Hong Xiao, male, born in 1962, is a professor, doctoral supervisor and dean of the School of Mechanical Engineering of Yanshan University. 1980- 1984 major in metallurgical machinery; 1984- 1987, majoring in metallurgical machinery in northeast heavy machinery institute; 1987- 199 1 School of Mechanical Engineering, Yanshan University, studying for a doctorate; 199 1- 1994 Lecturer and Associate Professor, School of Mechanical Engineering, Yanshan University; 1994- 1996 postdoctoral fellow in metalworking, University of Tokyo; 200 1-2002 Visiting researcher, Institute of Production Technology, University of Tokyo; 1998 professor (doctoral supervisor), School of Mechanical Engineering, Yanshan University. Part-time doctoral supervisor of Hefei University of Technology; Member of the Teaching Committee of Electromechanical Discipline of China Machinery Industry Education Association; Senior member of China Mechanical Engineering Society.

Chinese name: Xiao Hong

Nationality: China.

Ethnic group: Han nationality

Date of birth: 1962

Occupation: Teacher of Yanshan University

Graduate: Northeast Heavy Machinery College of Yanshan University.

Main achievements: the title of young and middle-aged experts with outstanding contributions in Hebei Province

Title of Excellent Young Teachers in Hebei Province

Representative Works: Boundary Element Method

Current position: Dean, School of Mechanical Engineering, Yanshan University

Character experience

1980- 1984 major in metallurgical machinery; 1984- 1987 major in metallurgical machinery of northeast heavy machinery institute (studying for a master's degree); 1987- 199 1 School of Mechanical Engineering, Yanshan University (PhD); 199 1- 1994 Lecturer and Associate Professor, School of Mechanical Engineering, Yanshan University; 1994- 1996 postdoctoral fellow in metalworking, University of Tokyo, Japan; 1996- 1998 postdoctoral fellow, School of Mechanical Engineering, Yanshan University; 200 1-2002 Visiting researcher, Institute of Production Technology, University of Tokyo, Japan; 1998- Professor, School of Mechanical Engineering, Yanshan University. Part-time doctoral supervisor of Hefei University of Technology; Member of the Teaching Committee of Electromechanical Discipline of China Machinery Industry Education Association; Senior member of China Mechanical Engineering Society; Member of the Academic Committee of Plastic Processing and New Technology Development of China Metal Society; Member of Hebei Metal Society, Steel Rolling Society.

Part-time job in my humble abode

Part-time doctoral supervisor of Hefei University of Technology;

Member of the Teaching Committee of Electromechanical Discipline of China Machinery Industry Education Association;

Senior member of China Mechanical Engineering Society;

Member of the Academic Committee of Plastic Processing and New Technology Development of China Metal Society;

Member of Steel Rolling Society of Hebei Metal Society;

research direction

1, (080203) mechanical design and theory; Research interests: computer simulation of rolling process in plastic forming process, microstructure evolution and mechanical properties prediction (Ph.D.); Plastic Processing Theory and Computer Simulation, Computational Materials Science (Master).

2.(080222) Design theory of heavy equipment and its digital technology; Research interests: plastic processing theory and computer simulation, computational materials science.

Main contribution

A project under study

1.2003 ~ 2005 Research on macro-micro coupling modeling theory and application of microstructure evolution of thermoplastic forming by National Natural Science Foundation of China (250,000). Planning director

2. Research on fast multipole boundary element method for metal plastic forming process analysis 2005-2007 (250,000), National Natural Science Foundation of China. Planning director

3. Macro-micro coupling modeling and mechanical properties prediction of thin slab continuous casting and rolling process in 2004-2006 (E2004000223) (9 90,000), a natural science foundation project of Hebei Province. Planning director

4. From 2005 to 2007, the coupled modeling theory and mechanical properties prediction of thin slab continuous casting and rolling (20050216007) (60,000 yuan) was supported by the doctoral program fund of the Ministry of Education. Planning director

4. Development of 2-high/universal conversion mill in Masteel Technology Center. Planning director

5.200 1 ~ 2003 Study on Friction Mechanism in Plastic Processing (40,000), Ph.D. Fund of Hebei Province, project leader.

