将用氢电弧法制备的单壁纳米碳管(SWNTs)提纯后与纳米Al粉体混合,在室温下冷压成型,再在260~480℃真空热压处理,制备出相对密度大于90%、SWNTs弥散分布于纳米Al基体中的单壁纳米碳管增强纳米铝复合材料.含量为2.5%(质量分数)的SWNTs对纳米Al基体的增强效果约为55%.SWNTs/纳米Al复合材料的硬度随热压温度的升高而增加,热压温度为380℃时硬度达到峰值2.21 GPa,大约是粗晶Al的15倍,比同样温度热压出的纳米Al块体的硬度高36.4%.
参考文献
| [1] | Z.M.Ceng(曾汉民),Introduction of High Technology and New Materials(高技术、新材料要览)(Beijing,ChineseScinece Press 1993) p.101 |
| [2] | C.X.Cui(崔春翔),R.J.Wu(吴人洁),In Situ Preparation of AIN and Tic Particulates reinforced Al Matrix Composite(原位AIN-TiC粒子增强铝基复合材料),Acta Metallurgica Sinica(金属学报),32(1),101(1996) |
| [3] | X.C.Sun(孙向成),X.K.Sun(孙秀魁),W.D.Wei(魏文铎),Synthesis and Microstructure of AlNp/Al Nanocom-posite(AlNp/Al纳米复合材料的制备及结构研究),Chinese Science Bulletin(科学通报),43(6),642(1998) |
| [4] | S.S.Xie(解思深),Y.B.Li(李玉宝),The Novel Nanotubes(神奇的碳纳米管),Chinese Science(科学),51(5),7(1999) |
| [5] | E.W.Wong, P.E.Sheehan, C.M.Lieber, Nanobeam mechanics: elasticity, strength, and toughness of nanorods and nanotubes, Science, 277(5334), 1971(1997) |
| [6] | M.M.J.Treacy, T.W.Ebbesen and J.M.Gibson, Exceptionally high Young's modulus observed for individual carbon nanotubes, Nature, 381(6584), 678(1996) |
| [7] | M.R.Falvo, G.J.Clary, R.M.Taylor Ⅱ, V.Chi, F.P. Brooks. Jr, S.Washburn and R.Superfine, Bending and buckling of carbon nanotubes under large strain, Nature, 389(6651), 582(1997) |
| [8] | J.P.Salvetat, G.A.D.Briggs, J.M.Bonard, R.R.Bacsa, A.J.Kulik, T.Stockli, N.A.Burnham, L.Forro, Elastic and Shear moduli of single-wMled carbon nanotube ropes, Phys.Rev.Lett., 82(5), 944(1999) |
| [9] | Y.B.Li(李玉宝),The Research of CNTs/metal Composites Synthesized by Rapidly Solidification(快速凝固碳纳米管/金属基复合材料的研究),PhD.Thesis(博士学位论文),Tsing hua University(清华大学),(1999) |
| [10] | J.Sandler, M.S.P. Shaffer, T.Prasse, W.Bauhofer, K.Schulte, A.H.Windle, Development of a dispersion pro-cess for carbon nanotubes in an epoxy matrix and the resulting electrical properties, Polymer, 40(21),5967(1999) |
| [11] | O.Lourie, H.D.Wagner, Evidence of stress transfer and formation of fracture clusters in carbon nanotube based composites, Composites Sci. Technol., 59(7), 975(1999) |
| [12] | T.Kuzumaki, K.Miyazawa, H.Ichinose, K.Ito, Processing of carbon nanotube reinforced aluminum compos-ite, J.Mater. Res., 13(9), 2445(1998) |
| [13] | S.R.Dong, J.P. Tu, X.B.Zhang, An investigation of the sliding wear behavior of Cu-matrix composite rein-forced by carbon nanotubes, Materials Sciences and Engineering A, A313(1/2), 83(2001) |
| [14] | R.Z.Ma, J.Wu, B.O.Wei, J.Liang, D.H.Wu, Processing and properties of carbon nanotubes-nano-SiC ce-ramic, J.Mater. Sci., 33(21), 5243(1998) |
| [15] | E.Flahaut, A.Peigney, Ch. Laurent, Ch. Marliere, F.Chastel and A.Rousset, Carbon nanotube-metal-oxide nanocomposites: microstructure, electrical conductivity and mechanical properties, Acta mater., 48(14),3803(2000) |
| [16] | S.W.Zhu(朱绍文),Z.J.Jia(贾志杰),Research Actualities of Carbon Nanotube and Its Application(碳纳米管及其应用的研究现状),Journal of Functional Materials(功能材料),31(2),119(2000) |
| [17] | X.K.Sun, H.T.Cong, M.Sun and M.C.Yang, Preparation and mechanical properties of highly densified nanocrystalline Al, Metallurgical and materials transactions A, 31(3A), 1017(2000) |
| [18] | C.Liu, H.T.Cong, F.Li, P.H.Tan, H.M.Cheng, K.Lu, Semi-continuous synthesis of single-walled carbon nanotubes by a hydrogen arc discharge method, Carbon, 37(11), 1(1999) |
| [19] | P.X.Hou, C.Liu, Y.Tong, S.T.Xu, M.Liu, H.M.Cheng, Purification of single-walled carbon nanotubes syn-thesized by the hydrogen arc-discharge method, J.Mater. Res., 16(9), 2526(2001) |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%