Position: Associate Professor;

Minister for Information and Technology, Institute of Engineering Technology, University of Science and Technology Beijing

Office Location: Room 701, Science Building

Office Phone: 62332598-6720

Fax: 62332947

E-mail: ustbshao@163.com

Research Directions

1. Data-driven Method for Quality Control in Process Industry

2. Multi-Physics Coupling Simulation and Online Modeling of Industrial Process

3. Research on Health Status Evaluation and Prediction Method of Large Industrial Equipment under Multi-Dimension

4. High-Precision Shape Control Technology of Strip Rolling Mill

Resume

1. 1999.09-2003.06 School of Mechanical Engineering, University of Science and Technology Beijing; Mechanical Engineering and Automation; Bachelor

2. 2003.09-2009.01 Institute of Metallurgical Engineering, University of Science and Technology Beijing; Mechanical design and theory; Doctor

3. 2009.04-2011.04 Institute of Metallurgical Engineering, University of Science and Technology Beijing; Material science and engineering; Postdoctoral

4. 2011.04-2014.09 Vice-Minister for Information and Technology, Institute of Metallurgical Engineering, University of Science and Technology Beijing

5. 2014.09-Now Minister/ Associate Professor/ Master Tutor, Information Technology Department, Institute of Engineering Technology, University of Science and Technology Beijing

6. 2015.07-2016.01 Visiting Scholar, University of Michigan, USA

Major Publications

1. Shao J, He A R, Yang Q, et al. Research on Controlling Profile and Flatness of High Strength Pipeline Steel in Hot Rolling[J]. Iron and Steel, 2008, v43, No.2, p61-64

2. Shao J, He A R, Yang Q, et al. Simulation and Application of Shape Set Control System in Hot Tandem Rolling Mill[J]. Journal of Iron and Steel Research, 2008, v20, No.6, p53-56

3. Shao J, He A R, Yang Q, et al. Selection of Wide Hot Strip Mills Configuration for Schedule Free Rolling[J]. China Mechanical Engineering, 2008, v19, No.22, p2673-2676

4. Shao J, He A R, Yang Q, et al. Work Roll Wear Prediction Model Taking in Account Lubrication in Hot Rolling[J]. China Mechanical Engineering, 2009, v20, No.3, p361-364

5. Shao J, He A R, Yang Q, et al. Research on Effect of Lubrication on Profile and Flatness in Schedule Free Rolling[C]. The 7th China Steel Annual Meeting,2009,3-169

6. Shao J, He A R, Yang Q, et al. A scheme for optimal load distribution in schedule free rolling of wide hot strip mills[J]. Metallurgical industry automation,2010, v43, No.3, p19-24

7. Shao J, He A R, Yang Q, et al. Development and Application of Shape Control Model in Hot Strip Mills, Metal World[J], 2010, No.5, p68-77

8. Shao J, He A R, Yang Q, et al. Development and application of dynamic shape control system in hot wide strip mills[C]. ICECE2010, 2010, p800-802

9. Shao J, He A R, Yang Q, et al. Varying shifting stroke strategy of work rolls in hot rolling[J]. Journal of University of Science and Technology Beijing, 2011, v33, No.1, p93-97

10. Shao J, He A R, Sun W Q, et al. NEW Technology of Shape Control System in Hot Strip Mills[C], THE 8^th (2011) CSM ANNUAL METETING PROCEEDINGS ,2011

11. Guo DF, He AR, Shao J, et al. Research and Application of Flat Roll Technology in the Downstream Stands for CSP[J]. JOURNAL OF IRON AND STEEL RESEARCH INTERNATIONAL. 2011. v18, No.4, p30-35

12. Shao J, He A R, Sun W Q, et al. Research and application of VCR plus technology in hot strip mills[C]. MACE2011, 2011, p5120-5123

13. Shao J, Tang d, He A R, et al. Design of asymmetric work rolls in hot strip mills based on multi-criterion satisfactory optimization[J]. Journal of University of Science and Technology Beijing, 2011, v34, No.9, p1077-1083

