Educational Background
1992 – 1995, Jilin University of Technology, Master
1978 – 1982, Jilin University of Technology, Bachelor
Professional Experience
2000 – Present, Professor, School of Mechanical and Aerospace Engineering
1998 – 2000, Professor, Department of Material Engineering
1988 – 1998, Associate Professor, Department of Material Engineering
1982 – 1988, Lecturer, Jilin Province Grain, oil and Food College
Research Interests
CNC equipment and its life cycle engineering
Reliability Engineering
Research Projects
2017-2019 Jilin Provincial Natural Science Foundation: Modeling and Control of Hybrid Propagation of NC Machine Tool Operation Failures (20170101212JC)
2015-2018 National Science and Technology Major Project of China: Reliability Test and Reliability Growth Technology Research of High Rigidity High Power Motorized Spindle (2015ZX04005005-04)
2012-2016 National Natural Science Foundation of China: Availability Assurance Technology of CNC Machine Tools Based on DAFD and Fault Gene Weight (51275205)
2012-2014 Jilin Science and Technology Department Project: Reliability Improvement Technology of CNC Combined Machine Tool for Automobile Manufacturing (20125008)
2010-2011 National Science and Technology Major Project of China: Reliability technology of vertical servo turret cutter (2010ZX04011-041)
2009-2010 National Science and Technology Major Project of China: Research on Reliability Technology of Series Precision Vertical and Horizontal Machining Center (2009ZX04001-021-04)
2009-2012 National Natural Science Foundation of China: Coupling Model and Analysis Technology of Availability Impact of CNC Machine Tools Based on Life Cycle (50875110)
2007-2010 The National 863 Program of the 11th Five Year Plan: Credibility Modeling and Analysis Technology of Heavy CNC Equipment Oriented to Life Cycle (2007AA04Z402)
2005-2007 Jilin Science and Technology Department Project: Research on Key Technology of Availability of Computer-Aided CNC Machine Tools for Life Cycle (20050535)
2004-2006 The National 863 Program of the 10th Five Year Plan: Research on Reliability Evaluation Support Technology of CNC Machine Tool and CNC System (2004AA424512)
2002-2004 The National 863 Program of the 10th Five Year Plan: Development and Application of Key Technology for Reliability of NC Equipment and System (2002AA424058)
2014-2019 Xuzhou Engineering Machinery Research Institute: Research and Application of Reliability Improvement Technology for Small Crawler Hydraulic Excavator - Study on reliability evaluation index and evaluation method for small Crawler hydraulic excavator (HT026-2014)
2015-2017 National Science and Technology Major Project of China: Research on Reliability Technology of High Speed Precision Machining Center in Production Line (2015ZX04003002-02)
2015-2017 Jilin Provincial Natural Science Foundation: Reliability Evaluation of CNC Machine Tools Based on Competition Failure (20150101027JC)
2012-2015 National Natural Science Foundation of China: Research on Reliability Analysis and Evaluation of CNC Machine Tool Based on Dynamic Fault (51175222)
Selected Publications
1. Shen Guixiang, Qi Xiaoyan, Zhang Yingzhi, et al. Operational reliability modeling of system components based on equivalent sample method. Journal of Jilin University (Engineering and Technology Edition). 2020,50(03):914-919
2. Zhang Yingzhi, Mu Liming, Shen Guixiang, et al. Fault diagnosis strategy of CNC machine tools based on cascading failure. Journal of Intelligent Manufacturing, 2019,30(5):2193-2202
3. Chen Bingkun, Zhang Yingzhi, Shen Guixiang, et al. Failure Rate Evaluation of Tool Storage and Selection System Based on Fuzzy Evidence Theory. Journal of South China University of Technology (Natural Science Edition). 2019,47(05):81-88
4. Long Zhe, Shen Guixiang, Wang Xiaofeng, et al. Raliability evaluation model of tool on competitive failure. Journal of Jilin University (Engineering and Technology Edition). 2019,49(01):141-148.
5. Zheng Yubin, Shen Guixiang, Zhang Yingzhi, et al. Importance analysis of chain-type tool magazine system based on Bayesian network. Journal of Jilin University (Engineering and Technology Edition). 2019,49(02):466-471
6. Li Yan, Xue Yuxia, Shen Guixiang. Importance Analysis of Machining Center Components under Failure Rate Correlation. Application of Statistics and Management. 2019,38(02):334-342.
