期刊文献+

不同介质下纳秒脉冲介质阻挡放电特性对比 被引量:24

Comparison of the Characteristics in Nanosecond-pulsed Dielectric Barrier Discharge Using Different Dielectric Materials
原文传递
导出
摘要 介质阻挡材料是影响介质阻挡放电的一个重要因素。为此,采用聚四氟乙烯、K9玻璃和环氧分别作为介质阻挡材料,研究了介质阻挡层厚度、气隙距离、施加脉冲电压幅值、重复频率对放电特性的影响,并对结果进行了对比分析。实验结果表明,阻挡材料的介电常数越大,越容易产生强烈的放电;玻璃为阻挡介质时,能够保持均匀放电的允许介质厚度范围最大,但漏电也最为严重;聚四氟乙烯为阻挡介质时,能够保持均匀放电的允许频率范围最大;环氧为阻挡介质时,能够保持均匀放电的允许电压范围最大。 Dielectric barrier material is an important factor to influence dielectric barrier discharge(DBD).Based on a magnetic compression solid-state pulsed power generator,the discharge characteristics of DBD using different materials were investigated.The effects of dielectric barrier thickness,air gap spacing,and applied voltage amplitude on the discharge characteristics were studied when PTFE,K9 glass and epoxy were used as dielectric barriers.The experimental results show that it is easy to attain intense discharge along with the increase of permittivity of the material.The range of dielectric barrier thickness to attain uniform discharge is wider when using glass as dielectric barrier than that of the other two materials,but the leakage current is the highest too;the range of applied voltage repetition rate is wider when using PTFE;and the range of applied voltage amplitude is wider when using epoxy.
出处 《高电压技术》 EI CAS CSCD 北大核心 2011年第6期1529-1535,共7页 High Voltage Engineering
基金 国家自然科学基金(110760265100708750707032) 中科院知识创新工程重要方向项目前沿项目(KGCX2-YW-339) 国家重点基础研究发展计划(973计划)(2011CB209405)~~
关键词 NS脉冲 介质阻挡放电(DBD) 介质阻挡材料 放电特性 脉冲电流 起始放电时刻 nanosecond-pulse dielectric barrier discharge(DBD) dielectric barrier material discharge characteristics pulsed current discharge initiation
  • 相关文献

参考文献28

  • 1王新新.介质阻挡放电及其应用[J].高电压技术,2009,35(1):1-11. 被引量:196
  • 2Wagner H E, Brandenburg R, Kozlov K V, et al. The barrier discharge: basic properties and applications to surface treatment [J]. Vacuum, 2003, 71(3):417-436.
  • 3Roth J, Rahel R J, Dai X, et al. The physics and phenomenolo- gy of one atmosphere uniform glow discharge plasma reactors for surface treatment applications[J]. Applied Physics, 2005, 38 (4): 555-567.
  • 4Ayan H, Staack D, Fridman G, et al. Application of nanose- cond-pulsed dielectric barrier discharge for biomedical treatment of topographically non-uniform surfaces [J]. Applied Physics, 2009, 42(12):125202 -125206.
  • 5Lu Xinpei, Cao Yinguang, Yang Ping, et al. An RC plasma de- vice for sterilization of root canal of teeth [J]. IEEE Transac- tions on Plasma Science, 2009, 37(5):668-672.
  • 6Fang Zhi, Lin Jingguo, Yang Hao, et al. Polyethylene tereph- thalate surface modification by filamentary and homogeneous di- electric harrier discharges in air[J]. IEEE Transactions on Plas- ma Science, 2009, 37(5): 659-667.
  • 7Shao Tao, Zhang Cheng, Long Kaihua, et al. Surface modifica- tion of polyimide films using unipolar nanosecond-pulse DBD in atmospheric air[J]. Applied Surface Science, 2010, 256 (12), 3888-3894.
  • 8胡建杭,方志,章程,赵龙章.介质阻挡放电处理增强聚合物薄膜表面亲水性[J].高电压技术,2008,34(5):883-887. 被引量:16
  • 9Okazaki S, Kogoma M, Uehara M, et al. Appearance of stable glow discharge in air, argon, oxygen and nitrogen at atmospher- ic pressure using a 50 Hz source[J]. Journal of Physics D: Ap- plied Physics, 1993, 26(5): 889-892.
  • 10Shao Tao, Long Kaihua, Zhang Cheng, et al. Electrical char- acterization of dielectric barrier discharge driven by repetitive nanosecond pulses in atmospheric air [J]. Journal of Electro- statics, 2009, 67(2/3):215-221.

二级参考文献134

共引文献289

同被引文献343

引证文献24

二级引证文献230

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部