14. Shao J, He A R, Zhou M W, et al. Analysis and Countermeasure of Shape Quality Objection in Hot Strip Rolling Mills[J]. STEEL ROLLING, 2013, V30, No.3, p16-20

15. Shao J, He A R, Zhou M W, et al. Countermeasure of Shape Quality Objection and Quality Judgment System in Hot Strip Mills[C]. THE 9^th CSM ANNUAL METETING PROCEEDINGS, 2013, p1-5

16. Guo, DF, He, AR, Shao, J, et al. Research on causes and mitigation measures of bright band on hot rolled strip[J]. IRONMAKING & STEELMAKING, 2014, v41, No.3, p187-192

17. Sun W.Q, Shao J, He A.R, et al. Performance optimization of artificial metabolic algorithm on rolling automation control[J]. Journal of Computational Information Systems,2014, v10, No.20, p8715-8722

18. Shao J, He A R, Yang Q, et al. Multi-parameter coupled subsection cooling regulation characteristics of work rolls in aluminum cold rolling[J]. Chinese Journal of Engineering, 2015, v37, No.8, p1092-1097

19. He, AR, Kong, FF, Shao, J, et al. Novel curved roll contour technology for profile control in hot strip mills[J]. IRONMAKING & STEELMAKING, 2015, v42, No.1, p55-62

20. Shao J, He A R, Li B, et al. Roll deformation model of four high hot rolling mills based on improved influence function method[J]. Open Automation and Control Systems Journal, 2015, v7, No.1, p93-99

21. Shao J, He A R, Kong F F, et al. Research and application of work roll contour technology on thin gauge stainless steel in hot rolling[J]. Open Mechanical Engineering Journal, 2015, v9, No.1, p111-116

22. Shao J, Qiu Z S, Huang B, et al. Influence of strip transverse temperature deviation in hot rolling based on two dimension alternating difference[J]. International Journal of Heat and Technology, 2015, v33, n2, p45-50

23. Shao J, Sun W Q, He A R, et al. Research on the thermal calculation model of high strength aluminum strip rolling based on finite difference method[J]. International Journal of Heat and Technology, 2015, v33, n1, p91-98

24. Shao J, Sun W Q, He A R, et al. Research on the comprehensive control strategy of over-welding based on decoupling- design for tandem cold mills[J]. International Journal of u- and e- Service, Science and Technology, 2015, v8, n3, p133-144

25. Shao J, Yao C H, Sun W Q, et al. Setup system of selective roll cooling based on profile prediction in aluminum hot strip mill[J], Manufacturing Technology, 2015, v15, n2, p204-209

26. Shao J, Yao C H, He A R, et al. Subsection cooling setup and application in ultrawide hot-rolled aluminum strips based on multiple prediction[J]. Chinese Journal of Engineering, 2015, V37, Suppl.2, p148-154

27. He A R, Shao J, Sun W Q. Theory and Practice Shape Control, Metallurgical Industry Press, 2016.10

28. Shao J, He A R, Sun W Q. Precise control core technology of hot rolling strip in whole production process[J]. China Metallurgy, 2017, v27, n5, p45-50

29. Zeng S Q, He, AR, Shao, J. Reduction of residual stress for high strength low-alloy steel strip based on a finite element analysis. Advances in Materials Science and Engineering, V2018, p13

30. Shao J, He A R. Development and application of technics process and quality management platform in hot rolling[J]. STEEL ROLLING, 2018, v35, n4, p6-11

31. Qiu Z S, He A R, Shao J. Effect of cooling process on reducing residual stress of hot rolled high strength strip[J]. Journal of Central South University, 2018, v49, n6, p1373-1380

Reward

1. Development and Application of Complete Control System and Key Technologies for Wide Aluminum Strip in Hot Continuous Rolling, Non-ferrous Metals Association Science and Technology Progress Award, The first prize, 2017, ranking 2^nd

2. Independent Innovation and Industrialization of 1+4 Hot-rolled Strip Production Integration Technology for Ultra Wide and High Performance Aluminum Plate and Strip in Transportation, Guangxi Prize for Progress in Science and Technology, the second prize, 2017, ranking 9^th

3. Key Technology and Application of Schedule Free Rolling for Hot-rolled Wide Strip, Metallurgical Science and Technology Award, The first prize, ranking 3^rd

