碳纤维表面原位生长碳纳米管的研究

材料导报, 2014, 28(4): 107-110.

碳纤维表面原位生长碳纳米管的研究

李丹 ^1, , 尚建丽 ^2,

1.西安建筑科技大学材料与矿资学院,西安710055;陕西省建筑科学研究院,西安710082

2.西安建筑科技大学材料与矿资学院,西安710055

基金项目: 国家自然科学基金(51172176)

关键词：碳纤维 , 碳纳米管 , 水泥 , 表面改性 , 化学气相沉积

Research on in Situ Growth of Carbon Nanotubes on Carbon Fibers

LI Dan ^1, , SHANG Jianli ^2,

1.西安建筑科技大学材料与矿资学院,西安710055;陕西省建筑科学研究院,西安710082

2.西安建筑科技大学材料与矿资学院,西安710055

Keywords： carbon fiber , carbon naotube , cement , surface modification , chemical vapor deposition

采用化学气相沉积工艺在碳纤维的表面分别制备了形貌为卷曲状和直立状的原住生长碳纳米管,利用扫描电镜和透射电镜分析了碳纤维表面原位生长碳纳米管的形貌、管径和管壁状态,借助拉曼光谱分析了原位生长碳纳米管的微观结构.结果表明,卷曲状和直立状原位生长碳纳米管都完整地包裹了碳纤维的表面.卷曲状原住生长碳纳米管主要生长在碳纤维的轴向上,呈现卷曲状形貌,其长度分布在5～20μm,管径分布在10～150 nm.卷曲状碳纳米管之间互相交联,形成三维网络结构.直立状碳纳米管主要生长在碳纤维的径向上,呈现放射状形貌,其长度分布在10～30 μm,直径分布在10～200 nm.直立状碳纳米管在纤维表面分布均匀,碳纳米管之间形成了大量的孔隙,碳纳米管在碳纤维的表面呈现出疏松的网络结构.拉曼光谱分析发现两种碳纳米管均在1350 cm-1和1580cm-1附近出现了显著的碳峰位.此外,卷曲状和直立状碳纳米管的D峰和G峰的强度比例分别为0.352和0.351,两种碳纳米管均具有较高的石墨化程度.

