代表论文:酒色网百度影音
1. 酒色网百度影音Jingwei Xiao, Wenjie Qin *, Shangjie Xu. Interference and thickness design of bushing of connecting rod small end for anti-loosening. Engineering Failure Analysis, 2021, 127: 105556
修艳弘 拳交2. Wenjie Qin, Min Wang, Wei Sun, Philip Shipway, Xudong Li. Modeling the effectiveness of oil lubrication in reducing both friction and wear in a fretting contact. 2019. Wear, 426–427: 770–777.
3. Wenjie Qin, Yixin Zhang, Chao Li. Determination of wear coefficient in mixed lubrication using FEM. Applied Mathematical Modelling, 2018, 59: 629–639.
4. Wenjie Qin, X. Jin, A. Kirk, P. H. Shipway, W. Sun. Effects of surface roughness on local friction and temperature distributions in a steel-on-steel fretting contact. Tribology International. 2018, 120: 350–357.
5. Wenjie Qin, Zhi Zhang. Simulation of the mild wear of cams in valve trains under mixed lubrication. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 2017, 231(5): 552-560.
6. Wenjie Qin酒色网百度影音, Cao Dong, and Xin Li. Assessment of bending fatigue strength of crankshaft sections with consideration of quenching residual stress. Journal of Materials Engineering and Performance, 2016, 25(3): 938-947.
7. Wenjie Qin, Zhe Yu and Qingdong Hou. Investigation of the dynamic behaviour of an automobile wiper system. International Journal of Vehicle Design, 2016, 72(2): 162-174.
8. Wenjie Qin, Jie Chao, Lunjing Duan. Study on Stiffness of Elastohydrodynamic Line Contact. Mechanism and Machine Theory, 2015, 86(4): 36-47.
9. Wenjie Qin, Youming Chen. Study on optimal kinematic synthesis of cam profiles for engine valve trains. Applied Mathematical Modelling, 2014, 38(17-18): 4345-4353.
10. Wenjie Qin, Caiyun Guan. An investigation of contact stresses and crack initiation in spur gears based on finite element dynamics analysis. International Journal of Mechanical Sciences, 2014, 83(6): 96-103.
出书文章及课本:
1. 覃文洁,王国丽. 机械系统能源学旨趣与诈欺(机械工程前沿文章系列). 高档教训出书社,2021.
2. 覃文洁,程颖. 当代遐想形貌概论(国度“十一五”蓄意课本,第二版). 北京理工大学出书社,2012.
筹议形势:
主要承担了工信部科工局基础产物科研形势——“高承载舞动摩擦副遐想期间筹议与磨真金不怕火考证”、“柴油机结构系统总体优化期间及磨真金不怕火考证”,轻型车辆能源型号专项的子项——“数字化柴油机研制期间——结构可靠性分析”等多项纵向项蓄意筹议,此外还与企业配合开展了“大口径火炮闭气环的动态密封性能分析”、“电子电器零部件结构可靠性仿真分析”等横向项蓄意筹议。