Chu Hongyan


Personal profile

Name: Chu Hongyan

Gender: Female

Degrees: Ph.D

Title: Associate Professor

E-mail: chuhongyan@bjut.edu.cn

Research Areas

  1. Dynamic characteristics of roller structure

  2. Intelligent manufacturing

  3. Process simulation and optimization research of hot machining process

Publications

1. Hongyan Chu, Qi Chen, RuiWang, Yingjie Hong. Analysis of rolling on steel and rubber-covered rollers using viscoelasticity. Advances in Mechanical Engineering, 2019, 11(11), 1~14

2. Chu Hongyan, Xu Kangjian, Sun Dongming, Cai Ligang. Temperature field analysis of hysteresis heat of squeezing and rotating rubber rollers. China Mechanical Engineering, 2019,30(18):2217-2223

3. Chu Hongyan, Sun Dongming, Chen Qi, Cai Ligang. Construction of a Rubber Superelastic-Viscoelastic Model and Analysis of Dynamic Response of Structure.  Journal of Beijing University of Technology, 2019,45(10):927-936

4. Hongyan Chu, Yingjie Hong, Qi Chen, Rui Wang. Establishment of rubber thermo-viscoelastic constitutive model and analysis of temperature field. IOP Conference Series: Materials Science and Engineering, 2019, 531:1-14

5. Hongyan Chu, Xuecong Lin, Ligang Cai. Analysis of temperature characteristics of ink fluid based on power law model in microchannel. Advances in Mechanical Engineering, 2019, 11(3), 1~15

6. Chu Hongyan, Lin Xuecong, Zhao Pile, Cai Ligang. Influence of feature size of micro-scale channel on ink flow characteristics. High Technology Letters, 2018, 24(3)296~302

7. Chu Hongyan, Chen Libo, An Ran, Cai Ligang. Analysis of ink temperature of ink roller extrusion contact areas based on thermal elastohydrodynamic lubrication. China Mechanical Engineering, 2018.29(23)2773~2778

8. Chu Hongyan, Xu Kangjian, Huang Wei, Cai Ligang. Temperature field analysis of two rotating and squeezing steel-rubber rollers. High Technology Letters, 2017,23(4):410~417

9. Chu Hongyan, Lin Xuecong, Zhao Pile, Cai Ligang. Heat generation based on viscous dissipation of high viscosity fluid ink in microchannels. Journal of Beijing University of Technology2017,4310):1464~1471

10. Chu Hongyan, Zhao Pile, Cai Ligang. Influence of slip velocity on ink flow characteristics in microscale. Journal of Beijing University of Technology2017,438):1155~1160

11. Chu HongyanWang Yueqian. Prediction for ink transferring ratio based on neural network. Journal of Beijing University of Technology2016423):354~360

12. Chu Hongyan, Zhao Juntao, Cai Ligang. Motion Mechanism Analysis of Two Contacting Rollers. High Technology Letters, 2015, 21(4):388~398

13. Chu HongyanSun Ting. Analysis of ink flow channel between two rotating ink rollers. High Technology Letters, 2015, 21(3):253~260

14. Chu Hongyan, Yang Junjing, Cai Ligang. Calculation of impact factor of vibrator oscillation in offset printing based on fuzzy controller and genetic algorithm. High Technology Letters, 2015, 21 (1): 15~21

15. Chu HongyanZhao Juntao,Yan XiaofeiCai Ligang. Analysis of motion and deformation characteristics of ink distributing system of offset printing machine. China Mechanical Engineering2014, 25(4): 527-533

16. Ting Sun, Hongyan Chu, Ligang Cai. Numerical simulation of ink flow field on ink fountain roller of offset printing machine. Information Technology Journal, 2013,12(13): 2497-2504

17. Chu HongyanYang JunjingCai Ligang etc. Fuzzy control of printing color based on genetic algorithm and adaptive adjustment. Journal of Beijing University of Technology2013,399):1303~1310

18. Chu HongyanQin HeyingCai Ligang. Evaluation structure and algorithm for printing color quality. Journal of Beijing University of Technology2012386):801~806

19. Chu HongyanLi PengCai Ligang etc. Intelligent monitoring technology of printing process quality based on control chart and neural network. Journal of Beijing University of Technology2012383):340~344

20. Chu HongyanLi PengCai Ligang etc. Pattern recognition for printing quality control chart based on MC method and BP neural network. Journal of Beijing University of Technology2011376):816~821

Personal statement

Chu Hongyan, Associate Professor and Master Student Supervisor. She graduated from Beijing University of Technology in 2003 with a doctorate in Mechanical Design and Theory. Since 1997, she has been teaching at the College of Mechanical Engineering and Applied Electronics Technology in Beijing University of Technology. From 2005 to 2006, she was a visiting scholar at the State University of New York at Buffalo. She is currently the dean of the Department of Mechanical Manufacturing and Automation of the college of mechanical engineering and applied electronics technology, Beijing University of Technology. Her main research direction is the study of dynamic characteristics of roller system structure, intelligent manufacturing research, process simulation and optimization research of hot machining process. She has undertaken 1 project of Major National Science and Technology Projects, 2 projects of the National Natural Science Foundation of China, 1 project of the Natural Science Foundation of Beijing, and 2 projects of the Science and Technology Plan of the Beijing Municipal Education Commission. As the main participant, she participated in 1 project of Science and Technology Plan of Beijing Municipal Science and Technology Commission, 2 projects of the 11th and 12th Five-Year Science and Technology Support Program. She has published more than 60 papers, including more than 20 papers indexed by SCI/EI/ISTP and more than 10 patents and software copyrights.