, Zhendong Wang, Heng Cui*. Analysis of Slag-Steel Reactive of Fluorine-free Mold Fluxes Used for 3.52% Al-TRIP Steel. ISIJ International, 2022, 62(8):1649–1656.

3. Zhiying Mo, Zhendong Wang, Rudong Wang, Zhengzhi Zhao, Yuan Fang, Haixu Li, Yanzhao Luo, Shaojun Wang, Heng Cui*. Distribution of Nonmetallic Inclusions in Slab for Tinplate. Metals, 2022, 12:679.

4. Rudong Wang, Yu Jin, Heng Cui*. The Flow Behavior of Molten Steel in an RH Degasser Under Different Ladle Bottom Stirring Processes. Metallurgical and Materials Transactions B, 2022, 53(1):342-352.

5. Zengyu Wang, Yang He, Heng Cui*. Precipitation behaviour of phosphorus in high strength IF steel during laminar cooling. Ironmaking and Steelmaking, 2021, 48(8): 973-977.

6. Heng Cui, Jianwei Zhang, Jianhua Liu, Wang Su, Jinbao Yan, Fuliang Wang. Effect of submerged entry nozzle structure on fluid flow in a beam blank continuous casting mould. Ironmaking and Steelmaking, 2021, 48(1): 116-125.

7. Wang Rudong, Su Wang, CUI Heng *, YAN Jinbao, LIU Jianhua, WANG Fuliang. Flow field optimization of tundish based on F-curve. Chinese Journal of Engineering Science, 2020, 42(S1): 95-101.

8. Heng Cui, Dayu Chen, Kaitian Zhang. Effects of Al content on the high-temperature mechanical properties of Al-TRIP steel. Materials Science and Technology, 2020, 36(4): 484-491.

9. Kaitian Zhang, Jianhua Liu, Heng Cui*. Effect of Flow Field on Surface Slag Entrainment and Inclusion Adsorption in a Continuous Casting Mold. Steel Research International, 2020, 91(2): 1-7.

10. Kaitian Zhang, Jianhua Liu, Heng Cui*. Simulation for Mass Transfer Kinetics at Slag-Steel Interface during High Al Steel Continuous Casting. ISIJ International, 2019, 59(12): 2256–2263.

11. Dayu Chen, Heng Cui*, Rudong Wang. High-Temperature Mechanical Properties of 4.5%Al δ-TRIP Steel. Applied Sciences, 2019, 9(23): 5094.

12. Kaitian Zhang, Jianhua Liu, Heng Cui*. Investigation on the Slag-Steel Reaction of Mold Fluxes Used for Casting Al-TRIP Steel. Metals, 2019, 9(4):398.

13. Heng Cui, Kaitian Zhang, Zheng Wang, Bin Chen, Baisong Liu, Jing Qing and Zhijun Li. Formation of Surface Depression during Continuous Casting of High-Al TRIP Steel. Metals, 2019, 9(2): 204-213.

14. Xiao Chao, Cui Heng *. Influence of Al content on inclusions in high strength steel for automobile. Chinese Journal of Engineering Science, 2018, (S1): 26-30.

15. Open Tian, LIU Jianhua, Cui Heng *, QIAN Xuehai, DENG Shen. Influence of submerged nozzle on molten steel flow and liquid level fluctuation in crystallizer. Engineering Science, 2018, 40(6): 697-702.

16. Kaitian Zhang, Jianhua Liu, Heng Cui*, Chao Xiao. Analysis of meniscus fluctuation in a continuous casting slab mold. Metallurgical and Materials Transactions B, 2018, 49(3): 1174-1184.

17. Dongxia Li, Heng Cui*, Yang Liu, Enhua Tian, Jianxin Du. A New Method Based on the F-Curve for Characterizing Fluid Flow in Continuous Casting Tundishes. Metallurgical and Materials Transactions B, 2016, 47(2): 1237-1242.

18. Heng Cui, Yang Liu, Dongxia Li. Fluid Flow Characterization in Asymmetric Tundish. ISIJ International, 2015, 55(12): 2604-2608.

19. Yan Yongqi, Cui Heng *, Wang Zheng, Li Dongxia, Liu Yang, ZHAO Aimin. High temperature mechanical properties of high alumina TRIP steel. Engineering Science, 2015, 37(8): 1017-1022.

20. Yan Yongqi, Cui Heng *, Wang Zheng, ZHAO Aimin. High temperature mechanical properties of high strength IF steels containing P. Journal of Materials Research, 2015, 29(8): 602-606.

【Patents】

1. The invention relates to a monitoring method and system for liquid level fluctuation of a crystallizer. Patent number: ZL202210768318.9

2. A fluorine-free environmental protection continuous casting protection slag for ultra-high aluminum steel, patent number: ZL202111329276.0

3. Physical simulation test device and application method of steel ladle slag line erosion resistant material, patent number: ZL202011208330.1

4. Physical simulation test device and application method for erosion resistance of tunic lining, Patent number: ZL202011208316.1

5. Long spout and method for improving liquid steel flow under single-flow casting condition of double-flow tundish, Patent No. ZL201810003255.1

6. A method for improving saline-alkali soil by sintering flue gas wet desulfurization gypsum in iron and steel plant, patent No. ZL201510441076.2

7. A physical simulation test method and device for vacuum refining in steelmaking process, patent No. ZL201410426265.8

8. A preparation method for low density light steel, patent No. ZL 201710030964.4

9. A preparation method for thermoforming steel with tensile strength ≥2000MPa, patent number: ZL201710030911.2

10. A process method for producing ultra-low phosphorus molten steel by high efficiency and low-cost converter, Patent No. ZL201210020934.2

11. A method for observing the true morphology of non-metallic inclusions in steel, patent No. ZL201010169428.0

12. A casting mold experimental equipment and method for simulating light pressing technology of continuous casting billet, patent No. ZL200810119819.4