2006.09-2011.06 西北工業(yè)大學航空宇航制造工程系，博士（直博生），導師為李原。

2002.09-2006.07 西北工業(yè)大學機電學院飛行器制造工程系，本科生。

2011.06-2013.06 西北工業(yè)大學機械工程博士后流動站，合作導師王潤孝。

2013.06-2014.06 西北工業(yè)大學機電學院講師。

2016.01-2017.01 Northwestern University 訪問學者，合作教授Wing Kam Liu。

2014.6至今 西北工業(yè)大學機電學院，副教授。

飛機數(shù)字化裝配技術（本科）

計算機圖形學（本科）

動畫設計與制作（上、下）（本科）

計算機輔助工業(yè)設計（上、下）（本科）

Computer Graphics （本科國際班）

工程力學III（復合材料力學）（研究生）

柔性裝配技術與裝備（研究生）

設計分形學（研究生）

Advanced Assembly Technology（研究生國際班）

Engineering Mechanics of Composite Materials（研究生國際班）

主要從事先進裝配與連接技術方向研究，具體包括：

（1）大型薄壁件裝配變形機理與控制方法

（2）碳纖維復合材料結構裝配損傷機理與工藝優(yōu)化方法

（3）航空航天產(chǎn)品智能裝配測控技術

陜西省青年科技新星，2019年西北工業(yè)大學翱翔新星，2019年國家科學技術進步獎二等獎，2018年（第2完成人）陜西省高校首批“青年杰出人才支持計劃”，2017年陜西省科學技術獎一等獎，2015年（第2完成人）Outstanding Reviewer Award of “Assembly Automation”，2014年陜西省高等學校科學技術獎一等獎，2013年（第2完成人）陜西省優(yōu)秀博士論文，2013年陜西省科學技術獎二等獎，2009年（第8完成人）陜西省信息產(chǎn)業(yè)廳科技成果一等獎，2007年（第8完成人）

1.Cheng, H.,Gao, J., Kafka, O., Zhang, K., Luo, B., Liu, W. K., A micro-scale cutting model for UD CFRP composite with thermo-mechanical coupling. Composite Science and Technology. 2017, 153:18-31.

2.Cheng, H.,Zhang, K., Wang, N., Luo, B., Meng, Q., A novel six-state cutting force model for drilling-countersinking machining process of CFRP-Al stacks. The International Journal of Advanced Manufacturing Technology, 2017, 89(5-8): 2063-2076.

3.Cheng, H., Li, Y., Zhang, K. , Luan, C., Optimizing method of fixture layout for aeronautical thin-walled structures with automated riveting. Assembly Automation. 2012, 32(4): 323-332.

4.Cheng, H., Wang, R. , Li, Y., Zhang, K., Modeling and analyzing of variation propagation in aeronautical thin-walled structures automated riveting. Assembly Automation. 2012, 32 (1):25-37.

5.Cheng, H., Li, Y., Zhang, K., Mu W., Variation modeling of aeronautical thin-walled structures with multi-state riveting. Journal of Manufacturing Systems, 2011, 30 (2): 101-115.

6.Cheng, H., Li, Y., Zhang, K., Efficient method of positioning error analysis for aeronautical thin-walled structures multi-state riveting. The International Journal of Advanced Manufacturing Technology, 2011, 55(1-4): 217-233.

7.Cheng, H., Li, Y., Zhang, K., Efficient method of assembly sequence planning based on GAAA and optimizing by assembly path feedback for complex product. The International Journal of Advanced Manufacturing Technology, 2009, 42(11-12): 1187-1204+1205.

8. Zhang, K.,Cheng, H., Li, Y. Riveting process modeling and simulating for deformation analysis of aircraft’s thin-walled sheet-metal parts. Chinese Journal of Aeronautics, 2011, 24(3): 369-377.

9. Zhang, K.,Cheng, H., Li, Y., Multi-objective Harmonious colony-decision algorithm for more efficiently evaluating assembly sequences. Assembly Automation. 2008, 28(4): 348-355.

10. Li, H., Zhang, K.,Cheng, H.,Suo, H., Cheng, Y., Hu, J., Multi-stage mechanical behavior and failure mechanism analysis of CFRP/Al single-lap bolted joints with different seawater ageing conditions. Composite Structures 2019, 208, 634-645.

11. Chen, L. Zhang, K.,Cheng, H., Qi, Z., Meng, Q., A cutting force predicting model in orthogonal machining of unidirectional CFRP for entire range of fiber orientation. The International Journal of Advanced Manufacturing Technology, 2017, 89(1-4): 833-846.