7. Zhang Yingzhi, Liu Jintong, Shen Guixiang. Failure propagation mechanism analysis of CNC lathe. Journal of Harbin Institute of Technology. 2018,50(07):131-136
8. Zhang Limin, Shen Guixiang, Zhang Yingzhi. Bayesian theory-based reliability modeling of the tool library of the machining center. Academic Journal of Manufacturing Engineering, 2018, 16(1):38-42
9. Gui-Xiang Shen, Xian-zhuo Zhao, Ying-zhi Zhang, et al. Research on criticality analysis method of CNC machine tools components under fault rate correlation. OP Conference Series: Materials Science and Engineering,2018,37(1): 127-132
10. Zhang Yingzhi, Liu Jintong, Shen Guixiang, et al. Reliability Evaluation of Machine Center Components Based on Cascading Failure Analysis. Chinese Journal of Mechanical Engineering, 2017,30(4):933-942
11. Long Zhe, Shen Guixiang, Zhang Yingzhi, et al. Research of Early Failure Test Time for CNC Machine Tool Based on Bathtub Curve. Machine Tool & Hydraulics. 2017,45(11):175-178
12. Shen Guixiang, Zeng Wenbin, Zhang Yingzhi, et al. DETERMINATION OF THE AVERAGE MAINTENANCE TIME OF CNC MACHINE TOOLS BASED ON TYPE II FAILURE CORRELATION. EKSPLOATACJA I NIEZAWODNOSC-MAINTENANCE AND RELIABILITY, 2017,19(4):604-614
13. Zhang Yingzhi, Liu Jintong, Shen Guixiang, et al. Reliability modeling of CNC machine tools system based on failure correlation analysis. Journal of Jilin University (Engineering and Technology Edition). 2017,47(1):169-173
14. Wang Xiaofeng, Zhang Yingzhi, Shen Guixiang. Degradation model analysis of two-component series and parallel systems. Journal of Statistical Computation and Simulation. 2017,87(13):2638-2656
15. Long Zhe, Zhang Yingzhi, Shen Guixiang, et al. Evaluation of the fault correlation of machining center components. Journal of Harbin Institute of Technology. 2017,49(1):133-138
16. Qi Xiaoyan, Shen Guixiang, Zhang Yingzhi, et al. Importance Analysis on Subsystem of CNC Lathe Based on TOPSIS. Journal of Beijing Institute of Technology. 2017,26(2):191-196
17. Shen Guixiang, Zeng Wenbin, Zhang Yingzhi, et al. Determination of average maintenance time of CNC machine tools under minimum failure rate. Journal of Jilin University (Engineering and Technology Edition). 2017,47(5):1519-1526
18. Wang Xiaofeng, Zhang Yingzhi, Shen Guixiang. An improved FMECA for feed system of CNC machining center based on ICR and DEMATEL method. INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, 2016,83(4):43-54
19. Meng Shu, Shen Guixiang, Chen Bingkun, et al. Analysis on Requirement Importance Rating for Availability of Machining Center Based on Grey Relation Method. Journal of Mechanical Engineering. 2016,52(24):187-193
20. Meng Shu, Shen Guixiang, Zhang Yingzhi, et al. Replacement time of system components of NC machine tools based on time-correlation. Journal of Jilin University (Engineering and Technology Edition). 2016,46(6):1946-1952
21. Wei Linghui, Shen Guixiang. Analysis of availability influence degree of series repairable system based on life cycle. Modern Manufacturing Engineering. 2015(11):134-137+123
22. Shen Guixiang, Sun Shuguang, Zhang Yingzhi, et al. Analysis on failure mode severity of machining center spindle system. Journal of Harbin Institute of Technology (New Series), 2015,22(2):123-128
23. Wei Linghui, Shen Guixiang. Research on the Dynamic Model of Coupling of Reliability and Maintainability. Machine Tool & Hydraulics. 2015,43(11):191-194.
24. Wang Zhiqiong, Shen Guixiang, Zhang Yingzhi, et al. Risk Analysis of Failure Mode of Clamping and Releasing Tool Based on Data Envelopment Analysis. Journal of South China University of Technology (Natural Science Edition). 2015,43(7):142-146
25. Wang Xiaofeng, Zhang Yingzhi, Shen Guixiang, et al. Three-Parameter Weibull Distribution of Machining Center Based on ITLS and DE. Journal of South China University of Technology (Natural Science Edition). 2015,43(6):84-88
26. Chen Bingkun, Pang Guangsi, Shen Guixiang, et al. Availability function deployment of the CNC lathe based on multi factors. Machine Tool & Hydraulics. 2015,43(06):7-10.
