Instrument Science and Technology

Discipline&Team

YANG Quan

Professor Director, National Engineering Research Center of Flat Rolling Equipment


OFFICE 608A Keji Building

PHONE +86-10-62332598-6606

FAX  +86-10-62332947

EMAIL  yangquan@nercar.ustb.edu.cn


RESEARCH INTERESTS


Simulation, measurement and control of product quality in hot and cold strip rolling mills. 3D visual system and digital twin research and application in metallurgical industry. More than 70 Ph.D. or M.D. students graduated from the team.


EDUCATION


1986.09-1992.07 Ph.D. in Mechanical Engineering, University of Science & Technology Beijing

1982.09-1986.07 B.D. in Metallurgical Machinery, University of Iron & Steel Beijing (Predecessor of USTB)

2015.11-2016.12 Visiting Scholar to Northwestern University


PROFESSIONAL EXPERIENCE


1992.07-1993.08 Assistant professor, University of Science & Technology Beijing

1993.09-1997.08 Associate professor, University of Science & Technology Beijing

1997.09- Professor, University of Science & Technology Beijing


AWARDS & HONORS


Member of the 7th Academic Committee of USTB.

Member of Municipal Discipline Appraisal Group of the 5th\6th Academic Degree Committee of the State Council.

1. The 1st Class of the National Prize for Progress in Science and Technology in 1993.

2. The 2nd Class of the National Prize for Progress in Science and Technology in 2010.

3. The 1st Class Prize of the Ministry of Metallurgical Industry for Progress in Science and Technology in 1991.

4. The 3rd Class Prize of the Ministry of Metallurgical Industry for Progress in Science and Technology in 1996.

5. The Outstanding Class Prize in Metallurgical Science and Technology in 2002.

6. The 2nd Class Prize in Metallurgical Science and Technology in 2007.

7. The 1st Class Prize in Metallurgical Science and Technology in 2015.

8. The 1st Class Prize of the Ministry of Education for Progress in Science and Technology in 2008.

9. Beijing Youth Science & Technology Award in 1996.

10. Excellent Youth Award of the Ministry of Metallurgical Industry in 1997.


RESEARCH PROJECTS


1. Quality evaluation and pre-control system for cold strip mills, 2019-2021

2. 3D visual system for cold mills, 2019-2020

3. Thin strip rolling for hot strip mills, 2019-2021

4. Running deviation monitoring in hot strip mills, 2018-2020

5. Grain size measuring by laser ultrasonics of LAS, 2018-2020

6. Profile stability control of silicon steel, 2017-2020

7. Shape control of 1580mm HSM for HSLA, 2016-2017

8. Shape control of 1580mm HSM for thin strip, 2014-2016

9. Research and development of quality optimization for precision steel strip(2015BAF30B00), 2015-2017

10. On-line measuring and control of quality steel strip(2012BAF04B02), 2012-2015

11. Shape control for automobile steel in hot and cold strip rolling, 2012-2014

12. Improving the profile of silicon steel, 2011-2014

13. Development of control system of 1000mm cold strip mills, 2011-2012

14. Research on rolling equipment for copper foil, 2010-2015

15. Research on hot and cold rolling for titanium and titanium alloy strip, 2009-2011

16. Shape control in CPCR, 2007-2009


PATENTS & PUBLICATIONS


1. Zhao J W,Wang X C, Yang Q, Wang Q N, Liu C, Song G Y. High precision shape model and presetting strategy for strip hot rolling. Journal of Materials Processing Technology, 2019, 265: 99-111.

2. Song G Y, Wang X C, Yang Q, et al.Optimization technology of roll contours during skin-pass rolling process of hot-rolled strip. Materials Science Forum, 2019, 944: 237-246.

3. Song G Y, Wang X C, Yang Q. Study on mathematical model of work roll wear in skin-pass rolling of hot steel strip. International Journal of Advanced Manufacturing Technology, 2018, 97(5-8): 2675-2686.

4. Song G Y, Yang Q, Wang X C. Research on wear evolution laws of the work rolls during hot temper rolling process. Journal of Failure Analysis and Prevention, 2018, 18(4): 912-919.

5. Dong F, Wang X, Yang Q, et al. In-situ measurement of Ti-6Al-4V grain size distribution using laser-ultrasonic technique. Scripta Materialia, 2018, 154: 40-44.

6. Zhang Y, Wang X, Yang Q, et al. Characterization of mean grain size of interstitial-free steel based on laser ultrasonic. Journal of Materials Science, 2018, 53(11): 8510-8522.

7. Zhang Y J, Wang X C, Yang Q, et al. Nondestructive Evaluation Method of Average Grain Size in TWIP Steel by Laser Ultrasonic. Materials Science Forum, 2018, 913:324-330.

8. Dong F, Yang Q, Krishnaswamy S. Grain size distribution measurement of Ti-6Al-4V plate using laser-ultrasonics. Acoustical Society of America Journal, 2017, 142(4):2546-2546.

9. Dong Feng, Wang Xiaochen, Yang Quan, et al. Directional dependence of aluminum grain size measurement by laser-ultrasonic technique. Materials characterization, 2017, 129: 114-120.

10. Anmin Yin , Xiaochen Wang, Christ Glorieux, Quan Yang, Feng Dong, Fei He, Yanlong Wang, Jan Sermeus, Tom Van der Donck, Xuedao Shu. Texture in steel plates revealed by laser ultrasonic surface acoustic waves velocity dispersion analysis. Ultrasonics. 2017, 78(7): 30-39.