参考文献

[1]	Larson B K;Drzal L T;Sorousian P .Carbon-fiber-cement adhesion in carbon-fiber reinforced cement composites[J].COMPOSITES,1990,21(3):205.
[2]	WEI Jian,CHENG Feng,YUAN Hudie.Electrical Resistance and Microstructure of Latex Modified Carbon Fiber Reinforced Cement Composites[J].武汉理工大学学报（材料科学版）（英文版）,2012(04):746-749.
[3]	Chung D D L .Cement reinforced with short carbon fibers:Amuti-functional materials[J].COMPOSITES PART B-ENGINEERING,2000,31(6):511.
[4]	Faezeh Azhari;Nemkumar Banthia .Cement-based sensors with carbon fibers and carbon nanotubes for piezoresistive sensing[J].Cement & concrete composites,2012(7):866-873.
[5]	Md. Zakaria Hossain;A.S.M. Abdul Awal .Flexural response of hybrid carbon fiber thin cement composites[J].Construction and Building Materials,2011(2):670-677.
[6]	Huang S W;Chen G H;Luo Q .Electromagnetic shielding effectiveness of carbon black-carbon fiber cement based materials[J].Adv Build Mater,2011,168(5):1438.
[7]	Han B G;Ou J P .The humidity sensing property of cement with added carbon[J].NEW CARBON MATERIALS,2008,23(4):382.
[8]	Sivaraja Muthusamy;D. D. L. Chung .Carbon-Fiber Cement-Based Materials for Electromagnetic Shielding[J].ACI materials journal,2010(6):602-610.
[9]	Xu, J.;Zhong, W.;Yao, W. .Modeling of conductivity in carbon fiber-reinforced cement-based composite[J].Journal of Materials Science,2010(13):3538-3546.
[10]	Jiang C X;Li Z Q;Song X H .Mechanism of functional responses to loading of carbon fiber reinforced cement-based composites[J].J Wuhan University of Technology:Mater Sci Ed,2008,23(4):571.
[11]	Sihai Wen;D.D.L. Chung .Electrical-resistance-based damage self-sensing in carbon fiber reinforced cement[J].Carbon: An International Journal Sponsored by the American Carbon Society,2007(4):710-716.
[12]	Chacko R;Banthia N;Mufti A .Carbon-fiber-reinforced cement-based sensors[J].Canadian J Civil Eng,2007,34(3):284.
[13]	Chung D D L .Self-monitoring structural materials[J].Material Science and Engineering,1998,22(2):57.
[14]	Shui Z H;Li J Z;Huang F B .Study on the electrical properties of carbon fiber cement composite (CFCC)[J].J Wuhan University of Technology:Mater Sci Fd,1995,10(4):37.
[15]	HUANG SHIFENG;XU DONGYU;CHANG JUN .Smart Properties of Carbon Fiber Reinforced Cement-based Composites[J].Journal of Composite Materials,2007(1):125-131.
[16]	王闯,李克智,李贺军,王君龙.表面热处理碳纤维及其增强水泥基复合材料的电磁屏蔽性能[J].硅酸盐学报,2008(10):1348-1355.
[17]	Li GY;Wang PM;Zhao XH .Mechanical behavior and microstructure of cement composites incorporating surface-treated multi-walled carbon nanotubes[J].Carbon: An International Journal Sponsored by the American Carbon Society,2005(6):1239-1245.
[18]	于志云,孙康宁,李爱民,宋凯,孙晓宁.碳纳米管/陶瓷基复合材料研究进展[J].材料导报,2004(z2):167-169.
[19]	Baoguo Han;Xun Yu;Eil Kwon .A self-sensing carbon nanotube/cement composite for traffic monitoring[J].Nanotechnology,2009(44):445501:1-445501:5.
[20]	Maria S. Konsta-Gdoutos;Zoi S. Metaxa;Surendra P. Shah .Highly dispersed carbon nanotube reinforced cement based materials[J].Cement and Concrete Research,2010(7):1052-1059.
[21]	Li GY;Wang PM;Zhao XH .Mechanical behavior and microstructure of cement composites incorporating surface-treated multi-walled carbon nanotubes[J].Carbon: An International Journal Sponsored by the American Carbon Society,2005(6):1239-1245.
[22]	Groert N .Carbonnanotubes becoming clean[J].MATERIALS TODAY,2007,10(1-2):28.
[23]	Li GY;Wang PM;Zhao XH .Mechanical behavior and microstructure of cement composites incorporating surface-treated multi-walled carbon nanotubes[J].Carbon: An International Journal Sponsored by the American Carbon Society,2005(6):1239-1245.
[24]	Tibbetts G G .Why are carbon filamentstubular[J].Journal of Crystal Growth,1984,66(4):632.
[25]	Achour A;Vizireanu S;Dinescu G et al.Electrochemical anodic oxidation of nitrogen doped carbon nanowall films:Xray photoelectron and micro-Raman spectroscopy study[J].Applied Surface Sinence,2013,273:49.
[26]	Rahmani A;Sauvajol JL;Cambedouzou J;Benoit C .Raman-active modes in finite and infinite double-walled carbon nanotubes[J].Physical review, B. Condensed matter and materials physics,2005(12):5402-1-5402-7-0.

上一张下一张

计量

下载量()
访问量()

作者相关

在本站搜索
李丹尚建丽
在百度学术搜索
李丹尚建丽
在万方数据库搜索
李丹尚建丽
在CNKI搜索
李丹尚建丽

文章评分

您的评分：
1

0%
2

0%
3

0%
4

0%
5

0%

材料期刊网