周俊杰
近期热点
资料介绍
研究领域
车辆传动理论与技术 流体传动与控制 软体机器人"研究项目:1 高速齿轮泵空化特性研究近期论文
代表性论文:Zhou J. J., Vacca A., Manhartsgruber B. A Novel Approach for the Prediction of Dynamic Features of Air Release and Absorption in Hydraulic Oils. ASME Journal of Fluid Engineering, 2013, 135(9): 091305. (Q1)Yuan S. H., Zhou J. J., Hu J. B. A Lumped Element Method for Modeling the Two-Phase Choking Flow Through Hydraulic Orifices. International journal of heat and mass transfer. 2015, 81: 355-361. (Q1)Zhou J. J., Wei C., Yuan S. H. A Novel Approach for Predicting the Thermal Effects of Gas Cavitation on Hydraulic Circuits. Energy, 2015,83: 576-582. (Q1)Zhou J. J., Vacca A., Casoli P. A Novel Approach for Predicting the Operation of External Gear Pumps under Cavitating Conditions. Simulation Modelling Practice and Theory, 2014, 45: 35-49. (Q2)Qu Y , Zhou J. J , Wu W . Theoretical and Experimental Research on Bubble Actuated Micro-Pumps. Micromachines, 2018, 9(5):225. (Q2)Jing C , Zhou J. J , Yuan S , et al. Research on the Pressure Ratio Characteristics of a Swash Plate-Rotating Hydraulic Transformer. Energies, 2018. 11(6): 161.(Q2)Zhou J. J., Hu J. B., Jing C. B. Lumped Parameter Modelling of Cavitating Orifice Flow in Hydraulic Systems. Strojniški vestnik - Journal of Mechanical Engineering. 2016(6), 373-380. (Q3)Zhou, J. J, Wei, C., and Yuan, S. (2016) An analytical model of gas content in fluids considering the distribution of bubble radius. Lubr. Sci., doi: 10.1002/ls.1365. (Q3)Qu Y, Zhou J. J. Lumped Parameter Model and Numerical Model of Vapor Bubble Driven Valve-less Micro-pump. Advances in Mechanical Engineering, 2017, Vol. 9(4) 1–7. (Q4)Zhou J. J., Hu J. B., Yuan S. H. Modeling Bubble Evolution in Air-Oil Mixture with a Simplified Method. Proc IMechE Part C: Journal of Mechanical Engineering Science. 2016, 230(16) 2865–2871. doi:10.1177/0954406215602033 (Q4)兵工学报、兵器装备工程学报审稿专家Journal of Fluid Engineering, ASME, Energy期刊审稿专家 相关热点