个人简介
刘奇,讲师。2023年毕业于西安交通大学机械工程学院,2023年10月入职江苏师范大学任教。
研究方向
▪主要从事于重型机械运动部件表界面润滑增效、人工关节润滑、表面织构设计及制备、流体润滑理论计算、接触式密封等
主讲课程
本科生课程:《理论力学》《数值计算方法》《数字化设计基础》
论文专著及专利
第一作者文章
1.刘奇, 董光能. 纳秒脉冲激光参数及激光路径填充方式对表面织构平坦化的影响[J]. 表面技术, 2019, 48 (8): 7 (EI: 20194207550901).
2.Liu Q, Liu Y, Li X, et al. Pulse laser-induced cell-like texture on surface of titanium alloy for tribological properties improvement[J]. Wear, 2021, 477: 203784 (SCI: 000681194100001; EI 20211510191214).
3.Liu Q, Kouediatouka AN, Jiang S, et al. Laser com-texture on Ti6Al4V surface for lubricant transportation to improve tribological properties[J]. Journal of Tribology-Transactions of the Asme, 2023, 145(3): 031705 ( SCI:000923482800006; EI: 20225213297570).
4.Liu Q, Yuan HD, Jiang S, et al. Laser hexagonal texture on surface of Ti6Al4V for the improvement of fluid spreadability and tribological properties[J]. Proceedings of the Institution of Mechanical Engineers Part J-Journal of Engineering Tribology, 2023, 237 (2): 276-287 (SCI: 000814299600001; EI: 20222612275333).
5.Liu Q, Li J, Hu JW, et al. Improvement of tribological properties of ZnO nanoemulsion lubricant for zirconium alloy cold rolling by hydroxyethyl cellulose (HEC) [J]. Journal of the Chinese Society of Mechanical Engineers, 2023, 44(5): 425-434.
6.Liu Q, Li J, Zhang JF, et al. Improvement of tribological properties of water-based ZnO nano-particles lubricant for zirconium alloy cold rolling by hydroxyethyl cellulose [J]. Lubrication Science, 2023, 35(7): 513-527.
7.刘奇, 孟召喆, 袁成清等. 船用内燃机轴瓦表面含MoS2的PAI/PTFE聚合物复合涂层制备及减摩抗磨研究[J]. 润滑与密封, 2023(11): 1-8.
8.Liu Q, Yuan H, Yang D, et al. Aggregation of micron-particles in microfluidic texture of artificial joint to improve tribological properties[J]. Tribology International, 2024, 193: 109365.
9.Liu Q, Shentu J, Yang D, et al. Study on the surface texture-microparticles synergistic lubrication mechanism of artificial joint[J]. Journal of Tribology-Transactions of the ASME, 2025, 147(6): 1-14.
通讯作者文章
1.Lu HL, Hu F, Liu Q, et al. Improved tribology performances of copper graphite (Cu/C) using a phosphorized oxidization surface obtained with tricresyl phosphate (TCP)[J]. Industrial Lubrication and Tribology, 2021, 73 (7): 1028-1036 (SCI: 000687754800001).
2.Zhao WG, Liu Q, Yuan HD, et al. Enhanced tribological property of mechanical seal in water environment by nanosecond laser surface texturing[J]. Journal of the Chinese Society of Mechanical Engineers, 2022, 43 (1): 37-46 (SCI:000768997200008).
3.Wang YL, Liu Q, Zhou K, et al. Study on the proportion law of sulfur extreme pressure additives based on response surface methodology[J]. Journal of the Chinese Society of Mechanical Engineers, 2022, 43 (4): 327-335 (SCI: 000853137000004).
4.Fan FQ, Liu Q, Zhou K, et al. A new extreme pressure additive containing phosphorus and nitrogen (PN) to improve gear oil tribological properties[J]. Journal of the Chinese Society of Mechanical Engineers, 2022, 43 (6): 531-538 (SCI: 000911513600005).
5.Zhao WG, Yuan HD, Liu Q, et al. Tribological properties of high temperature oxidation film on bearing steel sliding against copper-graphite[J]. Journal of the Chinese Society of Mechanical Engineers, 2023.
6.Huang H, Liang K, Cui B, Wang GH, Zou W, Zhang Z, Li XS, Chen R, Liu Q, et al. Analysis of wear resistance deterioration at elevated temperature of medium carbon alloy steel treated by composite strengthening method of nitriding and microshot peening[J]. Engineering Failure Analysis, 2025, 171: 109416.
7.Li Z, Yang D, Liu Q, et al. Study on the anti-corrosion performance of armored superhydrophobic surface in a coal-rich environment[J]. Materials Today Communications, 2025, 43: 111613.