12. Wu, T., Zhang, K.,Cheng, H., Liu, P., Song, D., Li, Y., Analytical modeling for stress distribution around interference fit holes on pinned composite plates under tensile load. Composite PartB-Engineering, 2016, 100: 176-185.

13. Meng, Q.X., Zhang, K.F.,Cheng, H., Liu S.N. Jiang, S. S. An analytical method for predicting the fluctuation of thrust force during drilling of unidirectional carbon fiber reinforced plastics. Journal of Composite Materials, 2015, 49(6): 699-711.

14. Qi, Z., Zhang, K.,Cheng, H., Wang, D., Meng, Q., Microscopic mechanism based force prediction in orthogonal cutting of unidirectional CFRP. The International Journal of Advanced Manufacturing Technology, 2015, 79(5-8): 1209-1219.

15. Hu. J., Zhang, K., Xu, Y.,Cheng, H.,Xu, G., Li, H., Modeling on bearing behavior and damage evolution of single-lap bolted composite interference-fit joints, Composite Structures 2019,212, 452-464.

16. Luo, B., Zhang, K., Li, Y.,Cheng, H.,Liu, S., Modelling of thrust force for worn drill bits characterised by cutting edge radius in drilling carbon fibreu2013reinforced plastic/Ti-6Al-4V alloy stacks. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 2018, 232(11): 1960-1972.

17. Hu, J., Zhang, K., Yang, Q.,Cheng, H.,Liu, P., Yang, Y., An experimental study on mechanical response of single-lap bolted CFRP composite interference-fit joints. Composite Structures 196, 76-88.

18. Zou, P., Li, Y., Zhang, K.Cheng, H., Li, J. Influence of interference-fit percentage on stress and damage mechanism in hi-lock pin installation process of CFRP. Journal of Composite Materials, 2017, 51(25):3525-3538.

19. Song, D., Zhang, K., Li, Y.,Cheng, H., Liu, P., Hu, J., Micromechanical analysis for microscopic damage initiation in fiber/epoxy composite during interference-fit pin installation. Material & Design, 2016, 89:36-49.

20. Lou, B., Li, Y., Zhang, K.,Cheng, H., Liu, S., A novel prediction model for thrust force and torque in drilling interface region of CFRP/Ti stacks. The International Journal of Advanced Manufacturing Technology, 2015, 81(9-12): 1497-1508.

21. Lou, B., Li, Y., Zhang, K.,Cheng, H., Liu, S., Effect of workpiece stiffness on thrust force and delamination in drilling thin composite laminates. Journal of Composite Materials, 2017, 50(5):617-628.

22. Xu, Z., Li, Y., Zhang, J.,Cheng, H., Jiang, S. S., Tang, W. B. A dynamic assembly model for assembly sequence planning of complex product based on polychromatic sets theory. Assembly Automation. 2012, 32 (2): 152-162.

23.Xiao, H., Li, Y., Yu, J.Cheng, H., Dynamic assembly simplification for virtual assembly process of complex product. Assembly Automation. 2014, 34(1): 1-15.

24. Song, D., Zhang, K., Li, Y., Liu, P.,Cheng, H., Wu, T., Stress distribution modeling for interference-fit area of each individual layer around composite laminates joint. Composite PartB-Engineering, 2015, 78: 469-479.

25. Qi Z., Zhang, K., Li Y., Liu S.,Cheng H.Critical thrust force predicting modeling for delamination-free drilling of metal-FRP stacks. Composite Structures, 2014, 107: 604-609.

1. 2018年第13屆世界計算力學大會（13th World Congress in Computational Mechanics）復合材料制造計算力學（Computational Mechanics in Manufacturing of Composite Structure）分會分會主席；

2. 2018年第18屆美國應用力學大會（18th U.S. National Congress for Theoretical and Applied Mechanics）復合材料制造力學（Mechanics for Manufacturing of Composite Structure）分會分會主席；

3. 2019年第15屆全美計算力學大會（US National Congress on Computational Mechanics）復合材料工藝損傷分析控制（Process-Induced Deformation and Defects Control Method for Composite Structure）分會主席；

4. AIMS Materials Science專刊“Advances and Applications in Computational Modeling of Material Failure”副主編；

5. Composite Structure, Computational Mechanics, International Journal of Advanced Manufacturing Technology, Assembly Automation, Journal of Aerospace Engineering, Computer Graphics Forum等SCI期刊審稿人；

6.復合材料學會高級會員；

7.陜西省高等院校科學技術協(xié)會聯(lián)合會第二屆理事會理事。