4. Shape Quality Control of High-grade Steel in the Process of CSP, Anhui Prize for Progress in Science and Technology, the third prize, 2014, ranking 4^th

5. Fund of Beijing Youth Talents Program, 2013-2015

6. Shape Quality Control in the Whole Process of High Quality Steel in Short Process, Metallurgical Science and Technology Award, the third prize,2012, ranking 4th

Patent

1. Shao J, He A R, Sun W Q. A Roll Configuration Method for Plate Considering both Rolling Stability and Section Shape, Authorization, 2010,201010510316.7

2. He A R, Guan C L, Shao J. A Control Method for the Ribbing Quantity in the Middle of Color Coating Material, Authorization,2011，201110132766.1

3. He A R, Shao J, Sun W Q. Design Method of Work Roll Shape for Hot-rolled Stainless Steel Considering both Quadratic and High-Order Wave, Authorization, 2012, 201210133169.5

4. Shao J, He A R, Sun W Q. An Adaptation Method for Improving the Shape Quality of the First Strip during Dimension Changing, Authorization, 2012, 201210134867.7

5. Shao J, He A R, Sun W Q. An Online Method for Judging the Shape Quality of Hot-rolled Thin Strip, Authorization, 2012, 201210135076.6

6. He A R, Kong F F, Shao J. A Roll shape design method for roll gap crown linearly varying with strip width, Authorization, 2012, 201210184593.2

7. Shao J, He A R, Sun W Q. A Flatness Sub-control Method of Hot-Rolled Strip Considering both Rolling Stability and Quality, Authorization, 2014, 201410166103.5

8. Shao J, He A R, Sun W Q. A Setting Method of Subsection Cooling of Spray Beam for Hot-rolled Aluminum Strip Based on Multi-parameter, Authorization, 2014, 201410215099.7

9. Shao J, He A R, Yao C H. A Crown Control Method for Hot-rolled Aluminum Strip based on Dynamic Subsection Cooling Technology, Authorization, 2014, 201410562045.8

10. Shao J, He A R, Li B. A Shape Recognition Method for Hot-rolled Trapezoidal Billet Based on High-order Polynomial, Authorization, 2014, 201410562651.X

11. Shao J, He A R, Sun W Q, Qiu Z S. A General Design Method of Back-up Roll Shape Matching with High-order Work Roll Curve, Public ,2016，201610023974.0

12. Shao J, He A R, Yao C H, Sun W Q. A Control Strategy of Roll Shifting for High-order Work Roll Curve of Hot Rolling Considering both shape wave and cross section, Public ,2016，201610023972.1

13. Shao J, Qiu Z S, He A R, Sun W Q. An Asymmetric Shrinkage Control Method of High Strength Steel Caused by Coiling Temperature Deviation, Public ,2016,201610024494.6

14. Shao J, He A R, Sun W Q, Song Y. A Judgment Method for Cross-section Quality of Cold Rolling Material, Public ,2016，201610023955.8

15. Shao J, Li T L, He A R, Men C H, Sun W Q. A Graphical Region Analysis Method for Thickness Difference Quality of Silicon Steel Cross Section, Public, 2017,201611155837.9

Research Project

1. National Natural Science Foundation of China (NSFC): Formation Mechanism and Online Numerical Simulation of High-order Wave for High Nitrogen and Low Nickel Hot-rolled Stainless Steel under Multi-parameter Coupling, PI.

2. Beijing Natural Science Foundation: Study on Generation Mechanism and Numerical Simulation of Transverse Bending of Hot-rolled High Strength Steel Based on Rapid Cooling Process, PI.

3. Major Project of Guangxi Science and Technology Department: Integrated Technology of Angular Rolling Process Control for Wide Aluminum Alloy Sheet and Strip, PI.

4. Special Fund for Basic Scientific Research Business Fees of Central Universities (International Cooperation): Research on Roll Shape Design Theory of High-efficiency Variable Crown Work Roll and Roll Bending and Shifting Strategy in Hot Rolling, PI.