27. Wang Xiaoyan, Shen Guixiang, Zhang Yingzhi, et al. Dependent coefficient model for complex system based on failure chains. Journal of Jilin University (Engineering and Technology Edition). 2015,45(5):442-447
28. Shen Gui-xiang, Sun Shu-guang, Zhang Ying-zhi, et al. System failure analysis based on DEMATEL-ISM and FMECA. JOURNAL OF CENTRAL SOUTH UNIVERSITY. 2014,21(12):4518-4525
29. Shen Guixiang, Meng Shu, Zhang Yingzhi, et al. Application of average rank time method in reliability modeling for subsystems. Journal of Jilin University (Engineering and Technology Edition). 2014,44(1):101-105
30. Zhang Yingzhi, Niu Xulei, Shen Guixiang, et al. Numerically-controlled machine reliability modeling based on competing failure mode. Systems Engineering-Theory & Practice. 2014,34(8):2144-2148
31. Gu Dongwei, Shen Guixiang, Zhang Yingzhi, et al. Reliability evaluation of spindle system of CNC. Journal of Central South University (Science and Technology). 2013,44(2):540-544
32. Shen Guixiang, Ding Ye, Zhang Yingzhi, et al. Failure analysis of tool changer system based on cloud model. Journal of Central South University (Science and Technology). 2013,44(4):1420-1424
33. Zhang Yingzhi, Zheng Shan, Shen Guixiang, et al. Criticality analysis for CNC turret adopting importance and fuzzy reasoning. Journal of Jilin University (Engineering and Technology Edition). 2012,42(5):1157-1162
34. Shen Guixiang, Gu Dongwei, Zhang Yingzhi, et al. Optimal preventive maintenance interval period of CNC. Journal of Chongqing University (Natural Science Edition). 2012,35(1):7-10
35. Wang Xiaofeng, Shen Guixiang, Zhang Yingzhi, et al. Prioritizing failures of abc-axis feeding systems based on improved criticality and DEMATEL method. Journal of Jilin University (Engineering and Technology Edition). 2012,42(1):122-127
36. Wei Linghui, Shen Guixiang, Zhang Yingzhi, et al. Modeling and simulating availability of CNC machine tools. Journal of Jilin University (Engineering and Technology Edition). 2011,41(4):993-997
37. Zhang Yingzhi, Zheng Rui, Shen Guixiang, et al. Failure dependency of CNC equipment based on copula theory. Journal of Jilin University (Engineering and Technology Edition). 2011,41(6):1636-1640
38. Shen Guixiang, Shao Na, Zhang Yingzhi, et al. Reliability evaluation of numerically-controlled machine tool based on extenics theory. Journal of Jilin University (Engineering and Technology Edition). 2011,41(1):106-109
39. Shen Guixiang, Fan Shaohua, Zhang Yingzhi, et al. Failure Mode Analysis of Machining Center Based on Random Fuzzy Theory. TRANSACTIONS OF THE CHINESE SOCIETY FOR AGRICULTURAL MACHINERY. 2011,42(2):216-218
40. Zhang Yingzhi, Zheng Rui, Shen Guixiang, et al. Reliability analysis for CNC machine tool turret including abnormal data.2011IEEE 18th International Conference on Industrial Engineering and Engineering Management. 2011:1136-1139
41. Shen Guixiang, Fan Shaohua, Zhang Yingzhi, et al. Reliability influence analysis of CNC machine tool subsystem. Journal of Jilin University (Engineering and Technology Edition). 2011,40(S2):266-269
Courses
Reliability Engineering topics, 40 credit hour, 2 credits
CNC equipment full life cycle engineering, 40 credit hour, 2 credits
System reliability design and analysis, 40 credit hour, 2 credits
Patents and Applications
1. A reliability improvement method and device for a knife depot system, ZL 201711131554.5, China
2. An improvement method and device for availability of CNC machine tools, ZL201711129731.6, China
3. An analysis method for the importance of NC machine components, ZL201710043575.5, China
4. A fault diagnosis method for CNC machine tools, ZL201611181208.3, China
5. Time method for replacement of NC machine components based on time correlation, ZL201610223176.2, China
6. Reliability evaluation method of CNC machine tool system components based on cascade fault analysis, ZL 201510778261.0, China
7. Numerical control machine tool full life cycle importance measure analysis method, ZL201510266545.1, China
8. A dynamic change analysis method for fault correlation relationship of CNC machine tools, ZL 201410230927.4, China
9. A fault analysis method for CNC machine tools, ZL201410120870.2, China
10. A method for analyzing reliability influence degree of CNC machine tool subsystem, ZL201310694580.4, China
11. Reliability modeling and reliability evaluation method for three functional components of CNC machine tools, ZL201210584059.0, China
Honors and Awards
2020, Jilin Province, Jilin Province Science and Technology Invention Award (Fifth)
2014 Jilin Province, First prize of Science and Technology Progress of Jilin Province(Second)