Professor  Dean, Institute of Engineering Technology of USTB

Director, National Engineering Research Center of Advanced Rolling Technology

OFFICE 607B Keji Building

PHONE 0086-10-62332598-6616, 62334921

FAX 0086-10-62332947

EMAIL harui@ustb.edu.cn

RESEARCH INTERESTS

Industrial Big Data Modeling and Machine Learning, Digital Twin and Virtual Simulation, Intelligent Process Control Technology.

More than 50 Ph.D. or M.D. students graduated from the team.

EDUCATION

1990.09-1994.07 B.D. in Metallurgical Machinery, University of Science & Technology Beijing

1994.09-2000.03 Ph.D. in Mechanical Engineering, University of Science & Technology Beijing

PROFESSIONAL EXPERIENCE

2000.04-2002.06 Assistant professor, University of Science & Technology Beijing

2002.07-2007.10 Associate professor, University of Science & Technology Beijing

2007.11-  Professor, University of Science & Technology Beijing

AWARDS & HONORS

1. The 1^st Class Prize of the Hubei Science and Technology Progress Award in 2003.

2. The 2^st Class Prize of the Metallurgical Science and Technology Award in 2007.

3. The 1^st Class Prize of the Science and Technology Progress Award of the Ministry of Education in 2007.

4. The China Patent Award for Excellence in 2008.

5. The 1^st Class Prize of the Metallurgical Science and Technology Award in 2008.

6. The Metallurgical Youth Science and Technology Award in 2010.

7. The Excellent Talents of the Ministry of Education in the New Century in 2010.

8. The 2^st Class Prize of the National Science and Technology Progress Award in 2010.

9. The 1^st Class Prize of the Metallurgical Science and Technology Award in 2015.

10. The 2^st Class Prize of the Guangxi Science and Technology Progress Award in 2017.

11. The 1^st Class Prize of the Science and Technology Award for Non-ferrous Metals Industry in 2017.

RESEARCH PROJECTS

1. Guangxi Innovation-Driven Development Project: Manufacturing and Application Technology of High Performance Aluminum Alloy Wide Sheet for Transportation.

2. National Natural Science Foundation of China: Research on Foundation Model of Hot Rolled Strip with Large Width-to-Thickness Ratio Based on Full Width Residual Stress Distribution.

3. National Innovation Methodology Project: Innovation Method and Application of Quality Control in Steel Service-oriented Manufacturing Based on Big Data.

4. National Science and Technology Support Plan Project for the 12^th Five-Year Plan: Development and Application of Integrated Technology for Production of Super Large Size Hot Continuous Rolling Aluminum Strip for Transportation.

5. National High-tech Research and Development Program (863 Program): Design Platform for Simulation and Optimization Control of Steelmaking-Continuous Casting-Rolling Process.

6. Ministry of Education's Supporting Plan for Excellent Talents in the New Century: Research on Shape Control System of New Generation Hot Strip Mill.

7. Special Funds for Funding Funds of Basic Scientific Research Business Fees in Central Universities: Research on the Core Mathematical Model of Wide High-quality Aluminum Strip of Hot Continuous Rolling.

8. International Cooperation Project: Development of Design Technology for Backup Roll Profile in Hot Rolling Mill.

9. International Cooperation Project: Development of a Design Technology for the Curved Work Roll Profile by HVC Technology.

10. International Cooperation Project: Development of Setup Control Models of High-Performance Variable Crown Rolls.

11. Enterprise Scientific Research Project: Research on Size Accuracy Improvement of Electronic Aluminum Foil in Xinjiang Zhonghe Company.

12. Enterprise Scientific Research Project: Development of Pattern Strip Rolling Technology for 1700mm Hot Strip Mill of Shagang.

13. Enterprise Scientific Research Project: Development of Shape Quality Improvement and Judgment System for 2250HSM of Hangang.

14. Enterprise Scientific Research Project: Research on Shape Quality Improvement of the Whole Processes in Xinsteel.

15. Enterprise Scientific Research Project: Shape Quality Improvement of Jintian Titanium Strip in Hunan Xiangtu Company.

16. Enterprise Engineering Project: Electrical and automatic control equipment for 3300mm single stand hot roughing mill + 2850mm four stand hot finishing mill "1+4" hot rolling mill of Guangxi Liuzhou Yinhai Aluminum Co., Ltd.

17. Enterprise Engineering Project: Electrical and Automatical Control System of No.2 Cross Cut Strip Line of Hangang.

18. Enterprise Engineering Project: Integrated Roll Contour Technology and Shape Control System of Hot Strip Mills in Ansteel2150, WISCO1700, Chonggang1780, Dingxing1780, Liugang1450, et al..

