共发表中英文学术论文30余篇,代表作如下: 2024-至今指导本科生与研究生科研成果 [1]Su J,Li S, Zhou C*, Shi Z. Innovative Insights into Nanofluid-Enhanced Lubrication: Computational and Experimental Analysis. Tribology International, 2024, 199:109949. (中科院一区,TOP期刊,本科生-飞行器传动方向) [2]Su J,Li S, Hu B, Yin L*, Wang H, Xiao Z. Numerical Simulation and Experimental Analysis in Transmission Systems Using Al2O3Nanofluids. The 24th IFToMM China International Conference on Mechanism and Machine Science & Engineering, 2024, (EI,本科生-新能源汽车传动方向) [3]Su J,Li S, Zhou C*, Jiang X, Shi Z*. Innovative CFD and Experimental Insights into Graphene Oxide-Enhanced Lubrication and Self-Healing Dynamic Behavior. ICMT 2025 (International Conference on Mechanical Transmission). (EI,研究生-机器人传动方向) [4]Jiang X, Zhou C*,Su J*, Li N. Enhanced anti-icing performance of novel superhydrophobic F-L@KH-SiO2/OTMS coating synergistic preparation with bionic micro-nano structures and modified nanoparticles. Chemical Engineering Journal, 2024,498:155264.(中科院一区,TOP期刊,IF:16.7,研究生-微纳激光加工方向) [5]Jiang X, Zhou C*,Su J*, Li N. Enhancing durability of superhydrophobic surfaces via nanoparticle-induced bipolar interface effects and micro-nano composite structures: A femtosecond laser and chemical modification approach. Surfaces and Interfaces, 2024,498:155264.(中科院二区,研究生-3D打印方向) [6]Jiang X, Zhou C*,Su J, Li N. Enhanced drag reduction of superhydrophobic coatings with femtosecond laser processing and TEOS/KH-SiO2/SA hybridization: CFD simulation and particle image velocimetry. Progress in Organic Coatings,2024, 197: 108865.(中科院二区,研究生-计算机视觉与图像处理方向) [7]Jiang X, Zhou C*,Su J, Tang S, Li N. Enhanced anti-icing and drag reduction of multilayer composite structure superhydrophobic surface. Applied Surface Science, 2025.(中科院二区,TOP期刊,研究生-3D打印方向) [8]Jiang X, Zhou C*,Su J, Tang S,Innovative droplet manipulation techniques on F-L@KH550/HDTMS/PDMS/SiO2 superhydrophobic surfaces with excellent corrosion resistance using femtosecond laser and chemical modifications.Colloids and Surfaces A: Physicochemical and Engineering Aspects,2024,707:135960.(中科院二区,TOP期刊,研究生-微纳激光加工方向) [9]胡波,陈赞,董建雄,苏杰*,尹来容.基于图像识别技术的高速斜齿轮油液体积计算与喷油润滑仿真,机械传动, 2025.(中科院二区,TOP期刊,研究生-图像处理方向) [10 ]智爬玻璃:仿生智能机器人在高空清洁检测中的应用研究(本科生创新创业训练计划项目2025)
2022-2023博士期间部分科研成果 [1] Zhou C*,Su J, Jiang X, Shi Z. Numerical simulation and experimental verification for the sorting behaviors of mixed biomass particles in a novel Z-shaped fluidized bed. Chemical Engineering Journal, 2022,441: 136109.(中科院一区,TOP期刊,IF:16.7) [2]Su J, Zhou C*, Chen H, Xia N, Shi Z. The physical and mechanical properties for flexible biomass particles using computer vision. Fuel, 2022,315:123278.(中科院一区,TOP期刊,IF:8.2) [3]Su J, Zhou C*, Jiang C, Zheng M. The movement law and orientation control of rectangular particles in the viscous fluid domain based on IS-FEM. Advanced Powder Technology, 2022, 33(7):103634.(中科院二区) [4] Zhou C*,Su J, Chen H, Shi Z. Terminal velocity and drag coefficient models for disc-shaped particles based on the imaging experiment. Powder Technology, 2022, 398:117062.(中科院二区,TOP期刊,ESI高倍引论文) [5]Su J, Zhou C*, Jiang X, Qiao Z. Orderly arrangement of agricultural biomass particles in designed gas–solid fluidized beds using CFD-DEM and image experiment. Computers and Electronics in Agriculture, 2023,204:107510.(中科院一区,TOP期刊) [6]Su J, Zhou C*, Ren G, Qiao Z, Chen Y. Improving biomass mixture separation efficiency in multiple inclined channels of gas–solid fluidized bed: CFD-DEM simulation and orthogonal experiment. Powder Technology, 2023,413:118066.(中科院二区,TOP期刊) [7]Su J, Jiang C, Zhou C*, Simulation and verification of particle flow with an elastic collision by the immersed edge-based smoothed finite element method. Advanced Powder Technology, 2023, 104130.(中科院二区) [8] Zhou C*, Chen H,Su J, Chen Y. Orientation simulation and image experiment for flexible biomass particle in wedge fluidization channel. Journal of Food Engineering, 2022, 333:111150.(中科院一区,TOP期刊) [9] Zhou C*, Jiang X,Su J* , Liu Y, Hou S. Injection lubrication for high-speed helical gears using the overset mesh method and experimental verification. Tribology International, 2022, 173: 107642.(中科院一区,TOP期刊) [10] Jiang X, Zhou C*,Su J. Injection parameter design to improve the high-speed gear heat dissipation: CFD simulation and regression orthogonal experiment. Simulation Modelling Practice and Theory, 2023, 102795.(中科院二区) [11] Qiao Z, Zhou C*,Su J. A novel dynamic heat-flow coupled model under spray lubricationfor high-speed gears: CFD simulation and experimental validation. Simulation Modelling Practice and Theory, 2023.(中科院二区) |