Doctor  

OFFICE S406 Changping Innovation Campus, USTB

PHONE 0086-10-62332598-6827

FAX  0086-10-62332947

EMAIL  heyang2020@ustb.edu.cn

RESEARCH INTERESTS

Metallurgical technologies for advanced steel

Solidification and continuous casting

Metallurgical Process Simulation

Thermodynamic Modelling

EDUCATION

2015.09-2019.06 Ph.D. in Metallurgy Engineering, University of Science & Technology Beijing, China

2013.09-2015.06 M.D. in Metallurgy Engineering, University of of Science & Technology Beijing, China

2009.09-2013.06 B.D. in Metallurgy Engineering, University of Science & Technology Beijing, China

2017.09-2018.09 Visiting Graduate Student, University of Toronto, Canada

PROFESSIONAL EXPERIENCE

2019.07-2020.08 Post-doctoral Researcher, Commonwealth Scientific and Industrial Research Organisation, Australia

2020.11-now Assistant researcher, University of Science & Technology Beijing, China

RESEARCH PROJECTS

1. Hybrid-augmented intelligence optimization technology of steelmaking-refining-continuous casting process control, supported by the Ministry of Science and Technology of China, 2021-2023.

2. Continuous casting technology of high-Mn steel for LNG storage tank, supported by Hebei Provincial Science and Technology Department, 2021-2024.

3. Fluid flow pattern of continuous casting mould and solidified hook control technology for auto sheet, supported by Pan Steel, 2021-2023.

4. Advanced inclusion removal technology by hydrogen absorbing and releasing, supported by Dongbei Special Steel, 2021-2022.

5. Ti-based inclusion controlling in automobile steel sheet production, supported by Pan Steel, 2019-2021.

6. Evaluation of the Generalised Central Atom Model (GCA) for Molten Slag-Stage 9, supported by ArcelorMittal, 2019-2020.

7. Solidification Characteristics of Fe-Mn-C(-Al) Twinning-Induced Plasticity (TWIP) steels, supported by the National Natural Science Foundation of China, 2016-2019.

8. Studies on solidification characteristics and regulation mechanism of high aluminum stainless steel for automobile gas purifier, supported by the National Natural Science Foundation of China, 2014-2017.

PUBLICATIONS AND PATENTS

1. Y. He, C. Chen, J. Lehmann. Thermodynamic modeling of CaO-SiO2-VOx system by the generalized central atom model,  CALPHAD 76 (2022) 102366.

2. Y. He, J. Liu, J.H. Liu, et al. Carbothermal reduction characteristics of oxidic manganese ore through conventional heating and microwave heating,  International Journal of Minerals , Metallurgy and Materials 28 (2021) 221-230.

3. Y. He, Z.Q. Deng, J.H. Liu, et al. Hot-deformation characteristics and dynamic softening of as-cast FeCrAl alloy,  Journal of Materials Research & Technology  9(3) (2020) 6632-6641.

4. Y. He, J.H. Liu, S.T. Qiu, et al. Thermodynamic analysis of inclusion characteristics in as-cast FeCrAl-(La) alloys,  Ironmaking & Steelmaking 47(1) (2020) 13-21.

5. Y. He, J.H. Liu, Y.D. Yang, et al. Effect of La addition on inclusions, microstructures, and high-temperature mechanical properties of as-cast FeCrAl alloys,  In: T. Jiang et al. (eds)  10th International Symposium on High-Temperature Metallurgical Processing .  The Minerals, Metals & Materials Series. Springer, Cham (2019) 427-434.

6. Y. He, J.H. Liu, S.T. Qiu, et al. Microstructure and high temperature mechanical properties of as-cast FeCrAl alloys,  Materials Science & Engineering A 726 (2018) 56-63.

7. Y. He, J.H. Liu, S.T. Qiu, et al. Interfacial morphology evolution in directionally solidified FeCrAl alloys,  Materials Characterization 139 (2018) 303-310.

8. Y. He, J.H. Liu, Z.Q. Deng, et al. Microstructure evolution and mechanical properties of Al-La alloys with varying La contents,  Materials Science & Engineering A 701 (2017) 134-142.

9. Y. He, J.H. Liu, Z.B. Han, et al. Phase transformation and precipitation during solidification of FeCrAl alloy for automobile exhaust gas purifying systems,  Journal of Alloys & Compounds 714 (2017) 251-257.

10. Y. He, B.H. Yuan, J.H. Liu, et al. A method to control the temperature and cleanliness of low-carbon and extra-low-carbon steels, China Patent No. CN110438297A.

11. J.H. Liu, Y. He, Z.Q. Deng, et al. A method to improve the tensile stress and ductility of Al-La alloys, China Patent No. CN106906386B.

12. J.H. Liu, J. Zhang, Y. He, et al. A method to generate micro bubbles in molten steel, China Patent No. CN111020117B.

13. J.H. Liu. S. Zhang, Y. He, et al. A method to generate micro bubbles in molten steel during RH refining, China Patent No. CN110592322A.