期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

常压介质阻挡放电等离子体处理纤维的ESR研究(英文) 被引量:2

ESR study on fibers treated with atmospheric dielectric barrier discharge plasma
下载PDF
导出
摘要 探讨常压介质阻挡放电(DBD)等离子体的反应机理,采用电子自旋共振技术研究经DBD处理的3种典型纺织纤维所产生的自由基.分析比较了不同处理时间,不同纤维含潮率下羊毛纤维中所产生的各种自由基的电子自旋共振谱,以及同一处理条件下不同种类纤维的ESR谱.结果表明,常压DBD等离子体反应能够有效地促成纺织纤维表面自由基的生成.纤维含潮率是平行于等离子体处理时间,纤维大分子结构等参数,是影响自由基产物的重要因素之一.当纤维中的水分含量达到一定程度时,纤维回潮会抑制等离子体处理过程中自由基的生成. In order to further understanding the mechanism of atmospheric dielectric barrier discharge, the production and influenee factors of free radical trapped in fibers treated by plasma were investigated by using electron spin resonance (ESR) spectroscopy. The ESR spectra shapes and intensity of treated wool samples change with increasing the plasma time during. The absence of obvious spin signals in wool samples pre-condifioned in 100% RH before plasma treatment indicates that free radical formation is inhibited in fibers with the highest moisture regain, which could be accounted for the function of absorbed water molecules in the fiber matrix. Big differences are evident in the ESR spectrum among different type of fibers under the same plasma condition. It can be concluded that the plasma duration, fiber moisture content and maeromoleeular structure have great influence on the outcome of free radicals induced by the atmospheric dielectric barrier discharge.
作者 孙洁 王春霞 姚澜 邱夷平
机构地区 东华大学纺织学院 盐城工学院纺织服装学院
出处 《西安工程大学学报》 CAS 2009年第2期262-266,共5页 Journal of Xi’an Polytechnic University
基金 Program for Changjiang Scholars and Innovative Research Team in University(IRT0526) Shanghai Dujiang Program(06PJ14911)
关键词 常压介质阻挡放电 电子自旋共振 自由基 含潮率 dielectric barrier discharge electron spin resonance free radicals moisture regain
分类号 TS101.8 [轻工技术与工程—纺织工程]
  • 相关文献

参考文献13

  • 1A Raffacle-Addamo,C Riccsrdi,E Selli,et al.Characterization of plasma processing for polymers[J].Surface and Coatings Technology,2003,174:886-890.
  • 2SCHUMAN Thomas,ADOLFSSON Britt,WIKSTB M Magnus,et al.Surface treatment and printing properties of dispersioncoated paperboard[J].Progress in Organic Coating,2005,54(3):188-197.
  • 3SHENTON M J,STEVENS G C.Surface modification of polymer surfaces:atmospheric plasma versus vacuum plasma treatments[J].Journal of Physics D:Applied Physics,2001,34(18):2 761-2 768.
  • 4SUGIYAMA Kazuo,KIYOKAWA Kazutoshi.Hiroyuki matsuoka generation of non-equilibrium plasma at atmospheric pressure and application for chemical process[J].Thin Solid Films,1998,316(1):117-122.
  • 5YANG S,GUPTA M C.Surface modification of polyethylencterephthalate by an atmospheric-pressure plasma source[J].Surface and Coatings Technology,2004,187(2):172-176.
  • 6MOLINA Ricardo,ERRA Pilaf.Free radical formation in wool fibers treated by low temperature plasma[J].Textile Research Journal,2003,73 (11):955-959.
  • 7YASUDA H.Plasma for modification of polymers[J].Journal of Macromolecular Science,1976,10(3):383-420.
  • 8CHEN J R.Study on free radicals of cotton and wool fibers treated with low-temperature plasma[J].Journal of Applied Polymer Science,1996,62:1 325-1 329.
  • 9CHEN J R.Free radicals of fibers treated with low temperature plasma[J].Journal of Applied Polymer Science,1991,42:2 035-2 037.
  • 10LIU L,JIANG Q,ZHU T,et al.Influence of moisture regain of aramid fibers on effects of atmospheric pressure plasma treatment on improving adhesion with epoxy[J].Journal of Applied Polymer Science,1991,102(1):242-247.

同被引文献12

引证文献2

二级引证文献9

西安工程大学学报
2009年 第2期

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