11. YIN Anmin, YANG Quan, SHU Xuedao, WANG Xiaochen, HE Fei. Determination of Grain Size in Ultra-Low Carbon Steel Sheets By Laser Ultrasonic Technique. 3nd International Symposium on Advanced Rolling Equipment Technologies (ISARET 2015). Qinhuangdao, Hebei: Advances in Rolling Equipment and Technologies III. 2015.

12. HE Fei, YIN An-min, YANG Quan. Grain Size Measurement in Steel by Laser Ultrasonics Based on Time Domain Energy. Materials Transactions. 201556(6)808-812.

13. Anmin Yin, Quan Yang, Fei He, Xiaochen Wang, Christ Glorieux. Textural Through-Thickness Inhomogeneity of Interstitial-Free Steel and Its Influence on Plastic Anisotropy Prediction. Materials Transactions. 2014, 55(12):1847-1851.

14. Haiyu WANG, Quan YANG, et al. Study and Application of Camber Control Model of Intermediate Slab in Rough Rolling. Journal of Iron and Steel Research International, 2014, 21(9): 817-822

15. Xiaochen WANG, Quan YANG, Zhengyi JIANG and Jinwu XU. Research on the Improvement Effect of High Tension on Flatness Deviation in Cold Strip Rolling. Steel Research International, 2014, 85(11): 1560-1570.

16. Xiaochen WANG, Quan YANG, Ruijun LIU, Jie MENG, Defu GUO, Youzhao SUN. Temperature Field Analysis of Intermediate Slab in Hot Coil Box based on ANSYS Finite Element Method. Journal of University of Science and technology Beijing, 2013, 35(4):454-458.

17. Anmin Yin, Quan Yang, Fei He, Huifang Xiao. Determination of Grain Size in Deep Drawing Steel Sheet by Laser Ultrasonics. Materials Transactions. 2014, 55(7):994-997.

18. HE Fei, YIN An-min, YANG Quan. Research on Online Texture Measurements in Metal Rolling Field. J. Shanghai Jiaotong Univ. (Sci.), 2012, 17(6): 690-696.

19. Anmin Yin, Quan Yang, Xiaochen Wang, Fei He, Youzhao Sun. On-Line Determination of Texture in Deep Drawing Steel Sheet by Two-Dimensional X-ray Diffraction. 2nd International Symposium on Advanced Rolling Equipment Technologies (ISARET 2012). Beijing: Advances in Rolling Equipment and Technologies II. 2012.

20. Anmin YIN, Quan YANG, Xiaochen WANG, Fei HE, Youzhao SUN. On-line determination of texture in deep drawing steel sheet by two-dimensional X-ray diffraction. Advanced Materials Research, 2012, 572:322-327.

21. Quan YANG, Yan ZHANG, Chengwei LI, et al. New methods of quality control systems on strip rolling mills. Advanced Materials Research, 2012, 572:37-42.

22. Yan ZHANG, Quan YANG, et al. Deviation Prevention Ability of Rollers in Continuous Annealing Furnace and Application. Journal of Iron and Steel Research (International), 2012, 125(12):1-5.

23. Xiaochen WANG, Quan YANG. Research on Asymmetric Shape Control Character and Generalized Overall Shape Control Strategy for Universal Crown Mill. Journal of Mechanical Engineering, 2012, 48(4):58-65.

24. Yun ZHANG, Quan YANG, et al. Control strategies of asymmetric strip shape in six-high cold rolling mill, Journal of Iron and Steel Research (International), 2011, 18(9):27-32.

25. Yang ZHAO, Quan YANG, et al. Precision Plate Plan View Pattern Predictive Model, Journal of Iron and Steel Research (International), 2011, 18(11):26-30.

26. Xiaochen WANG, Quan YANG, Xiaozhong DU, Zhengyi JINAG. Allowable variation of cold-rolled strip transverse profiles in high tension. International Journal of Minerals, Metallurgy and Materials, 2010, 17(5):608-616.

27. Xiaozhong DU, Quan YANG, et al. Optimization of short stroke control preset for automatic width control of hot rolling mill, Journal of Iron and Steel Research (International), 2010, 17(6):16-20.

28. Xiaozhong DU, Quan YANG, et al. Strip profile control in asymmetrical rolling by FEM modeling. Advanced Materials Research, 2010, 97-101:2955-2960.

29. Aili WANG, Quan YANG, et al. Study on the formulas of the dog-bone shape of edger rolling in hot strip mill. Advanced Materials Research, 2010, 97-101:2871-2875.

30. Yun ZHANG, Quan YANG, et al. Analysis of cold-rolled strip profile in UCM mill by finite element method. Key Engineering Materials, 2010, 443:21-26.

31. Xianglong YU, Quan YANG, Zhengyi JIANG. Analysis of plate bending in coilbox by finite element method. Key Engineering Materials, 2010, 443:146-151.

32. Peng PENG, Quan YANG. Generalized Shape and Gauge Decoupling Load Distribution Optimization Based on IGA for Tandem Cold Mill. Journal of Iron and Steel Research (International), 2009, 16(2):30-34.

33. Xiaodong WANG, Quan YANG, Anrui HE. Calculation of thermal stress affecting strip flatness change during run-out cooling in hot steel strip rolling. Journal of Materials Processing Technology, 2008, 207(1-3):130-146.


34. Xiaozhong DU, Quan YANG, et al. A numerical simulation of strip profile in 6-high cold rolling mill. International Journal of Modern Physics B, 2008, 22(31-32):5655-5660.

35. Xiaodong WANG, Quan YANG, Anrui HE. Renzhong WANG. Comprehensive contour prediction model of work roll used in on-line strip shape control model during hot rolling. Ironmaking & Steelmaking, 2007, 34(4):303-311.