Authorized invention patents

1. A Roll System Configuration Method for Medium and Heavy Plate Mill Considering Rolling Stability and Profile Control.

2. A Control Method of Middle Ribbing of Colored Coating Strip.

3. A Roll Shape Design Method with Linear Change of Roll Gap Crown with Strip Width.

4. A Self-learning Method for Improving the Shape Quality of the First Strip for Specification Change.

5. Design Method of Work Roll Contour for Secondary and High Wave Control of Hot-Rolled Stainless Strip.

6. An On-line Method for Determining the Shape Quality of Hot-rolled Thin-gauge Strip.

7. A Method of Setting Segmental Cooling for Spray Beam of Hot Rolled Aluminum Plate Based on Multi-parameter.

8. Flatness Segmentation Control Method Considering Rolling Stability and Quality of Hot Rolled Strip.

9. A Crown Control Method for Hot-rolled Aluminium Sheet Based on Dynamic Sectional Cooling Technology.

10. Work Roll Shape Technology Considering Grinding Accuracy and Edge Drop Control of Cold-rolled Electrical Steel.

11. A Shape Recognition Method for Hot rolling Trapezoidal Slab Based on High Order Polynomial.

12. Control of Roll Shifting strategy for High-order Curve Work Roll of Hot Rolling Considering Wave Shape and Profile.

13. A General Design Method of Backup Roll Contour Matched with Higher Curved Work Roll.

14. An On-line Recognition Method for Local High Concave Points in Profile of Plate and Strip.

15. A Compensation Method for Thickness Reduction of Hot Rolled Aluminum Strip during Speed-up Process.

PUBLICATIONS

1. Zengshuai Qiu, Anrui He, Jian Shao, et al.. Reduction of residual stress for high-strength low-alloy steel strip based on finite element analysis[J]．Advances in Materials Science and Engineering，2018，1-13

2. Chao Liu, Anrui He, Yi Qiang, et al.. Effect of internal stress of incoming strip on hot rolling deformation based on finite element and infinite element coupling method[J]．Metals 2018, 8, 92, 1-13

3. Hao Pujun, He Anrui, Sun Wenquan. Formation mechanism and control methods of inhomogeneous deformation during hot rough rolling of aluminum alloy plate[J]．Archives of Civil and Mechanical Engineering(IF2.216), 2018, 18(1), 245-255

4. Hao Pujun, He Anrui, Sun Wenquan. Predicting model of thickness distribution and rolling force in angular rolling process based on influence function method, Mechanics & Industry, 2018, 302(19), 1-8

5. Xie Li, He An-rui, Liu Chao. A rapid calculation method for predicting roll deformation of six-high rolling mill, Journal of Iron and Steel Research International, 2018, 25(9), 901 -909

6. Qiu Zengshuai, He Anrui, Shao Jian. Effect of cooling process on reducing residual stress of hot rolled high strength strip, Journal of Central South University (Science and Technology), 2018, 49(6), 1373-80

7. Pujun Hao, Anrui He, Wenquan Sun. Formation mechanism and prediction of plane shape in angular rolling of aluminum alloy thick plate, Transactions of the Canadian Society for Mechanical Engineering, 2018, 42(2), 81-89

8. Chao Liu, Anrui He, Yi Qiang, et al.. High-temperature united constitutive model of non-oriented electrical steel based on transformation kinetics equation and dislocation density theory[J]．Steel Research International, 2017, 87(9999), 1-9

9. Chao Liu, Anrui He, Yi Qiang, et al.. Effect of volume changes on hot rolling deformation behavior of non-oriented electrical steel[J]．ISIJ International, 2017, 57(9), 1595-1602

10. Chao Liu, Anrui He, Yi Qiang, et al.. Effect of phase transformation and latent heat on hot rolling deformation behavior of non-oriented electrical steel[J]．ISIJ International, 2017, 57(5), 857-865

11. Dong Xiao-Xu, He An-Rui, Sun Wen-Quan, et al.. Research on a 3D temperature field model of a slab with oxide layer growth[J]．Heat Transfer - Asian Research, 2017, 46(2), 147-159

12. A. -R. He, F. F. Kong, J. Shao. Novel curved roll contour technology for profile control in hot strip mills[J]．Ironmaking and Steelmaking, 2015, 42(1), 55-62

13. Chao-Chao Chen, Jian Shao, An-Rui He, et al. Comprehensive shape control technology for CSP hot strip mills[J]. International Journal of Automation and Computing, 2015, 12(6): 611-619

14. Sun Wenquan, Shao Jian, He Anrui, et al.. Research on residual stress quantitative reduction in laminar cooling on hot strip mill[J]. International Journal of Heat and Technology, 2015, 33(4): 19-24

15. Jian Shao, Anrui He, Fanfu Kong, et al.. Research and application of work roll contour technology on thin gauge stainless steel in hot rolling[J]. The Open Mechanical Engineering Journal, 2015, 9(1): 111-116

16. Shao Jian, Sun Wenquan, He Anrui. 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, 8(3): 133-144

17. Shao Jian, Sun Wenquan, He Anrui, et al. Research on the thermal calculaion model of high strength aluminum strip rolling based on finite difference method[J]. INTERNATIONAL JOURNAL OF HEAT AND TECHNOLOGY, 2015, 33(1): 91-98

18. Jian Shao, Bo Li, Anrui He, et al.. Roll deformation model of four high hot rolling mills based on improved influence function method[J]. The Open Automation and Control Systems Journal, 2015, 7(1): 93-99