常压辉光放电等离子体对化纤及其它聚合物材料的表面处理研究进展Surface Treatment of Polymeric Materials by Atmospheric Pressure Glow Discharge Plasma
张燕,顾彪,王文春,王德真
ZHANG Yan1, GU Biao2, WANG Wen-chu1,2
摘要(Abstract):
常压辉光放电等离子体(APGDP)具有不需要在低气压下运行、可实现连续生产、能产生大面积均匀放电且面功率密度合适等优点,其在化纤及其它聚合物的表面改性上有很好的应用前景,是近期等离子体应用研究中的一个热点。主要综述了APGDP对化纤及其它聚合物的表面处理,并扼要地介绍了APGDP对化纤及其它聚合物的等离子体聚合和等离子体引发的聚合或表面接枝,以及有关化纤染色性的研究。
At present, the application of atmospheric pressure glow discharge plasma (APGDP) in industry is the research hotspot and APGDP has the vital role in the surface modification of polymeric material. This is the reason that it has many excellences, does not demand vacuum system, can realize consecutive production, obtain large-volume uniform plasma and hold right power density. In this paper, we chiefly summarize surface treatment of APGDP on polymeric material, especially chemical fiber. Then it is simply introduce plasma polymerization, surface graft initiated by plasma. Dyeability of chemical fiber is researched.
关键词(KeyWords):
常压辉光放电等离子体;聚合物;化纤;表面处理
atmospheric pressure glow discharge plasma, polymeric material, chemical fiber, surface treatment
基金项目(Foundation): 国家重点基金项目,项目编号50537020;; 国家自然科学基金项目,项目编号10075010、10575019。
作者(Author):
张燕,顾彪,王文春,王德真
ZHANG Yan1, GU Biao2, WANG Wen-chu1,2
参考文献(References):
- [1]余坚,何嘉松.聚烯烃的化学接枝改性.高分子通报,2000,3:66.
- [2]李颖,谢续明.聚丙烯多单体熔融接枝及其共混物研究.高分子通报,2000,2:73.
- [3]汤俊宏,宋安泰等.可染型聚丙烯纤维的研究.合成纤维工业,1998,21:24-27.
- [4]Hautojarvi Joni,Laaksonen Sanna.On-line surface modification of polypropylene fibers by corona treatment during melt-spinning.Textile Res J,2000,70(5):391.
- [5]顾彪,彭静等.无声放电对聚酯织物表面的等离子体接枝改性.大连理工大学学报,1999,39(6):7261.
- [6]蔡兵,李瑞霞等.等离子体处理对非织造布表面润湿性的效应.四川大学学报(自然科学版),2001,(1):91.
- [7]Kanazawa S,Kogoma M,et al.The improvement of the atmospheric-pressure glow plasma method and the deposition of organic Films.Nucle-ar Instruments and Methods in Physics Research,1989,B37(38):842.
- [8]Tsai P P,Roth J R,et al.Surface modification of fabrics using a one-atmosphere glow discharge plasma to improve fabrics wettability.Textiles Res J,1997,67(5):359.
- [9]MˇS′itra,D Trunec,P Sˇtahel,et al.Surface modification of polyethy-lene and polypropylene in atmospheric pressure glow discharge.J Phys D:Appl Phys,2005,38:621-627.
- [10]Alina Kaminska,Halina Kaczmarek,Jolanta Kowalonek.The influ-ence of side groups and polarity of polymers on the kind and effectiveness of their surface modification by air plasma action.European Polymer Journal,2002,38:1915-1919.
- [11]D J Upadhyay,N V Bhat.Surface Modification and Characterization of Dichloromethane Plasma Treated Polypropylene Film.Plasmas and Polymers,2003,8:237-257.
- [12]方志,罗毅等.空气中大气压下低温等离子体对聚四氟乙烯进行表面改性的研究.真空科学与技术,2003,23:408-412.
- [13]方志,邱毓昌等.用大气压下空气辉光放电对聚四氟乙烯进行表面改性.西安交通大学学报,2004,38:190-194.
- [14]Z Fang,Y Qiu,Y Luo.Surface modification of polytetrafluoroethylenefilm using the atmospheric pressure glow discharge in air.J Phys D:Appl Phys.2003,36:2980-2985.
- [15]金杰,刘学恕,刘倩等.等离子体对聚酯纤维的表面改性.合成纤维工业,1994,17:311.
- [16]Gu Biao,et al.Atmospheric Pressure Glow Discharge plasma and Surface Modification of PET Texile by APGDP.44th Annual Meeting of the Division of Plasma Physics,November11-15,2002.
- [17]Gu Biao,Zhang Yan,et al.Atmospheric Pressure Glow Discharge Plasma and Dyeability improvement of Silpron Fabrics.15th International Colloquium on Plasma Processes,2005/06/05-09,Grenoble/Autrans,France.
- [18]赵化侨.等离子体化学与工艺.中国科技大学出版社,1993.
- [19]陈杰瑢.南京大学学报(自然科学),1995,31(专辑):251.
- [20]Wakida T,Tokino S,et al.Dyeing properties of wool treated with low-temperature plasma under atmospheric pressure.Textile Res J,1993,63:438-442.
- [21]N Inagaki,S Tasaka and M Imai.Hydrophilic surface modification of polypropylene films by CCl4plasma,J Appl Polym Sci,1993,48:1963.
- [22]N Inagaki,S Tasaka and Y Suzuki.Surface chlorination of polypropy-lene film by CHCI3plasma.J Appl Polym Sci,1994,51:2131.
- [23]舒蕊,李淳等.亚麻的低温等离子体接枝.印染,2005,19:8-10.