6. New technology and theoretical research on solid powder (particle) medium bulging of metal pipe supported by Hebei Natural Science Foundation.

Complete the project

Complete the project

1. 1999 ~ 2002: numerical simulation study on three-dimensional elastic-plastic contact boundary element coupling of plate and strip rolling (40,000), project leader of Hebei Natural Science Foundation.

2.2000 ~ 2002: Pipe joint feeding device (40,000 yuan), Wuhan Band-Aid Pipeline Co., Ltd., project leader.

3. Research on self-positioning theory and simulation experiment of large-scale high-efficiency rolling mill (30000), 1994- 1996, supported by the Education Department of the Ministry of Machinery Industry, and the project leader.

4. Numerical Simulation Study on Quenching Residual Stress of Roller (20000), 1996- 1998, Project Leader of Returned Overseas Students Fund of State Education Commission.

5. Elastic-plastic finite deformation contact boundary element method for simulating strip rolling process (50,000), 1997- 1999, project leader of China postdoctoral fund.

6. Research on the method of prolonging the service life of large heavy-duty work roll bearings (1.2000), 1.996- 1.998, a key national project (95-528-0 1 g), which mainly completed the theoretical research on human responsibility.

7.350SY Mill Renovation (30,000),1993-1994,2672 Factory, the main finisher is responsible for technical design.

8.300SY Mill Renovation (20,000), 1992- 1993, Tangshan Iron and Steel Company, main person in charge of technical design.

9. Research on prolonging the service life of work roll bearings of Baosteel 1999 2050 hot rolling mill (300,000), mainly responsible for theoretical analysis.

Thesis information

1. Xiao Hong, Shen Guangxian. Simulation of rolling process by boundary element method for elastic-plastic finite deformation problem, journal of mechanical engineering,1September, 994.

2. Xiao Hong, Shen Guangxian. Three-dimensional elastoplastic contact boundary element method considering friction, Journal of Computational Mechanics, Vol. 15,No. 1, 1998, (included in EI).

3. Xiaohong. Three-dimensional elastoplastic control boundary analysis of rolling considering control, journal of mechanical engineering. Vol. 1 1,No. 1,1998 (included in ei).

4. Xiao Hong, Shen Guangxian. Treatment of friction by three-dimensional elastic-plastic contact boundary element method, engineering mechanics, vol. 14, No.4, 1997.

5. Xiao Hong, Shen Guangxian. Boundary element method for simulating three-dimensional elastic-plastic finite deformation, treatment of interface friction during rolling, iron and steel, vol. 30, No.7, 1995 (included in EI).

6. Xiaohong. Software development, boundary element simulation, boundary element method, Elsevier Press, Tokyo, Japan,1May, 996.

7. Xiaohong. Three-dimensional plastic boundary analysis considering rolling, proceedings of the 7-year spring seminar on flat plastic processing, news agency,1May, 995.

8. Xiaohong. Three-dimensional elastic boundary element simulation of plate rolling, proceedings of the eighth conference on computational mechanics, 165438+ 1995 10, Japan Mechanical Society.

9. Xiaohong. Three-dimensional plastic contact boundary element method, Frohring, proceedings of the 46th symposium on plastic processing combination, news agency,1September, 995.

10. Xiao Hong, Shen Guangxian. Three-dimensional elastoplastic boundary element method for simulating strip rolling process, Iron and Steel, Vol.28, No.3, 39~43, 1993.

1 1. Xiaohong. Boundary element method for three-dimensional elastic-plastic contact problem and its application in strip process analysis, Journal of Yanshan University, No.4, 2000.

12. Huang Qingxue, Xiaohong. Analysis of the influence of pre-tension and post-tension on strip rolling process by boundary element method, Journal of Mechanical Engineering,No. 10, 2000.

