表面改性处理对气相生长碳纤维的微观结构影响

复合材料学报, 2009, 26(5): 100-104.

表面改性处理对气相生长碳纤维的微观结构影响

傅雅琴 ^1, , 俞来明 ^2, , 韩春韶 ^3, , 倪庆清 ^4,

1.浙江理工大学,先进纺织材料与制备技术教育部重点实验室,杭州,310018

2.浙江理工大学,先进纺织材料与制备技术教育部重点实验室,杭州,310018

3.浙江理工大学,先进纺织材料与制备技术教育部重点实验室,杭州,310018

4.日本信州大学,纤维学部机能机械学科,日本上田386-8567

基金项目: 教育部长江学者和创新团队发展计划(IRT0654)

关键词：硅烷偶联剂 , 气相生长碳纤维 , 微观结构 , 改性

Effects of surface modification on the microstructure of vapor grown carbon fiber

为了使气相生长碳纤维(VGCF)能更好地作为高分子基体的增强材料,采用双氧水和硝酸(H2O2和HNO3)二步处理法、硅烷偶联剂处理法及H2O2和HNO3处理后再用硅烷偶联剂处理的联用改性法分别对VGCF进行表面改性处理,研究表面改性对VGCF微观结构的影响.利用AFM、FTIR、TG和XRD比较分析了改性处理对VGCF的表面微观结构、官能团、热稳定性和晶格等的影响.结果表明:3种处理方法对VGCF晶格无明显影响;H2O2和HNO3二步处理法能在纤维表面接枝羧基等含氧基团;硅烷偶联剂处理法能使纤维表面接枝硅氧烷低聚物;H2O2和HNO3处理后再用硅烷偶联剂处理联用改性VGCF,能使其表面接枝上更多的硅氧烷低聚物,有利于提高VGCF与高分子材料的亲和性.

参考文献

[1]	Zou J Z,Zeng X R,Xiong X B,et al.Preparation of vapor grown carbon fibers by microwave pyrolysis chemical vapor deposition[J].Carbon,2007,45(4):828-832.
[2]	Park S J,Lee D G.Performance improvement of micron-sized fibrous metal filters by direct growth of carbon nanotubes[J].Carbon,2006,44(10):1930-1935.
[3]	Takahashi T,Murayama T,Higuchi A,et al.Aligning vaporgrown carbon fibers in polydimethylsiloxane using dc electric or magnetic field[J].Carbon,2006,44(7):1180-1188.
[4]	Zhang C,Wu H F,Ma C A,et al.Effect of vapor grown carbon fiber on non-isothermal crystallization kinetics of HDPE/PMMA blend[J].Materials Letters,2006,60(8):1054-1058.
[5]	郭云霞,刘杰,梁节英.电化学改性对PAN基碳纤维表面状态的影响[J].复合材料学报,2005,22(3):49-54.Guo Yunxia,Liu Jie,Liang Jieying.Effect of electrochemical modification on the surface state of PAN-based carbon fibers[J].Acta Materiae Compositae Sinica,2005,22(3):49-54.
[6]	曹海琳,黄玉东,张志谦,等.磷酸盐溶液中碳纤维表面电化学改性[J].复合材料学报,2004,21(3);28-32.Cao Hailin,Huang Yudong,Zhang Zhiqian,et al.Electrochemical treatment of carbon fibers in aqueous phosphate[J].Acta Materiae Compositae Sinica,2004,21(3):28-32.
[7]	Chen Y H,Lin A,Gan F X.Improvement of polyacrylate coating by filling modified nano-TiO2[J].Applied Surface Science,2006,252(24):8635-8640.
[8]	苏克曼,潘铁英,张玉兰.波谱解析法[M].上海;华南理工大学出版社,2002:80-132.Su Keman,Pan Tieying,Zhang Yulan.Spectroscopy a nalytical method[M].Shanghai:South China University of Technology Press,2002:80-132.
[9]	Wan T,Hu Z W,Ma X L,et al.Synthesis of silane monomermodified styrene-acrylate microemulsion coatings by photopolymerization[J].Progress in Organic Coatings,2008,62(2):219-225.
[10]	Shi J,Wang Y,Gao Y,et al.Effects of coupling agents on the impact fracture behaviors of T-ZnOw/PA6 composites[J].Composites Science and Technology,2008,68(6):1338-1347.
[11]	Sham M L,Kim J K.Surface functionalities of multi-wall carbon nanotubes after UV/Ozone and TETA treatments[J].Carbon,2006,44(4):768-777.
[12]	Ma P C,Kim J K,Tang B Z.Functionalization of carbon nanotubes using a silane coupling agent[J].Carbon,2006,44(15):3232-3238.
[13]	lijima M,Tsukada M,Kamiya H.Effect of surface interaction of silica nanoparticles modified by silane coupling agents on viscosity of methylethylketone suspension[J].Journal of Colloid and Interface Science,2007,305(2):315-323.
[14]	Xu B S,Zhang C Y,Yang Y Z,et al.FeCl3-catalyzed growth of vapor-grown carbon fibers from deoiled asphalt[J].New Carbon Materials,2007,22(3):193-198.

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