The synergistic effect of micro structure/nanofiller/superhydrophobicity on the surface flashover

[1]  Guangning Wu,et al.  Pollution morphology characteristics on a superhydrophobic surface and its pollution flashover voltage in DC electric field , 2021, High Voltage.

[2]  W. Duan,et al.  A superhydrophobic hydrogel for self‐healing and robust strain sensor with liquid impalement resistance , 2021, Chinese Journal of Chemistry.

[3]  Wen Cao,et al.  The effect of dynamic behaviours of the water droplet on DC/AC flashover performance on silicone rubber surface: Experiment, simulation and theoretical analysis , 2021, High Voltage.

[4]  G. Zhang,et al.  Superhydrophobic and high-flashover-strength coating for HVDC insulating system , 2021 .

[5]  W. Duan,et al.  A Passive Anti-icing Strategy Based on a Superhydrophobic Mesh with Extremely Low Ice Adhesion Strength , 2021, Journal of Bionic Engineering.

[6]  Yushun Zhao,et al.  Improving the surface insulating performance of epoxy resin/Al 2 O 3 composite materials by extending chain of liquid epoxy resin with Me‐THPA , 2020, High Voltage.

[7]  Qing Xie,et al.  Enhancement of surface insulation properties of alumina/epoxy composites through ZrO 2 film sprayed by plasma atomization , 2020 .

[8]  Shengtao Li Improvement of surface flashover in vacuum , 2020, High Voltage.

[9]  W. Duan,et al.  A superhydrophobic fluorinated PDMS composite as a wearable strain sensor with excellent mechanical robustness and liquid impalement resistance , 2020 .

[10]  Z. An,et al.  Improved flashover performance and tracking resistance of silicone rubber by direct fluorination , 2020, Journal of Applied Polymer Science.

[11]  Yushun Zhao,et al.  Effect of surface roughness on flashover characteristics of silicone rubber , 2019, Journal of Electrostatics.

[12]  Cheng Zhang,et al.  Surface modifications of polystyrene and their stability: A comparison of DBD plasma deposition and direct fluorination , 2018, Applied Surface Science.

[13]  Effects of surface roughness on surface charge accumulation characteristics and surface flashover performance of alumina-filled epoxy resin spacers , 2018, Journal of Applied Physics.

[14]  Xingliang Jiang,et al.  AC flashover performance of different shed configurations of composite insulators under fan‐shaped non‐uniform pollution , 2018, High Voltage.

[15]  Xiao-liang Sun,et al.  Effects of surface “micro-holes” on the flashover properties of a disk-type ceramic-vacuum insulator , 2017 .

[16]  Yufeng Li,et al.  Dynamic behavior of water droplets and flashover characteristics on a superhydrophobic silicone rubber surface , 2017 .

[17]  Jian Li,et al.  Electrohydrodynamic behavior of water droplets on a horizontal super hydrophobic surface and its self-cleaning application , 2017 .

[18]  A. Beroual,et al.  Behavior of AC High Voltage Polyamide Insulators: Evolution of Leakage Current in Different Surface Conditions , 2015 .

[19]  Y. Liu,et al.  Effects of nano-SiO2 particles on surface tracking characteristics of silicone rubber composites , 2014 .

[20]  B. Du,et al.  Hydrophobicity evaluation of silicone rubber insulator using DC discharge induced acoustic wave , 2013, IEEE Transactions on Dielectrics and Electrical Insulation.

[21]  P. Yan,et al.  Experimental investigation of surface flashover in vacuum using nanosecond pulses , 2007, IEEE Transactions on Dielectrics and Electrical Insulation.

[22]  Jingchun Wang,et al.  The influence of sintering temperature on the flashover performance of alumina insulators in vacuum , 2001, Proceedings of 2001 International Symposium on Electrical Insulating Materials (ISEIM 2001). 2001 Asian Conference on Electrical Insulating Diagnosis (ACEID 2001). 33rd Symposium on Electrical and Ele.