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射流低温等离子体改性增强聚甲基丙烯酸甲酯薄膜表面亲水性研究 被引量:2

Improving the Hydrophilicity of Polymethylmetacrylate Film Surface Using Cold Plasma Jets in Air
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摘要 用空气中射流低温等离子体对聚甲基丙烯酸甲酯(PMMA)薄膜进行表面改性,比较了改性前后PMMA表面水接触角和表面能的变化。研究了等离子体改性时间及改性距离对改性效果的影响,测量了改性后PMMA在空气中放置时的老化效应,并对改性机理进行了分析。结果表明,PMMA薄膜经射流低温等离子体改性后,水接触角下降,表面能上升,两者均在一定改性时间时达到饱和状态。当改性时间固定时,减小改性距离,可以得到更好的改性效果。改性后的材料存在老化效应,放置9天后,老化效应趋于稳定,但其表面水接触角仍远低于改性前的值。 The surfaces of polymethylmetacrylate(PMMA) films were modified by cold plasma jets in air,and the change in surface contact angle and surface energy of the PMMA before and after the modification were compared.The effects of modification time and modification distance on the hydrophilicity of PMMA surface were studied,and the aging effect of treated materials that are exposed in open air was measured,with the modification mechanism being discussed.Results show that the contact angle decreases and the surface energy increases with the increase of modification time,and both of them reach saturation values as the modification time increases to a certain value.It is found that a better modifying effect can be achieved by reducing modification distance when the modification time is kept to be constant.Aging effect occurs on the PMMA surface after modification,but the value of water contact angle is still much lower than that of untreated one even after 9 days storage in ambient air.
作者 蔡玲玲 王鑫国 方志
机构地区 南京工业大学自动化与电气工程学院
出处 《绝缘材料》 CAS 北大核心 2010年第6期31-35,共5页 Insulating Materials
基金 国家自然科学基金项目(50707012) 江苏省高校"青蓝工程"资助项目
关键词 低温等离子体 射流 表面改性 PMMA薄膜 亲水性 cold plasma jet surface modification polymethylmethacrylate(PMMA) hydrophilicity
分类号 TM206 [一般工业技术—材料科学与工程] TM213 [一般工业技术—材料科学与工程]
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参考文献15

  • 1Laimer J, Herbert S.Recent Advances in the Research on Non-equilibrium Atmospheric Pressure Plasma Jets[J]. Plasma Processes and Polymers, 2007, 4(3) : 266 - 274.
  • 2Schutze A,Jeong J Y,Babayan S E,et al. The Atmospheric Pressure Plasma Jet: A Review and Comparison Toother Plasma Sources[J]. IEEE Transactions on Plasma Science, 1998,26(6) : 1685- 1694.
  • 3章程,方志,赵龙章,邱毓昌.介质阻挡放电在绝缘材料表面改性中的应用[J].绝缘材料,2006,39(6):42-46. 被引量:16
  • 4Fang Z,Hao L, Yang H, et al. Polytetrafluoroethylene Surface Modification by Filamentary and Homogeneous Dielectric Barrier Discharges in Air[J]. Applied Surface Science, 2009,255(16) : 7279 - 7285.
  • 5Wagner 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.
  • 6潘贤林,彭淑静,张瑞云.常压等离子体射流对PBO纤维表面改性[J].纺织科技进展,2009(6):17-20. 被引量:2
  • 7Noh J H, Baik H K, Noh I, et al. Surface Modification of Polytetrafluoroethylene Using Atmospheric Pressure Plasma Jet for Medical Application[J] .Surface and Coatings Technology, 2007, 201(9 - 11) : 5097 - 5101.
  • 8Sun P, Pan J, Tian Y, et al. Tooth Whitening With Hydrogen Peroxide Assisted by a Direct-Current Cold Atmospheric-Pressure Air Plasma Microjet[J]. IEEE Transactions on Plasma Science, 2010, 38(8) : 1892- 1896.
  • 9Peng S, Gao Z, Sun J, et al. Influence of Absorbed [Moisture on Solubility of Poly(vinyl alcohol) film During Atmospheric Pressure Plasma Jet Treatment[J]. Surface and Coatings Technology, 2010, 204(8) : 1222- 1228.
  • 10石兴民,张冠军,许桂敏,马跃,吴喜利.等离子体射流对医疗器械的消毒效果研究[J].高电压技术,2009,35(3):632-635. 被引量:9

二级参考文献90

共引文献74

同被引文献25

  • 1董丽芳,刘峰,李树锋,冉俊霞,贺亚峰,李雪辰,庞学霞.大气压氩气/空气介质阻挡放电中分子振动温度[J].光谱学与光谱分析,2006,26(5):802-804. 被引量:22
  • 2孙健,施利毅,钟庆东,曾乐才.高压绝缘防污闪涂层的研究进展[J].高电压技术,2007,33(11):80-83. 被引量:16
  • 3Jafari R,Asadollahi S,Farzaneh M.Applications of Plasma Technology in Development of Superhydrophobic Surfaces[J].Plasma Chemistry and Plasma Processing,2013,33(1):177-200.
  • 4Sarathi R,Sahu R K.Understanding the Hydrophobic Characteristics of Epoxy Nanocomposites Using Wavelets and Fractal Technique[J].IEEE Transactions on Dielectrics and Electrical Insulation,2008,15(1):63-72.
  • 5Goru R S,Cherney E,Tourreil C,et al.Protective Coatings for Improving Contamination Performance of Outdoor High Voltage Ceramic Insulators[J].IEEE Transactions on Power Delivery,1995,10(2):924-930.
  • 6Bárdos L,BaránkováL.Cold Atmospheric Plasma:Sources,Processes,and Applications[J].Thin Solid Films,2010,518(23):6705-6713.
  • 7Pappas D.Status and Potential of Atmospheric Plasma Processing of Materials[J].Journal of Vacuum Science&Technology A,2011,29(2):020801.
  • 8Lu X,Laroussi M,Puech V.On Atmospheric-pressure Non-equilibrium Plasma Jets and Plasma Bullets[J].Plasma Sources Science and Technology,2012,21(3):034005.
  • 9Fang Z,Qiu X,Qiu Y,et al.Dielectric Barrier Discharge in Atmospheric Air for Glass-surface Treatment to Enhance Hydrophobicity[J].IEEE Transactions on Plasma Science,2006,34(4):1216-1222.
  • 10Vogelsang A,Ohl A,Foest R,et al.Hydrophobic Coatings Deposited with an Atmospheric Pressure Microplasma Jet[J].Journal of Physics D:Applied Physics,2010,43(48):485201-485209.

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绝缘材料
2010年 第6期

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