Surface modification of polymethyl-methacrylate using atmospheric pressure argon plasma jets to improve surface flashover performance in vacuum

Hydrophilic modification of polymethyl methacrylate (PMMA) surface is performed by atmospheric pressure plasma jet (APPJ) in Ar gas for improving the PMMA surface flashover performance in vacuum. In the experiments, APPJ is driven by a microsecond-duration pulsed generator, which has voltages of 0-30 kV, a rise time of 300 ns and a full width at half maximum of 2μs. Characteristics of the APPJ are analyzed according to its voltage and current waveform, discharge image and optical emission spectrum. Furthermore, surface properties of the PMMA surface before and after the treatment are characterized by water contact angle measurements and morphology observations. Results show that the main species of the plasma jet are composed of N2, Ar, OH, and O, among which such polar groups as OH and O enhance the hydrophilic property of the PMMA surface. The water contact angle decreases from 68° to a minimum value (16°) after the treatment. In addition, all the surface flashover voltages in vacuum for the PMMA samples treated by APPJ are higher than those for the untreated PMMA samples.

[1]  Cheng Zhang,et al.  Atmospheric-Pressure Plasma Jet Produced by a Unipolar Nanosecond Pulse Generator in Various Gases , 2011, IEEE Transactions on Plasma Science.

[2]  S. N. Moorching,et al.  Investigations on correlation between surface flashover and surface roughness of insulating spacers , 1998, 1998 Annual Report Conference on Electrical Insulation and Dielectric Phenomena (Cat. No.98CH36257).

[3]  Xiaoquan Zheng,et al.  Surface flashover characteristics of modified polyimide under DC voltage in vacuum , 2012, 2012 IEEE 10th International Conference on the Properties and Applications of Dielectric Materials.

[4]  R. Hackam,et al.  Influence of metal‐insulator junction on surface flashover in vacuum , 1987 .

[5]  Cheng Zhang,et al.  Surface modification of polyimide films using unipolar nanosecond-pulse DBD in atmospheric air , 2010 .

[6]  H. C. Miller Flashover of insulators in vacuum: review of the phenomena and techniques to improved holdoff voltage , 1993 .

[7]  Tadasu Takuma,et al.  Improving withstand voltage by roughening the surface of an insulating spacer used in vacuum , 2002, 20th International Symposium on Discharges and Electrical Insulation in Vacuum.

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

[9]  R. Hackam,et al.  Surface flashover of solid insulators in atmospheric air and in vacuum , 1985 .

[10]  Zhong-hua Huang,et al.  The temperature measurement of the electrothermal-chemical launcher plasma by atomic emission spectroscopy , 2001 .

[11]  Cheng Zhang,et al.  Surface Treatment of Polyethylene Terephthalate to Improving Hydrophilicity Using Atmospheric Pressure Plasma Jet , 2013, IEEE Transactions on Plasma Science.

[12]  Qiu Yu-chang,et al.  Improving Hydrophobicity of Glass Surface Using Dielectric Barrier Discharge Treatment in Atmospheric Air , 2007 .

[13]  Guan-Jun Zhang,et al.  Research on Surface Modification of Polytetrafluoroethylene Coupled With Argon Dielectric Barrier Discharge Plasma Jet Characteristics , 2011, IEEE Transactions on Plasma Science.

[14]  E. Gray,et al.  Surface Topography of Printed Wiring Boards and Its Effect on Flashover , 1982 .

[15]  K. V. Kozlov,et al.  The barrier discharge: basic properties and applications to surface treatment , 2003 .

[16]  Miran Mozetič,et al.  Surface modification and ageing of PMMA polymer by oxygen plasma treatment , 2012 .

[17]  H. Kirkici,et al.  Nano/Micro Dielectric Surface Flashover in Partial Vacuum , 2007, IEEE Transactions on Dielectrics and Electrical Insulation.

[18]  G. Blaise,et al.  Charging and flashover induced by surface polarization relaxation process , 1991 .

[19]  E. Schamiloglu,et al.  A Comparative Study of Water Electrodes Versus Metal Electrodes for Excitation of Nanosecond-Pulse Homogeneous Dielectric Barrier Discharge in Open Air , 2013, IEEE Transactions on Plasma Science.

[20]  X. Sun,et al.  The effects of fluorination on the vacuum surface flashover voltage of polyimide , 2013, 2013 Annual Report Conference on Electrical Insulation and Dielectric Phenomena.

[21]  장윤희,et al.  Y. , 2003, Industrial and Labor Relations Terms.

[22]  M. Kristiansen,et al.  Pulse Flashover of Solid Dielectrics in Vacuum , 1983, IEEE Transactions on Electrical Insulation.

[23]  J. Xue,et al.  Study on hydrophilicity of polymer surfaces improved by plasma treatment , 2006 .

[24]  P. Dubruel,et al.  Plasma Surface Modification of Biodegradable Polymers: A Review , 2011 .

[25]  G. Zhang,et al.  Correlation between trapping parameters and surface insulation strength of solid dielectric under pulse voltage in vacuum , 2007, IEEE Transactions on Dielectrics and Electrical Insulation.

[26]  Feihu Zheng,et al.  Suppression effect of surface fluorination on charge injection into linear low density polyethylene , 2009 .

[27]  James L. Walsh,et al.  Atmospheric plasma jet array in parallel electric and gas flow fields for three-dimensional surface treatment , 2009 .

[28]  Zhang Dongdong,et al.  Program-controlled pulse generator for repetitive nanosecond-pulse source , 2012 .

[29]  Y. Tu,et al.  Experimental investigation of influence of surface roughness on flashover performance of ceramics in vacuum , 2004, Conference Record of the 2004 IEEE International Symposium on Electrical Insulation.