JMMCE  Vol.7 No.4 , December 2008
Carbon Nanotube Reinforced Ceramic Matrix Composites- A Review
ABSTRACT
This paper provides an overview of recent advances reported in literature in ceramics matrix composites research in the context of reinforcement with carbon nanotubes. Current state of research has indicated the potential of these nanocomposites but at the same time, has illustrated the significant challenges in processing and improving properties. Fundamental work in processing, characterization and analysis is important before the structural properties of this new class of nanocomposites can be optimized. The fields of the nanocomposite materials have received a lot of attention and close scrutiny of scientists and engineers in recent years. This scrutiny results from the simple premise that using building blocks with dimensions in the nanometer range makes it possible to design and create new materials with unprecedented flexibility. The driving force behind the fabrication of novel nanocomposites is to achieve high functional properties for high end applications.

Cite this paper
S. Samal and S. Bal, "Carbon Nanotube Reinforced Ceramic Matrix Composites- A Review," Journal of Minerals and Materials Characterization and Engineering, Vol. 7 No. 4, 2008, pp. 355-370. doi: 10.4236/jmmce.2008.74028.
References
[1]   S. Iijima, “Helical microtubules of graphitic carbon”, Nature, 1991, v354, pp. 56-58.

[2]   P. J. F. Harris, ‘Carbon nanotubes and related structures’, Cambridge University press, 1999.

[3]   E. T. Thostenson, Zhifeng Ren, Tsu-Wei Chou, “Advances in the science and technology of carbon nanotubes and their composites”, Composite Science and Technology, 2001, v61, pp. 1899-1912.

[4]   Young-Hag Koh, Hae-Won Kim and Hyoun-Ee Kim, “Mechanical behavior of polymer and ceramic matrix nanocomposites”, Scripta Materialica, 2001, 44 v8-9, pp. 2061.

[5]   E. Flahaut, A. Peigney, Ch. Laurent, Ch. Marlière, F. Chastel and A. Rousset, “Carbon nanotube–metal–oxide nanocomposites: microstructure, electrical conductivity and mechanical properties”, Acta Materialia, 2000, v48, pp. 3803-3812.

[6]   J. W. An, D. H. You and D. S. Lim “Tribological properties of hotpressed alumina/CNT composites”, Wear 2003, v255, pp.677-681.

[7]   A. Peigney, E. Flahaut, Ch. Laurent, F. Chastel and A. Rousset, “Aligned carbon nanotubes in ceramic-matrix nanocomposites prepared by hightemperature extrusion”, Chemical Physics Letters, 2002, v352, pp. 20-25.

[8]   Balazsi, Z. Kónya, F. Wéber, L. P. Biró and P. Arató, “Preparation and characterization of carbon nanotube reinforced silicon nitride composites”, Materials Science Engineering C, 2003, v23, pp. 1133-1137.

[9]   S. Rul, Ch. Laurent, A. Peigney and A. Rousset, “Carbon nanotubes Prepared in situ in a cellular ceramic by the gelcasting-foam method”, Journal of the European Ceramic Society, 2003, v23, pp. 1233-1238.

[10]   Guo- Dong Zhan, Joshua Kuntz, Julin Wan, and A.K. Mukherjee, “Singlewall carbon nanotubes as toughening agents in alumina-based nanocomposites”, Applied Physics Letters. 2003, v83, pp.1228-1233.

[11]   Xiaotong Wang, Nitin Padture and Hidehiko Tanaka, “Contact damageresistant ceramic/single-wall carbon nanotubes and ceramic/graphite composites”, Nature Materials, 2004, v3, pp. 539-544.

[12]   Z. Xia, L. Riester, W. A. Curtin, H. Li, B. W. Sheldon, J. Liang, B. Chang and J. M. Xu, “Direct observation of toughening mechanisms in carbon 23 nanotube ceramic matrix composites”, Acta Materialia, 2004, v52, pp. 931-944.

[13]   S. Rul, F. Lef_evre-schlick, E. Capria, Ch. Laurent, A. Peigney , “Percolation of single-walled carbon nanotubes in ceramic matrix nanocomposites”, Acta Materialia, 2004, v52, pp. 1061-1067.

 
 
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