13. Shen Guangxian, Xiao Hong. Analysis and test of comprehensive stress field of work roll of cold rolling mill and mechanical cause analysis of spalling damage. Journal of Mechanical Engineering, Volume 26, No.3, 72 ~ 78, 1990.

14. Shen Guangxian, Xiao Hong. A new formula for calculating the displacement and stress in the boundary layer region of an object by boundary element method. Journal of Solid Mechanics, Volume 10, No.3, 279 ~ 284, 1989.

15. Huang Qingxue, Xiaohong. Analysis of rolling pressure and friction by boundary element method, Journal of Computational Mechanics, Vol. 15, No.2, 1998 (included in EI).

16. Shen Guangxian, Xiao Hong. Three-dimensional analysis of rolling mill bearing load characteristics and development of self-adjusting system, Journal of Yanshan University, Vol.22, No.3, 1998.

17. Xu, Xiao Hong. Improved numerical integration technique of boundary element method, Journal of Yanshan University, 200 1, №. 1.

18. Xie Hongbiao, Xiao Hong. Explicit dynamic finite element analysis of the influence of reduction rate on rolling pressure distribution of strip, iron and steel research, No.6, 2002

19. Xie Hongbiao, Xiao Hong. Analysis of the influence of plate width on rolling pressure distribution of strip by explicit dynamic finite element method, Journal of Plastic Engineering, 2003, 1

20. Hong Xiao, Prediction of mechanical and energy parameters, temperature and microstructure changes during continuous rolling of hot rolled strip, Iron and Steel, 38(9), 2003.

2 1. Hong Xiao. Simulation of dynamic crystallization by cellular automata method, iron and steel research, 1 1(2), 2004.

22. Existence and Uniqueness of Solutions to Boundary Variational Inequalities for Hong Xiao Contact Problems, Journal of Yanshan University, 28( 1), 2004.

23. Xiao Hong, Zhang Guomin, Xie Hongbiao. Development of multi-parameter coupling simulation system for strip rolling process. Iron and Steel. 39 (6), 2004.

24. Xiaohong. Study on numerical simulation of PC rolling process. Engineering Mechanics.2005,22 (3): 216-215

25. Xiaohong. Study on simulation of dynamic recrystallization process by cellular automata method. Journal of Mechanical Engineering .2005,41(2)

26. Xiaohong. Mathematical model of multi-physical process coupling analysis software. Proceedings of the Eighth Italian Conference in 2005

27. Xiao Hong, Xu, Yan. Cellular automata method for simulation of dynamic recrystallization process considering grain deformation. China Mechanical Engineering. 2005, 16 (24)

Winning record

Award winning project

1. Boundary element method for contact problem, first prize of scientific and technological progress of State Machinery Bureau, 1999, second finisher.

2. Rolling engineering theory and computer simulation, third prize of scientific and technological progress of State Education Commission (Class A), 1995, the second finisher.

3. Three-hinged square column high-rigidity rolling mill, second prize of scientific and technological progress of Ministry of Machinery Industry, 1995, the fourth finisher.

4. Space self-positioning high-rigidity rolling mill, first prize of scientific and technological progress in Qinhuangdao, second finisher in 2002.

5. Three-strand pull rod square column high rigidity rolling mill. 1995 China patent merit award, the fourth person to complete.

title of honour

1. Young and middle-aged experts with outstanding contributions in Hebei Province, 2002, People's Government of Hebei Province.

1.2000 Excellent Young Teachers in Hebei Province. * * * Hebei Provincial Committee of the Communist Youth League, Hebei Provincial Personnel Department, Hebei Provincial Education Department, and Hebei Provincial Youth Working Committee.

2. The People's Government of Hebei Province recorded Class III merit once, 200 1 year. Hebei province personnel department

3. Hebei Youth Science and Technology Innovation Award, 200 1. * * * Hebei Provincial Committee of the Communist Youth League and Hebei Youth Federation

4. Excellent civil servants in Qinhuangdao, 200 1. Zhong * * Qinhuangdao Municipal Committee