5. Special Fund for Basic Scientific Research Business Fees of Central Universities: Research on Formation Mechanism and Online Model of Hot-rolled High Strength Steel, PI.

6. Special Fund for Basic Scientific Research Business Fees of Central Universities: Evolution Rule of Internal Stress in 700 Mpa High Strength Steel during Laminar Cooling Based on Rapid Cooling Process, PI.

7. Special Fund for Basic Scientific Research Business Fees of Central Universities: Evolution Rule of Temperature and Stress Field after Coiling of Hot-rolled High Strength Steel, PI.

8. Enterprise research project: Shape Control Technology in Laminar Cooling Process Using a New Generation TMCP, MeiShan Iron and Steel Limited by Share, Shanghai, PI.

9. Enterprise research project: Simulation on Temperature and Phase Transformation of 1780 mm Laminar Cooling and Coiling Process in MeiShan iron and steel, MeiShan Iron and Steel Limited by Share, Shanghai, PI.

10. Enterprise research project: Research on a New Generation of Variable Contact Support Roll Shape for 1780 mm of MeiShan Iron and Steel, MeiShan Iron and Steel Limited by Share, Shanghai, PI.

11. Enterprise research project: Improvement of Width Control Precision of 2250 mm in Hualing Lianyuan Steel, Hualing Lianyuan Iron and Steel Co. Ltd., Hunan, PI.

12. Enterprise research project: Development of Variable Contact Support Roll Shape and Shape Quality Improvement for Jianlong 1450 mm in Jilin, Jianlong Iron and Steel Co. Ltd., Jilin, PI.

13. Enterprise research project: Effective Degree of Freedom Guarantee and Quality Improvement in Rolling Process, PanSteel Group Co., Ltd, PI.

14. Enterprise research project: High-precision Rolling Technology for Strip Product, Maanshan Iron and Steel Co. Ltd., PI.

15. Enterprise research project: Classification and Judgment Technology of Continuous Control System for Strip Product Quality, Maanshan Iron and Steel Co., Ltd., PI.

16. Enterprise research project: Research on Online Automatic Judgment Technology for Quality Data of MeiShan Steel 1780 mm Production Line, MeiShan Iron and Steel Limited by Share, Shanghai, PI.

17. Enterprise research project: Shape Quality Improvement of CSP Production Line, Hualing Lianyuan Iron and Steel Co. Ltd., Hunan, PI.

18. Enterprise research project: Shape Quality Improvement in the entire procedures of Silicon Steel in XinSteel, XinYu Iron and Steel Co. Ltd., PI.

19. Enterprise research project: Research on Dimensional Precision Improvement of Electron Aluminum Foil in Zhonghe, Xinjiang, The Main Participant.

20. Enterprise research project: Shape Quality Improvement and Development of Quality Judgment System for 2250 mm Hot Strip Mill in Hansteel, The Main Participant.

21. Enterprise research project: Research on Quality Improvement of Entire Process Shape in XinSteel, The Main Participant.

22. Enterprise research project: Shape Quality Improvement of 1450 mm Hot Strip Mill in ShaSteel, The Main Participant.

23. Enterprise research project: Study on Shape Quality Control of Silicon Steel in Masteel, The Main Participant.

24. Enterprise research project: Study on Shape Quality Improvement in Masteel, The Main Participant.

25. International cooperation projects: Development of Design Technology for Backup Roll Profile in Hot Rolling Mill，The Main Participant.

26. .International cooperation projects: Development of a Design Technology for the Curved Work Roll Profile by HVC technology，The Main Participant.

27. International cooperation projects: Development of Setup Control Models of High-Performance Variable Crown Rolls, The Main Participant.

28. Other engineering projects: Development and debugging of a complete flatness control system. This system is used in more than 20 hot-rolling lines in China, such as: AnSteel 2150、AnSteel 1580、LiuSteel 1450、ChongSteel 1780、WuSteel 1700、LaiSteel1500, Rizhao 1580、Southwest Stainless Steel 1450、Beihai Chengde1700，MaSteel CSP 、Donghai Special Steel 1450、Juke1850(AL)、Yongjie 1850(AL)、Yinhai 3320+2850(AL)、Dingxin 1780.